Regulation of the Minister of Economic Affairs, the Minister of Social Affairs and employment and the Minister of health, welfare and Sport of 18 October 2013, nr. WJZ/12066857, laying down the detailed arrangements for radiation protection of the Minister for Economic Affairs (rule of law relating to radiation protection EZ) the Minister of Economic Affairs, the Minister of Social Affairs and employment and the Minister of health, welfare and Sport;
Having regard to Council Directive 96/29/Euratom of 13 May 1996 laying down basic safety standards for the protection of the health of workers and the general public against the dangers arising from ionizing radiation (OJ 1996, L 159), Directive 97/43/Euratom of 30 June 1997 on health protection of individuals against the dangers of ionizing radiation in relation to medical exposure, and repealing Directive 84/466/Euratom (OJ 1996 , L 180), Council Directive 90/641/Euratom of 4 december 1990 on the operational protection of outside workers exposed to the risk of ionizing radiation during their work in a controlled area (OJ 1990, L 349) and Directive 2003/122/Euratom of 22 december 2003 on the control of high-activity sealed radioactive sources and orphan sources (Ojeu 2003 , L 346) and articles 3, first and second paragraph, 7b, paragraph 2, 7th, paragraphs 2 and 3, 11, fourth paragraph, 12, paragraph 1, 12a, paragraph 2, 18, 19, 20 d, third paragraph, 25, fifth through eighth member, 26, second paragraph, 28, parts e and f, 29, 37, third paragraph, eighth member, 40, 43, 44, first paragraph, second paragraph, second paragraph , 107, 108, paragraph 4, fourth paragraph, first and second paragraph 109, 110, 120, 121, 120a, second paragraph, third paragraph, fourth paragraph, and 132, paragraph 1, of the decision stralingbescherming;
Decisions: Chapter 1. General provisions article 1.1. Definitions In this regulation, the following definitions shall apply: – current individual dose: an effective dose resulting from the use of an area outside the location taking into account the actual current use of the environment;
– decision: the decision radiation protection;
– Minister: the Minister for Economic Affairs;
– multifunctional individual dose: an effective dose resulting from the use of an area outside the location in such a way that this gives rise to the highest possible dose;
– law: the nuclear energy Act.

Article 1.2. Values and concentrations of activity activity 1 Annex 1 contains the activities and activity concentrations of radionuclides in determining exemption limits and release limits for operations and activities, as well as the release values for discharges in water and air of radionuclides as a result of work in GBq per calendar year.
2 annex 1 gives the method by which activity concentrations and activities are weighed and tested and points to the radionuclides that are exempt from summons.
3 Annex 1.3 contains the values of the activity to which is reviewed or a sealed source meets the definition of high activity source.

Article 1.3. Determination The determination of the effective doses doses shall be carried out in the manner specified in annex 1.4.

Article 1.4. Calculation rules for ionizing radiation effects the environment analysis in determining the ambient dose equivalents, the equivalent and effective doses, referred to in article 3, paragraph 1 of the decision, the calculation rules, included in chapters 2, 3 and 4 of annex 1.5 and, in cases specified in paragraph 5.1 of annex 1.5, in chapters 5 and 6 of annex 1.5.

Article 1.5. Exception analysis for ionizing radiation effects the environment by way of derogation from article 1.4 may, if the Minister agrees, other than prescribed in annex 1.5 methods, parameters or parameter conditions are applied, if a situation significantly different from the assumptions which in 1.5 annex is assumed.

Article 1.6. Method when the ambient dose equivalents ambient dose equivalents, review the equivalent and effective doses, referred to in article 3, paragraph 1, of the decision are checked against the doses, referred to in articles 6, paragraph 2, and 48 of the decision, in accordance with the methods indicated in paragraphs 3.3, 4.3, 4.4 and chapters 5, 6 and 7 of annex 1.5.

Article 1.7. Radiation incidents hotline the hotline, referred to in Article 12a of the decision, is the human environment and transport.

Article 1.8. Select provision work the items 2.2 to 2.4, 2.9, 5.8 and 5.9 shall apply mutatis mutandis to work.
Chapter 2. Administrative and organisational measures radiation protection Article 2.1. Definitions In this chapter: – Administration: an administration referred to in article 120 of the Act;
– radiation protection unit: a radiation protection unit referred to in article 12 of the Act;
– License: license for acts referred to in § 4.2 of the decision and for the discarding of radioactive substances referred to in § 4.4 of the Act.

Article 2.2. Presence radiation protection unit 1 A radiation protection unit is present in a company and at sites where different organizational components or different operations in different places by the entrepreneur with more than 100 resources for which a license is required.
2 A radiation protection unit is present in establishments referred to in article 15 (b) of the law, for which the decision nuclear installations, nuclear fuels and ores.
3 The license of another kind of entrepreneur than that an enterprise has referred to in the first and second member can contain the requirement of the presence of a radiation protection unit, if in its establishment: a. operations are performed that match those in the undertakings referred to in the first and second paragraph or on the locations referred to in the first paragraph; and (b) in the opinion of the Minister is required a management system, which is similar to that in the enterprises referred to in paragraphs 1 and 2.

Article 2.3. Method If a radiation protection unit radiation protection unit is prescribed, the entrepreneur about health physics, in which an internal settlement in any case, it is established: (a) the objectives and principles of the management system;
b. the scope;
c. the radiation protection organization, with a description of the tasks, responsibilities, powers of the acts involved in the conduct of organizational parts and employees, as well as the internal monitoring and reporting thereon;
d. the formative size, the required additional experts and the necessary administrative or technical support;
e. a ban without internal permission acts;
f. a management system of internal permissions;
g. working methods and procedures for acts including the admission requirements for exposed workers, registration requirements and periodic checks;
h. a waste plan for the collection, storage and transfer of radioactive waste;
i. an emergency scheme for incidents or accidents with sources.

Article 2.4. General Coordinating expert tasks in the radiation protection unit The General Coordinating expert in the radiation protection unit shall be responsible for: a. the preparation and development of the radiation protection policy and advice on this policy;
b. preparing and if mandated provision of internal permissions;
c. keeping internal monitoring of compliance with the legal provisions and of the requirements set out in the internal rules, in the radiation protection regulations and in the internal permissions;
d. reporting the new applications to the Minister, in so far as this message follows a rule in the licence;
e. managing and maintaining the proper administration of relevant information relating to the health physics, on the applications and the radiation sources;
f. the annual ensure reporting on the radiation hygiene on the entrepreneur and the Minister.

Article 2.5. Notification of acts with sources 1 the notification, referred to in article 21 of the decision, contains at least: a. the name and address of the person that signs the message;
b. the name and address of the operator;
(c) the address of the location of the source;
d. a description of the sign in sources: e. the maximum high voltage, expresses in kilovolt if the source is a device;
f. the radionuclide and maximum activity, if the source is a radioactive substance;
g. a description of the application for which the source is used;
h. a statement that the maximum effective dose that a person can receive outside the location per calendar year as a result of acts with that source is less than 10 microsieverts.
2 the statement, mean in the first paragraph, point (h) can be replaced by the following: a. a statement of the actual maximum effective dose and b. information on how does justice to article 5 of the decision for people outside the venue.
3 the notification, referred to in article 22 of the decision contains at least: a. the name and address of the person that signs the message;
b. the name and address of the operator;
(c) the address of the location of the source;
d. a description of the logged-out sources;
e. the maximum high voltage, expressed in kilovolt if the source is a device;
f. the radionuclide and maximum activity, if the source is a radioactive substance;
g. if applicable how the entrepreneur of the source.


Article 2.6. Permit application actions with sources 1 an application for marketing authorization acts contains at least: a. the name and address of the person who signs the request;
b. the name and address of the operator;
c. a description of the location and the address or cadastral data, at varying locations is given the best possible indication of this;
d. a description of the Act for which the permit is requested and the purpose thereof;
e. the maximum total effective dose both as a result of discharges if as a result of external radiation on the basis of omgevingsdosisequivaltenten, that a person can receive in a calendar year at any point outside the location of all notification and require acts together within the location where the application for authorisation;
f. the maximum effective dose equivalent or that the involved employees can receive in a calendar year;
g. a description of the radiation protection organization and expertise related to the Act;
h. an indication of the duration of the Act;
i. an overview of all notifiable and require acts within the location, specified as to type and size.
(2) if the application relates to an act with an appliance, it contains a description of the unit indicating the data on ionizing radiation that the device can emit.
3 If the application relates to an act with radioactive substances, they also contain: a. a statement of the radionuclides, for which authorization is sought;
b. a statement of the arms subject as a result of all acts up to in the air, in the public sewer, surface water, or in the bottom to discharge radiotoxiteitsequivalenten for the location to which the application refers, expressed in radiotoxiteitsequivalenten for inhalation or ingestion and weighted for inhalation and ingestion;
c. the radiotoxoteitsequivalenten for which the permit to discharge is requested.
4 If the application relates to an act with a sealed source, it contains Furthermore an indication of the chemical and physical state and form whereby these radioactive substances a sealed source forms as well as an indication of the construction and the quality of the source.
5 If the application concerns an act with radioactive substances, it contains Furthermore an indication of the weighted and aggregated in accordance with Annex 1.2 activity at any time of the radionuclides in the radioactive materials, which on the location referred to in the first paragraph at most will be present.
6 If the application relates to an act with a high-activity source, it contains in addition: a. information about the volume of the source, the source holder and fixed shielding of that source;
b. written proof that the under article 20, paragraph 1, of the decision required financial security has been lodged.
7 if the ambient dose equivalent, referred to in paragraph 1, point (e) is higher than 10 microsieverts, or the radiotoxiteitsequivalenten of the discharged activities represent a dose equal to or greater than 1 micro sievert, in a calendar year at any point outside the location, the application also contains a description of the measures necessary for the prevention of and protection from damage in and outside the location.

Article 2.7. Measures for high activity sources 1 the entrepreneur provided the Minister within two weeks after acquiring a high-activity source the information referred to in annex 2.1. He uses the form listed in that annex.
2 the entrepreneur provided the Minister each time within two weeks after the beginning of a calendar year and after the time when he the high-activity source is no longer in his possession: a. the identification number of the high-activity source;
b. the name of the operator;
c. the location of the high-activity source and the place where this resource is within this location, stating whether there is fixed use or storage for mobile use;
d. the number of the licence;
e. the type of radionuclide;
f. the activity of the high-activity source on the date of manufacture or, if this activity is unknown, the activity on the date that the source for the first time on the market;
g. the date referred to in section f of production or the date that the source for the first time on the market.
3 in the case of a change of information provided in accordance with the second paragraph provides the entrepreneur the Minister the modified data within two weeks after that change.
4 If a high-activity source to another, provided the entrepreneur, together with the data he provided for this purpose on the basis of the second paragraph, the name of the person to whom he has transferred the source.
5 If the entrepreneur no high-activity source more in his possession, he makes that fact in providing the data referred to in paragraph 2.
6 the entrepreneur provided on request to the Minister the information referred to in article 2, paragraph 3.

Article 2.8. Further content administration reporting sealed sources 1 an administration contains in addition to the information referred to in article 120, paragraph 2, of the decision in any case: (a) the data on the exposed workers, referred to in article 90 of the Act;
b. the medical files referred to in article 100 of the decision.
2 At acts with devices referred to in article 21 of the Act contains the Administration in addition: a. make, type and year of manufacture of the generator and the connected tripod;
b. the maximum output that the system can deliver, expressed as a function of the maximum high voltage of the x-ray tube and the tension that the generator can supply;
c. place and nature of the application;
d. the name and expertise of the person who has done a check;
e. date and result of checks carried out.
3 at acts with high activity sources contains an administration for each high-activity source also: (a) the information referred to in the annex 2.2 on the form listed in this annex, and b. the source provided by the manufacturer or supplier of the color photo of the design of that source and the source container.

Article 2.9. Data retention period in Administration 1 the data in an administration for at least five years after the calendar year to which they relate.
2 the data referred to in article 2, paragraph 1, point (b), be retained for the duration and according to the modalities foreseen in article 100, paragraph 2, of the decision.

Article 2.10. Industrial radiography 1 Administration the Administration referred to in article 121, paragraph 1, of the decision contains: a. the name of the holder of the marketing authorisation and the number of the permit issued for the relevant acts;
b. the time when or period within a calendar year in which the acts are carried out;
(c) the location, nature and extent of the operations;
d. the acts attributable to the maximum increase in the effective dose that people at any point outside the location.
2, where a person who within a location shooting or industrial radiography is applied in the context of non destructive testing is in the records referred to in paragraph 1, the total number of shots and hours industrial radiography within the same site. For the purposes of this provision, the number of shots with the number of films used for that purpose.
Chapter 3. Radiation protection expertise § 3.1. Experts article 3.1. Definitions In this chapter: – student: the one who is enrolled in a training;
– diploma: a diploma, certificate or other certificate: a. referred to in the temporary arrangement recognition training experts radioactive substances and equipment 2013, b. referred to in the scheme recognition training experts radioactive substances such as this arrangement was on 19 July 2003, or c. that is issued by a recognized institution as indicated in section 3.2.
– recognition: recognition as referred to in article 7f, first paragraph, of the Decision radiation protection;
-facilities: a course program, rooms for theoretical and practical classes, a course administration and a document management system;
– setting: the legal entity or natural person responsible for organising the training;
training: the training or education of the institution for which recognition is sought;
– Training Manager: the person or persons designated by the institution for the assurance of the quality of the training;
– Register: the register referred to in Article 7b, first paragraph, of the decision.

Article 3.2. Registration registration, re-registration or extraordinary registration of a person in the register takes place by the Minister if the conditions required under this chapter to the registration, re-registration or extraordinary registration.

Article 3.3. Criterion for registration 1 the person who is registered as a general coordinating expert possesses a degree from a general coordinating training expert.
2 the person who is registered as a coordinating expert possesses a degree from a training to coordinating expert.
3 registration in the registry is single and has a duration of up to five years.

Article 3.4. Criteria for re-registration (General Coordinating expert) 1 the General Coordinating expert is hergeregistreerd: a. possess a degree from a training to General Coordinating expert

b. has an employer statement which shows that those in the five years preceding the date of the application a minimum of 500 hours per year has been working in the field of application of ionizing radiation and c. has in the last five years preceding the application in accordance with part A of annex 3.1, 200 points earned with knowledge maintenance within the scope of application of ionizing radiation.
2 A re-registration in the registry has a duration of up to five years.

Article 3.5. Criteria for re-registration (coordinating expert) 1 the coordinating expert is hergeregistreerd: a. possess a degree from a training to coordinating expert b. has an employer statement which shows that those in the five years preceding the date of the application a minimum of 250 hours per year has been working in the field of application of ionizing radiation and c. has in the last five years preceding the application in accordance with part A of annex 3.1 , 120 points earned with knowledge maintenance within the scope of application of ionizing radiation.
2. Article 3.4, paragraph 2, shall apply mutatis mutandis.

Article 3.6. Criteria for extraordinary registration General Coordinating expert 1 the General Coordinating expert, extremely is recorded: a. Once registered in the registry, b. possesses a degree from a training to General Coordinating expert c. meets the core competencies, referred to in part B of annex 3.1.
2 an extraordinary registration in the registry has a duration of up to five years.

Article 3.7. Criteria for extraordinary registration coordinating expert 1 the coordinating expert, extremely is recorded: a. Once registered in the registry, b. possesses a degree from a training to coordinating expert c. meets the core competencies, referred to in part C of annex 3.1.
2. Article 3, paragraph 2, shall apply mutatis mutandis.

Article 3.8. Issue date diploma, certificate or certificate a diploma referred to in articles 3.3, 3.4, paragraphs 1 and 2, paragraph 1, part a, paragraph 1 (a), 3.5, 3.6, 3.7, and part b, first paragraph, first paragraph, part b, shall be issued for a period in which the relevant training that the diploma, certificate or other certificate issued, in accordance with article 7f or 132 of the decision is recognized.

Article 3.9. Request registration, re-registration or extraordinary registration 1 The application for registration, re-registration or extraordinary registration contains at least: a. the name and address of the applicant;
b. the position for which the applicant wishes to be registered;
c. a copy of the diploma issued by a recognized training referred to in article 7f or 132 of the decision, which shows that experts at the level of a general coordinating expert or coordinating expert, or equivalent, is obtained.
2 the application for re-registration also includes: a. a proof showing that the required work experience has been gained;
b. a description indicating that the required in-or continuing education is followed.
3 the application for registration contains extraordinary evidence to show compliance with the key competences referred to in annex 3.1, part (B) or (C). 4 the decision deadline within which a request for re-registration or extraordinary registration is taken is limited to a maximum of 16 weeks.

Article 3.10. Transitional termination right the date referred to in article 132, paragraph 1, of the decision is 1 January 2014.

Article 3.11 the General Coordinating expert been entered in the register can also function as a coordinating expert.

§ 3.2. Recognition of training in the field of radiation protection Article 3.12. Recognition 1 the Minister recognizes a setting if this setting features a training in the field of radiation protection referred to in articles 3.14 to 3.20.
2 A recognition has a duration of 5 years and may thereafter be extended for 5 years.
3 the Minister may revoke a recognition if no longer plausible is that the conditions for approval referred to in paragraph 1, are met.

Article 3.13. Application for recognition 1 the application for approval shall be accompanied by the following information: a. the name and address of the institution;
b. the name of the training;
c. the name and expertise of the training manager;
d. a description of the design, the subjects, the target group, the objective and the duration of the training;
e. the composition and internal rules of the examination committees of the training;
f. a description of the way in which the independence of the examination of the training is safeguarded;
g. a description of the way in which interpretation is given to the adequate procedures referred to in articles 3.21 and 3.22.
2 to 1 January 2018 is on an application for recognition shall decide within 32 weeks.
3 from 1 January 2018 is on an application for recognition shall decide within 16 weeks.

Article 3.14. Training as a general coordinating expert training to General Coordinating expert: a. provides students of the key competences referred to in annex 3.1, part B;
b. has the facilities necessary to make sure that students from the core competencies, referred to in point (a),;
c. has adequate procedures for the quality assurance as referred to in articles 3.21 and 3.22;
d. has a training manager that is registered as a general coordinating expert;
e. General Coordinating expert to exclusively provide diplomas to students who the training referred to in paragraph (a), to good effect.

Article 3.15. Training to coordinating expert training to coordinating expert: a. provides students of the key competences referred to in annex 3.1, part C;
b. has the facilities necessary to make sure that students from the core competencies, referred to in point (a),;
c. has adequate procedures for the quality assurance as referred to in articles 3.21 and 3.22;
d. has a training manager that is registered as a general coordinating expert;
e. only diplomas to students who coordinating expert to the training referred to in this article, to good effect.

Article 3.16. Training in the field of radiation protection for sealed sources and x-ray equipment with a moderate risk (level 4A) a training in the field of radiation protection is level 4A if: a. the topics referred to in the table in part A of annex 3.2, according to the level as shown in that table covers;
b. It features facilities necessary to the subjects, referred to in point (a);
c. it offers adequate procedures for the quality assurance as referred to in articles 3.21 and 3.22;
d. the training manager is registered as a coordinating expert;
e. the only diplomas on level 4A provided to persons that the training referred to in this article, to good effect.

Article 3.17. Training in the field of radiation protection for radioactive sources with a moderate risk (level 4B) A training in the field of radiation protection is level 4B if: a. the topics referred to in the table of part B of annex 3.2, according to the level as shown in that table covers;
b. It features facilities necessary to the subjects, referred to in point (a);
c. it offers adequate procedures for the quality assurance as referred to in articles 3.21 and 3.22;
d. the training manager is registered as a coordinating expert;
e. the only diplomas in level 4B provided to persons that the training referred to in this article, to good effect.

Article 3.18. Training in the field of radiation protection for low-risk sealed sources and x-ray equipment (level 5A) A training in the field of radiation protection is level 5A if: a. the topics referred to in the table of part C of annex 3.2, according to the level as shown in that table covers;
b. It features facilities necessary to the subjects, referred to in point (a);
c. it offers adequate procedures for the quality assurance as referred to in articles 3.21 and 3.22;
d. the training manager is registered as a coordinating expert;
e. the only diplomas on level 5A provided to persons that the training referred to in this article, to good effect.

Article 3.19. Training in the field of radiation protection for low-risk radioactive sources (level 5B) A training in the field of radiation protection is level 5B if: a. the topics referred to in the table of part D of annex 3.2, according to the level as shown in that table covers;
b. It features facilities necessary to the subjects, referred to in point (a);
c. it offers adequate procedures for the quality assurance as referred to in articles 3.21 and 3.22;
d. the training manager is registered as a coordinating expert;
e. the level 5B only diplomas on the training provided to persons, referred to in this article, to good effect.

Article 3.20. Training for radiological operations 1 A training at an institution as indicated in article 7f, first paragraph, of the decision, provides:

a. doctors as referred to in article 2, paragraph 2, of the settlement expertise requirements radiological operations, under whose responsibility radiological operations are carried out, of the core competencies, described in annex 3, part A;
b. dentists as referred to in article 2, paragraph 3, of the settlement demands radiological expertise operations, under whose responsibility radiological operations are carried out, of the core competencies, described in annex 3.3, part B;
c. dentists under whose medical responsibility patients are exposed to ionizing radiation from a cone beam CT of the core competencies, described in annex 3.3, part C;
d. radiation oncologists oncologist referred to in article 2, paragraph 1, of the settlement expertise requirements radiological operations, from the core competencies, described in annex 3.3, part D;
e. radiologists as referred to in article 2, paragraph 2, of the settlement expertise requirements radiological operations, from the core competencies, described in annex 3.3, part e. 2 training at an institution as indicated in the first paragraph: a. has the facilities necessary to make sure that students from the core competencies, referred to in paragraph 1,;
b. has adequate procedures for the quality assurance as referred to in articles 3.21 and 3.22;
c. has a training manager that is registered as a coordinating expert;
d. provided only qualifications for radiological operations to students an education, referred to in paragraph 1, have completed successfully.

Article 3.21. Adequate procedures and exams training has adequate procedures for the quality assurance if: a. the examinations of the institution are regulated by a examination regulations in which at least is regulated: 1 °. the composition of the Board of Examiners, as regards the required expertise in the field of radiation protection and didactics;
2 °. the involvement of an official of the Ministry of Economic Affairs or the Ministry of health, welfare and Sport in the case of a medical training;
3 °. the duration and mode of assessment;
4 °. the secrecy of the test papers;
5 °. the assessment standards and the standards for success, retaking exams and rejection;
6 °. provisions of a practicum;
7 °. an appeal procedure and a complaints procedure on the exam;
8 °. a scheme for the examination of candidates with dyslexia or a work disability;
b. the training manager at the end of each exam an exam report;
c. the setting on each candidate's examination regulations may provide;
d. the written exam work for at least 1 year after the end of the exam is preserved and available for inspection at the request of the student for him.

Article 3.22. Adequate procedures and A training diplomas has adequate procedures for the quality assurance if: a. the institution has established a model for the diploma of training;
b. provided diplomas are signed by the Chairman of the examination Committee and by the institution;
c. only a diploma is awarded to a student, which the exam was successful;
d. the institution on a current system, in which students, approved scoring tables and issued diplomas of training be registered.

Article 3.23. Transitional law 1 an institution receives a recognition to 1 april 2016 for training of the levels 2 and 3, which on 1 July 2014 in the temporary scheme recognition training experts radioactive substances and devices by 2013.
2 an institution receives a recognition until 1 January 2017 for training the levels 4a, 4b, 5a and 5b on 1 July 2014 in the temporary scheme recognition training experts radioactive substances and devices by 2013.
3 a training of level 2, as referred to in paragraph 1, shall be treated in the same way a training as referred to in article 3.14.
4 a training of level 3, as referred to in paragraph 1, shall be treated in the same way a training as referred to in article 3.15.

Article 3.24 the temporary arrangement recognition training experts radioactive substances and equipment 2013 is hereby repealed with effect from 1 January 2017.
Chapter 4. Reporting sources § 4.1. General rules Article 4.1. Scope this chapter only applies to reporting sources referred to in article 21 of the decision.

Article 4.2. Definitions In this chapter: – mountain place: space exclusively used for the storage of radioactive substances;
– infection control: control a surface or an object, not being a sealed source, on radioactive contamination, where the following is taken into account: 1 °. the surface that is rubs off is approximately 5 cm2;
2 °. the detection limit of the measurement amounts up to 2 for all nuclides becquerel;
– source certificate: document from the manufacturer of the encapsulated in which at least activity, the nuclide, the data of the capsule, the classification according to international standard ISO 2919:1999 or later and the serial number;
– diploma: a diploma, certificate or other certificate: a. referred to in the temporary arrangement recognition training experts radioactive substances and equipment 2013, b. referred to in the scheme recognition training experts radioactive substances such as this arrangement was to 20 July 2003, or c. that is issued by a recognized institution as indicated in section 3.2;
– inherently safe unit: unit that is designed to provide exposure to the primary bundle at using it as much as possible and is equipped with protections that turn off the unit immediately if these protections be broken;
– internal transport: moving radioactive substances, nuclear fuel or ores within an establishment or a location, or between two locations within a facility, if transport is subject to regulations on the establishment and not via the public road transport takes place;
– leak: a source in which a rubs off activity of more than 185 becquerel;
– leak test: a test case of a radioactive substance on radioactive contamination;
– radioactive contamination: an alpha contamination of 0.4 Bq or more per cm2 or a beta/gamma contamination of 4 becquerels per square centimeter or more;
– warning sign: warning sign referred to in article 20, paragraph 1, of the decision.

Article 4.3. 1 an entrepreneur organization ensure that: a. acts done by or under the supervision of a supervisory expert who has a diploma at the level of General Coordinating expert, coordinating expert, level 4a or 5a level;
b. the supervisory expert in writing referred to in (a) mandated for this responsibility and that this, as often as necessary but at least once per calendar year, accountability to him travels through a reporting;
c. the one who perform actions with sources have a diploma on the next level of radiation expertise: 1 °. any actions which the source in a fairly radiant position: the level of General Coordinating expert, coordinating expert, level 4a or 5a level;
2 °. for removing from, or placing the source holder containing the sealed source in the device or installation: the level of General Coordinating expert, coordinating expert, 4a or 5a;
3 °. to apply or remove the sealed source from the source holder or fixed measuring Setup other than by a supplier: the level of General Coordinating expert, coordinating expert or 4a;
4 °. infection control: the level of general responsibility for coordinating expert or coordinating expert.
2 by way of derogation from the first paragraph, subparagraph (a), an entrepreneur who acts as a dentist or under whose responsibility a dentist acts or later do, that these acts occur by or under the supervision of a supervisory expert who has a degree from a training referred to in articles 3.17, 3.18 3.20, paragraph 1, subparagraph (b). or 3 by way of derogation from the first paragraph (a), an entrepreneur who acts as a dentist with a cone beam CT or a dentist under whose responsibility acts with a cone beam CT or let do, that these acts occur by or under the supervision of a supervisory expert who has a degree from a training referred to in articles 3.16 or 3.20, paragraph 1, part c. 4 The reporting referred to in paragraph , part b, contains a summary of the activities in that calendar year within the framework of radiation protection and the results thereof.
5 The report is stored in the management system and includes: a. an overview of the sources in the enterprise and any mutations in it, with an indication of place and nature of the application;
b. changes in the Organization of radiation protection;
c. audit work; and d. calamities and radiation incidents.

Article 4.4. Environmental impact an operator shall ensure that, where appropriate, the actions caused by the reported and licensed contribution to the effective dose outside the location is as low as reasonably achievable, with the multifunctional individual dose in no case the value of 10 microsieverts per calendar year exceeds.

§ 4.2. Sealed sources Article 4.5. Requirements for sealed sources 1 an entrepreneur ensures that:

a. an incoming shipment with a sealed source in a place designated by the supervisory expert is unpacked and checked;
b. If the package is damaged during transport or when a radiation incident as the supervisory expert informed and an infection control takes place on the package prior to unpacking;
(c) when a shipment with a sealed source is delivered outside of working hours, the supervisory expert about this immediately informed and the source directly is stored in a storage room;
d. the return packaging a shipment with a sealed source, before they leave the location, both in-and externally is stripped of radioactive contamination, including indications or warning signs of radioactivity to be removed or made;
(e) the construction of a sealed source that meets the requirements in the International Standard ISO 2919:1999 or later;
f. the sealed source is accompanied by the source certificate that has been issued for this resource;
g. the circumstances in which the actual use of the sealed source takes place shall not be heavier than those for which it is designed;
h. the sealed source not leak;
i. the data from the sealed source and the sealed source, if practicable, with a serial number;
j. the sealed source or the source holder, if practically possible, comes with a warning sign.

Article 4.6. Safety requirements 1 an entrepreneur ensures that: a. measures be taken to prevent a sealed source in the radiation by an unauthorized or unintended position;
b. the sealed source is available in the radiant position, if equipment is operated, which on the outside of the source holder is clearly visible at all times, if necessary with the help of suitable measuring equipment, or the sealed source in the radiant position;
c. the work location is not, or at least not without further warning is accessible to persons who are not directly involved;
d. in the proximity of the sealed source no combustible, brandbevorderende or explosive substances are present, unless their presence is necessary for the conduct of business;
e. a sealed source, barring a sealed source that is applied in a fixed measurement Setup, after use, stored in a storage room;
f. a sealed source, which is applied in a fixed measurement Setup, in a mountain village is stowed if: 1 °. the measurement Setup finally scrapped, or, 2 °. This from radiation protection point of view is necessary.
2 by way of derogation from paragraph 1, part f, the source holder with the sealed source not from the permanent measuring Setup to be deleted, if: a. the manufacturing process is temporarily discontinued, b. during the strike of the production process the source holder with the sealed source is locked and c. the supervisory expert has given permission.

Article 4.7. Control 1 an entrepreneur ensures that: a. sealed sources be checked periodically, at least once a calendar year where there is a Visual check of the encapsulated source and, if it applies, the source holder;
b. the sealed source, the source holder or the measurement Setup at least once a calendar year according to a documented procedure is checked on a leak, a radioactive contamination and on the omgevingsdosisequivalenttempo on the outside of the source holder, with damage to the sealed source;
c. the results of the checks referred to in (a) and (b), be registered, stating: 1 °. the date of the inspection, 2 °. the serial number of the source that's checked, 3 °. the way in which the scan was run, 4 °. the name of the expert who carried out the control and 5 °. the results of the control.
2 by way of derogation from the first paragraph, the leak test or infection control mentioned in the first paragraph, do not have to be run at: a. sealed sources with an activity of less than 1 and less than 0.02 Reinh MBq and b. for gaseous sealed sources.
3 an entrepreneur makes sure that when sealed source, referred to in paragraph 1, finally no more, this, before they will be stored in the shed or is transferred, according to a documented procedure a leak test is running.

Article 4.8. Storage place the entrepreneur ensure that: a. the omgevingsdosisequivalenttempo on the outside of the in any case at no point on 0.1 m from the surface of the mountain place a omgevingsdosisequivalenttempo is measured by more than 1 microsieverts per hour;
b. the outside of the storage place is equipped with a clearly legible and indelible inscription ' RADIOACTIVE MATERIAL ' and by a clearly visible warning sign;
c. sound mountain site is closed, and only can be opened by the entrepreneur or persons who have been given the power of him;
(d) the construction of the mountain place, whether or not forming part of a building, meets the requirement that the fire resistance is not lower than 60 minutes;
e. the mountain place arguably known to the Fire Department;
f. dedicated in a registry, which is located in or near the mountain place, the amount of radioactivity which occurred in the mountain area, where the registration takes place at least specified to nuclide and activity. Also, each issue or receipt of a sealed source from or in the mountain place right away in this register, which is also the destination upon the issue of an appeal;
g. when the mountain place easy to move, she is placed in a lockable room or Cabinet, which sound is closed, and only can be opened by the entrepreneur or persons who have been given the power of him.

Article 4.9. Drain sealed source the entrepreneur makes a sealed source for the drain recognizable as such is stored in a repository.

§ 4.3. Appliances Article 4.10. Demands on equipment 1 the entrepreneur shall ensure that in respect of inherently safe appliances: a the device is built in a device in such a way that it does not operate or stairs when the device is open. The casing of the device is with this in mind, if possible, with switches which forced disconnect mechanically secured;
b. the unit is used only when the protections that have been made on the device to reduce the radiation levels outside the device, in good condition;
c. at no point on 0.1 metres from a reach outside of the device is a dosisequivalenttempo can be measured by more than 1 microsieverts per hour;
d. the operation to operate the device is made at a place where the effective dose is less than 1 millisievert per year;
e. the device is equipped with a warning sign.
2 The contractor shall ensure that in relation to other devices than those referred to in the first paragraph: a. such a foreclosure is made that the radiation that may occur, except at the place of the opening intended for it to come out of the useful rays bundle, as little as reasonably possible may cause harm;
b. a tubus or other means that the size of the useful rays bundle provides the same level of protection against radiation as the casing of an appliance;
c. an appliance and the associated help and security resources are arranged and shielded that persons do not need to expose to the primary rays bundle, unless they undergo a radiological operation;
d. measures are taken with regard to the establishment and operation of a device to prevent scattered radiation damage is done;
e. a unit will not run by unauthorised persons;
f. measures are taken to prevent unauthorised persons can enter the space or place when the unit is in operation;
g. the device is equipped with a warning sign.
3 the shielding requirements referred to in paragraph (a) shall not apply: a. to test a device, b. for x-ray tubes if they are used in a specially equipped room or place, or c. during repair, maintenance or research with x-ray tubes prepared in laboratories or testing locations, provided that measures have been taken which could damage due to external radiation as much as reasonably possible.

Article 4.11. Safety requirements The contractor shall ensure that: a. space and use of the device in radiation protection respect each other;
b. the effective dose to persons at the place of operation of the appliance and outdoor space or place where it is used is not more than 1 millisievert per year;
c. in the space facilities in order to limit the exposure of workers;
d. additional organisational measures must be taken if the required dose limitation with architectural measures can be achieved.

Article 4.12. Control 1 the entrepreneur ensure that: a the device and the protections at least once a year by a supervisory expert on its proper functioning;
b. the shielding and the lekstralingsniveau outside the appliance or device in which the appliance is built to be checked at least once a year;

c. after each relevant disassembly or repair of an appliance, a check on the proper operation, referred to in parts (a) (b) of the unit.
2 the entrepreneur ensures that for devices in the management system: a. of all existing equipment, specified to: 1 °. brand, type and year of construction, 2 °. maximum high voltage of the generator, and 3 °. the place and nature of the application.
(b). the results of the checks referred to in the first paragraph are recorded, indicating: 1 °. the date of the inspection, 2 °. the name of the expert who carried out the control, 3 °. any defects and subsequent repairs, and 4 °. lekstralingsniveaus outside the appliance.
c. of any disassembly or repair to the unit indicating: 1 °. the date and time of commencement and termination of each relevant disassembly or repair of the unit, 2 °. the name of the expert who carried out the disassembly or repair, 3 °. any defects and nature of the repairs, and 4 °. the results of the verification on the proper functioning of the unit, the protections and foreclosure, after the disassembly or repair.
Chapter 5. Radiation protection instruments § 5.1. Indicators Article 5.1. Scope this section applies to indicators to which for lighting purposes radioactive substances have been added.

Article 5.2. The warning sign for ionizing radiation warning sign referred to in article 28, section e, of the decision, is shown in annex 5.1.

Article 5.3. Control construction requirements 1 when checking or indicators after the addition of radioactive materials meet the by or under articles 28 and 29, paragraph 3, of the rules laid down in relation to the construction decision shall contain at least the tests described in annex 5.2.
2 the results of the test, referred to in point II of annex 5.2 and the control, referred to in point III of annex 5.2, are submitted by the trader established in a designated administration.
3 the Administration referred to in the second paragraph, contains at least the following information: a. the brand, type, and date of manufacture of the pointing tool or if this is not possible a description of the pointing tool;
b. the date and place at which the test or control;
c. the manner in which the test and control is carried out;
d. the results of the test and control.

Article 5.4. Indicators for lighting purposes 1 Add checks after the entrepreneur for lighting purposes of radioactive substances to indicators or indicators meet the by or under articles 28 or 29 of the Act and the rules laid down under article 5.3 asked construction requirements.
2 the entrepreneur draws the implementation of the checks referred to in the first paragraph and the results thereof in an appropriate administration.
3 the Minister may by the obligations in paragraphs 1 and 2 may grant exemption, if the entrepreneur to the satisfaction of the Minister that the checks referred to in paragraphs 1 and 2 and administration by another run.
4 an entrepreneur who has a waiver as referred to in the third paragraph: a. takes the name and address of the other entrepreneur, referred to in the third paragraph, on in his administration and b. has a written agreement with these other entrepreneur about performing the checks and keeping the records referred to in paragraphs 1 and 2.
5 The records referred to in the second paragraph is at least five years.

Article 5.5. Characteristics on indicators the entrepreneur ensures that on a pointing tool to which H-3 in light cells or Pm-147 in luminous paint for lighting purposes has been added, from the outside of the instrument on a visible place is made: a. the warning sign referred to in article 5.2;
b. If it is a pointing device as referred to in article 5.4 Locator for T 1 GBq or Pm 10 MBq for H-3 respectively in light cells and Pm-147 in luminous paint.

Article 5.6. Repair or maintenance work indicators the entrepreneur ensures that after recovery or maintenance work to a pointing tool to which radioactive substances for lighting purposes have been added: a. as a result of that recovery and maintenance are free from the bee and under articles 27 to 29 of the decision rules are laid down;
b. under article 5.2 adopted the warning sign for ionizing radiation is applied to a from the outside of the instrument visible place;
c. in article 5.5, part b, said mark was affixed.

§ 5.2. User articles Article 5.7. Activities with a limited risk actions that a limited risk of exposure of people and for which the prohibitions referred to in articles 23, 24 and 25, paragraph 1, of the decision do not apply are listed in annex 5.3.

Article 5.8. Summation application rules in operations of products referred to in article 24, part (b) of the decision, in which the radioactive substances are not added to the product involved in a summons referred to in article 25, paragraph 4, of the decision, are listed in annex 5.4 at this arrangement.

§ 5.3. Ionization smoke detectors Article 5.9. Definitions In this section, the following definitions shall apply: a. detector: ionisation smoke detection with a radioactive substance;
b. approved detector: detector listed in annex 5.5.

Article 5.10. Exception approved smoke detectors the prohibition referred to in article 29 of the law, in conjunction with article 26, paragraph 1, of the decision, does not apply to: a. the holding for storage, provided that the total number of detectors, whether or not in combination with other brands and types than in annex 5.5 are appropriate, that is held in storage in the same place, no more than 500 pieces;
b. the holding and applying an approved detector;
c. the holding and apply in connection with the application, delete and demonstrate an approved detector;
d. itself by issuing to another get rid of an approved alarm in cases where this is kept in accordance with this arrangement without permit for hands.

Article 5.11. Requirements for approved detectors 1 any person who brings or an approved detector within Dutch territory does bring, ensures that: a. an approved detector on the outside is equipped with an indication of the type referred to in annex 5.5;
b. in the detector an indication is made, indicating the presence of a radioactive substance is clear;
c. the detector on the outside features included in annex 5.6, also visible after mounting, indicating the presence of a radioactive substance.
2 any person who delivers to users within an approved Netherlands detector or does deliver, ensures that each delivery to a user: a. the detector on the outside features included in annex 5.6, also visible after mounting, indicating the presence of a radioactive substance is clear;
b. written information is attached, which is done by the presence of a radioactive substance in the detector and in which the acts with the detector that can lead to contamination and therefore be discouraged.

Article 5.12. Select provision regarding the removal of approved detectors are the paragraphs 2 to 4 of the electrical and electronic equipment management Scheme shall apply mutatis mutandis.
Chapter 6. Security radioactive substances article 6.1. Definitions In this chapter: a. category 1-fabric: radioactive substance that is designated as category 1 in annex 6.1 or which, under the conditions laid down in that annex belongs to category 1;
b. category 2-fabric: radioactive substance that is designated as category 2 in annex 6.1 or which, under the conditions laid down in that annex belongs to category 2;
c. category 3-fabric: radioactive substance that is designated as category 3 in annex 6.1 or which, under the conditions laid down in that annex belongs to category 3;
d. holder: holder of an authorisation provided for in article 24 or 25 of the Act for the performance of acts with category 1-, 2-, or 3-substances, with the exception of the holder of a license only for transporting, holding in storage related to transport or bring or do inside or outside Dutch territory.

Article 6.2. Protection against theft or misuse of radioactive material a licence holder shall take the security measures necessary for category 1-, 2-, or 3-fabrics reasonably secure from theft or misuse.

Article 6.3. Monitoring of radioactive substances 1 a licence holder keeps on personal or electronically monitoring category 1-, 2-, or 3-fabrics.
2 those who personally oversees, is authorized by the permit holder.

Article 6.4. Delay in unlawful acquisition of radioactive substances When category 1-, 2-, or 3-substances not under personal control, the security measures of a licence holder in such a way that electronic detection of attempted theft or abuse takes place and that from that moment working measures that lead to:

a. at least 10 minutes delay in the time that someone needs to make unlawful decision to get over a category 1-substance;
b. at least 5 minutes delay in the time that someone needs to make unlawful decision to get over a category 2 substance;
c. at least 3 minutes delay in the time that someone needs to make unlawful decision to get over a category 3 substance.

Article 6.5. Matching security measures The security measures referred to in articles 6.2, 6.3 and 6.4 be tailored to: a. the nature of category 1-, 2-, or 3-substance;
b. the way category 1-, 2-, or 3-substance is used or stored;
c. the portability of category 1-, 2-, or 3-substance;
d. the potential consequences to human beings, animals, plants and goods by exposure to ionizing radiation or release of category 1-, 2-, or 3-fabric in case of theft or abuse;
(e) the measures taken or to be taken to the adverse consequences of ionizing radiation for humans, animals, plants and goods to prevent or limit.

Article 6.6. Security plan 1 a licence holder has a security plan with a description of how the category 1-, 2-, or 3-fabric is secured.
2 the security plan contains at least a description of: a. the categorisation of the secure radioactive materials in accordance with the annex 6.1;
b. the way category 1-, 2-, or 3-substance is used or stored;
c. the place where category 1-, 2-, or 3-substance is used or stored;
d. to take the hit and security measures;
e. those who are authorized to keep personal supervision as referred to in article 6.3;
f. the functions and powers of the employees, in charge of the security of category 1-, 2-, or 3-substance;
g. the procedures that the employees responsible for the security of category 1-, 2-, or 3-fabric should follow, with a requirement describes how they should act in the event of theft or misuse of the category 1-, 2-, or 3-substance or attempted;
h. arrangements with the police or with a private security service;
i. an evaluation program to assess the security measures.
3 a licence holder Act in accordance with the security plan.

Article 6.7. Access security plan 1 a licence holder ensures that the security plan, referred to in article 6.6, just peruse the persons to whom this is required for the proper execution of their function.
2 a licence holder ensures that these people, before they take note of the security plan, a certificate of good behavior or a statement referred to in article 1, paragraph 1, part b, of the law of safety investigations.

Article 6.8. Conducting assessment tool 1 a licence holder performs annually and after any security breach the review programme provided for in article 6.6, paragraph 2, point (i), out. In any case, the security measures are checked and tested and the security plan in an exercise.
2 a licence holder changes the security plan as far as the results of the assessment tool,.
Chapter 7. Natural sources of ionizing radiation Article 7.1. Definitions In this chapter: a. surface contamination: presence on the surface of an object that consists of non-radioactive solids, transfers, or transfers of non-natural sources with an average mass per surface area of less than 1 g/cm2;
b. 1 °. the accessible surface of an object without further intervention or destructive in that object or 2 °. the surface of an object that is reachable if that object opened or taken apart for use, maintenance or repair, product or material for use or for product or material re-use;
c. final destination: destination of which by the Minister or the entrepreneur with is that a natural source will be staying there for more than two years, if for no other destination that source is provided.

Article 7.2. List of the activities messages or permits The list of activities where possible in annex 1, table 1 and 2 values are exceeded, is indicated in annex 7.1.

Article 7.3. Method review notification or licensing requirement 1 the activities or activity concentrations of natural resources be weighed and summoned for the cross-check with the table in annex 1.1, 1 or 2, indicated values, according to the method specified in annex 7.2, under 1A and 1B.
2 the ambient dose equivalents, the equivalent and effective doses as a result of work are determined with article 1.4 according to the method set out in annex 7.2, under 2.
3 doses in relation to work is been tested using the method set out in annex 7.2, under 3.

Article 7.4. Requirements for notifiable work activities for which an obligation to notify in accordance with article 103, paragraph 1, of the decision, be carried out in accordance with the requirements in annex 7.3.

Article 7.5. Method review by determination of risks damage 1 The damage resulting from work in cases, in which the activity concentrations in combination with the activity no proper indication of the adverse consequences as a result of exposure to radiation by the work, is determined and reviewed by: a. the determination or review of the surface contamination of any accessible surface or b. the determination or the review of the external radiation as a result of the contamination of any non-accessible surface.
2 In cases as referred to in paragraph (a) applies for the purpose of radiation protection by way of derogation from article 107, paragraph 2, of the decision, the prohibition laid down in paragraph 1 of that article to work with natural resources if the surface infection a total beta activity, that is equal to or later than 4 Bq/cm ².
3 the surface contamination of a material is measured according to the method set out in annex 7.4.
4, part a, the first paragraph shall not apply in cases where the Member referred to in the second measurement method cannot be applied.
5 In cases referred to in paragraph 1, part b, shall apply for the purposes of radiation protection that if the external radiation under normal operating conditions on 0.1 m from any accessible outside of a source omgevingsdosisequivalenttempo caused a higher than 10 µSv per hour, such measures are taken that for this work a dose constraint of 1 mSv effective dose in a calendar year.

Article 7.6. Exception approval In cases where the effective doses for members of the public as a result of water or air discharges may be higher than 10 µSv per calendar year, for the purpose of radiation protection, by way of derogation from article 108, paragraph 2, of the decision, the prohibition laid down in paragraph 1 of that article.

Article 7.7. Storage radioactive waste of natural resources 1 it is forbidden radioactive waste of natural resources, in the cases referred to in article 110, paragraph 2, of the decision to save as final destination other than in an authorised by the ministers pursuant to article 37, paragraph 8, of the Act designated institution.
2 The storage of radioactive waste of natural resources as referred to in paragraph 1, that the values referred to in article 107, paragraph 2, of the decision, is carried out in accordance with the requirements in annex 7.3.

Article 7.8. Mixing natural sources 1 mixing of natural sources, not being waste materials, with other natural sources or with other substances is allowed, provided that these sources are intended for a useful application.
2 In cases where the holding or applying natural sources or re-use the product or material in ground-, road-or water build the activity concentrations in combination with the total activity of the relevant natural resources is higher than the values specified in annex 1, table 1, the sources, if this is reasonably practicable, such mixed with other materials that eventually to apply the measurement building material becomes lower than the in annex 1.1 values shown in table 1.
3 In cases referred to in the second paragraph, where the mixing of resources with other materials is not reasonably possible, the efficacy is not allowed if the dose for members of the public greater than 0.3 mSv effective dose in one year.

Article 4.9. Reporting work and chain message reporting work, and finish of it, is done on a form the model of which is given in annex 7.

Article 7.10. Exception notification and chain message 1 an entrepreneur is exempt from reporting work, if another entrepreneur these reports on a form, a specimen of which is given in annex 7.6.
2 an entrepreneur in the ground-, road-or water construction is exempt from reporting work if: a. another entrepreneur reports that the natural source a final product in the ground-, road-, or water construction and an estimate of the effective dose, expressed in multifunctional individual dose and current individual dose in a year as a result of final destination for members of the public and (b). a certificate from the sources by the chain detector is included indicating that the radioactive material that can be used for this final destination.

3 The message contains the data in the form set out in annex 4.7.
4 In a case referred to in the first paragraph, shares the entrepreneur a modification of the data reported at least six weeks before the start of the change in writing to the business owner who has done the message.

Article 7.11. An application for a work permit application for permit to work is submitted on a form, the model of which is given in annex 7.7.

Article 7.12. Exceptions ground-, road and hydraulic construction 1 For the presence of natural sources in works of ground-, road-or water construction outside an establishment, which have been carried out or actually have taken for a starting september 26, 2004, in article 103, paragraph 1, of the decision, the obligation laid down in article 107, paragraph 1, of the decision asked ban and article 4.8 , second paragraph, of this arrangement.
2 the first paragraph shall apply mutatis mutandis to landfill of radioactive waste that for september 26, 2004.
3 the first paragraph shall apply mutatis mutandis to proceedings in the ground-, road-or water construction within a device, if: a. the effective dose for workers within the location does not exceed 1 mSv in a calendar year and b. outside the establishment a current individual dose for members of the public of 0.1 mSv in a calendar year is not exceeded.

Article 7.13. Setting for the receipt of radioactive waste from natural sources of ionizing radiation The devices for the landfilling of hazardous waste are an institution for the receipt of radioactive waste from natural sources of ionizing radiation, in which: a. the activity of the relevant natural resources at any time, equal to or greater than those set out in annex 1, table 1 and (b). the value referred to activity concentrations of the relevant natural resources equal to or greater than the value referred to in annex 1, table 1 and is less than ten times that value.
Chapter 8. High activity sources Article 8.1. Financial security The minimum amount at which financial security should be enabled, as referred to in article 20 d, third paragraph, of the decision amounts to € 120 per dm3, or portion thereof, to be material.
Chapter 9. Final provisions article 9.1 1 the scheme user articles radiation protection shall be repealed.
2 the arrangement radionuclides containing aanwijsintrumenten is hereby repealed.
3 the arrangement approved ionization smoke detectors 2004 is hereby repealed.
4 the settlement analysis consequences ionizing radiation to the environment shall be repealed.
5 the settlement natural sources of ionizing radiation 2008 is repealed.
6 the settlement administrative and organisational measures radiation protection shall be repealed.
7 The Control high activity sources is repealed.
8 the settlement security radioactive substances is repealed.
9 the arrangement of the State Secretary of housing, spatial planning and the environment and the State Secretary of Social Affairs and employment of June 9, 2005, nr. SAS2005090776, on the appointment of establishments for dumping hazardous waste as setting for the receipt of radioactive waste (Stcrt. 2005, 111) is repealed.

Article 9.2 [Red: change the temporary scheme recognition training experts radioactive substances and devices.]

Article 9.3 this arrangement shall enter into force with effect from 1 January 2014.

Article 9.4 this arrangement is cited as: rule of law relating to radiation protection EZ.
This scheme will be placed with the notes in the Government Gazette.
The Hague, 18 October 2013 H.G.J. Kamp the Minister for Economic Affairs, the Minister of Social Affairs and employment, L.F. Asscher the Minister of health, welfare and Sport, E.I. SA annex 1.1. , part of article 1.2, paragraph 1 Exemption and release limits in the application of table 1 is the following of interest: 1. Nuclides with the suffix «+» or «sec» in table 1, mother nuclides, which are balanced with their daughter nuclides as listed in Appendix A to table 1. In this case, the values listed in table 1 relate to the mother nuclide, but are the daughter nuclides that grow in it already discounted. In other words, at equilibrium only tested to the value for the parent nuclide.
2. Table 1 shows the values for the activity concentrations and total activity for about 800 different radionuclides. These were approximately 400 radionuclides not included in Directive 96/29 or in the communications from the Commission, but are calculated by the National Radiological Protection Board (NRPB) from the United Kingdom (UK) (NRPB-R306) and added for the sake of completeness. Also Appendix A to table 1 is therefore extended. The values for the activity concentrations and the total activity are equally effective for the application of articles 25, 26, 37, 103 and 107 of the Act radiation protection.
3. In annex 1 are only natural radionuclides from this table that in Netherlands in the assessment of natural resources are exempt from summons. They need therefore to be determined.
4. In the notes to the attachments is an explanation included addressing the reason why the exemption values the same as the release values.
5. For the sake of readability are the powers of the values in the table in the format 1 E, that is, for example, 10-4 and 104 listed as 1st-4 respectively 1st + 4.
6. If a radionuclide not in table 1, this radionuclide is not subject to the notification or approval and also given in annex 1.2 weighted summation of activities, activity concentrations or any other quantity referred to in article 25, paragraph 7 of the decision on radiation protection.
In the application of table 2 is the following of interest: 1. Table 2 shows the values for the total activity for discharges in water and air of radionuclides due to work. These values are valid only for the application of article 108 of the Act radiation protection.
Table 1. Exemption and release limits for artificial and natural sources for activity concentrations and activity radionuclide activity concentrations (Bq g-1) activity (Bq) H-3 (incl. OBT1) 1st + 1st + 6 9 Elementary H-3 1st + 1st + 1st + 9 Be-6 7 3 1st + 7 Be-10 1st + 1st + 1st + 6 C-11 4 1 6 C-11 monoxide 1st + 1st + 1st + 1 9 C-11 dioxide 1st + 1st + 1st + 9 C 1-14 4 1st + 7 C-14 monoxide 1st + 1st + 11 8 C-14 dioxide 1st + 7 1st + 1st + 1st + 2 11 N-13 9 Ne-19 1st + 2 1st + 1st + 1st + 15 2 9 O-9 F-18 1st + 1st + 1st + 6 after 1-22 1 1st + 1st + 1st + 1 After 6-24 5 Mg-28 + 1st + 1st + 1st + 5 Al-26 1 1 1st + 5 Si-31 1st + 1st + 1st + 32 3 6 Si-3 1st + 1st + 1st + 32 3 6 P-5 P-33 1st + 5 1st + 1st + 1st + 35 5 8 S-8 S-35 (organic) 1st + 1st + 8 5 S-35 (vapour) 1st + 6 1st + 1st + 1st + 4 Cl-36 9 6 Cl-38 1st + 1 1st + 1st + 1st + 39 1 5 Cl-5 Ar-37 1st + 1st + 1st + 8 Ar-6 39 7 1st + 1st + 1st + 2 4 Ar-41 9 K-40 K-2 1st + 1st + 1st + 1st + 42 2 6 6 K-43 1st + 1st + 1st + 6 K-44 1 1 1st + 1st + 1st + 1 45 5 K-5 Ca-41 1st + 1st + 1st + 7 Ca-45 5 4 1st + 1st + 1st + 1 Ca-47 7 6 Sc-43 1st + 1st + 1st + 1 6 Sc-44 1 1st + 1st + 1st + 2 5 Sc-44 m 7 Sc-46 1st + 1 1st + 1st + 1st + 47 2 6 Sc-6 Sc-48 1st + 1 1st + 1st + 1st + 49 3 5 Sc-5 Ti-44 + 1st + 1st + 1st + 5 Ti-45 1 1 1st + 1st + 1st + 47 1 6 V-5 V-48 1st + 1st + 1st + 5 V 1-49 4 1st + 1st + 1st + 2 Cr-48 7 6 Cr-49 1st + 1st + 1st + 1 6 Cr-51 3 1st + 1st + 1st + 51 1 7 Mn-5 Mn-52 1st + 1 1st + 1st + 1st + 1 52 m 5 Mn-5 Mn-53 1st + 1st + 1st + 4 9 Mn-54 1 1st + 1st + 1st + 1 56 6 Mn-5 Fe-52 1st + 1st + 1st + 1 6 Fe-55 4 1st + 1st + 1st + 1 6 Fe-59 6 Fe-60 + 1st + 1st + 1st + 5 Co 2-55 1 1st + 1st + 1st + 1 Co 6-56 5 Co-57 1st + 1st + 1st + 6 Co 2-58 1 1st + 6 Co-58 m 1st + 1st + 1st + 4 7 Co-60 1 5 Co-60 m 1st + 1st + 1st + 6 Co-3 61 2 1st + 1st + 1st + 1 Co 6-62 m 5 Ni-Ni-56 1st + 1st + 1st + 6 1 57 1
1st + 1st + 1st + 4 59 6 Ni-8 Ni-Ni-63 1st + 1st + 1st + 8 5 65 1 1st + 1st + 1st + 4 6 Ni-66 7 Cu-60 1st + 1st + 1st + 1 5 Cu-61 1 1st + 1st + 1st + 64 2 6 Cu-6 Cu-67 1st + 2 1st + 1st + 1st + 2 Zn-6 62 6 Zn-63 1st + 1st + 1st + 5 Zn-65 1 1 1st + 1st + 1st + 4 6 Zn-69 6 Zn-69 m 2 1st + 1st + 1st + 1st + 1 71 m 6 Zn-6 Zn-72 1st + 1st + 1st + 6 2 Ga-65 1
1st + 1st + 1st + 66 1 5 Ga-5 Ga-67 1st + 2 1st + 1st + 1st + 1 6 Ga-68 5 Ga-70 1st + 3 1st + 1st + 1st + 72 1 6 Ga-5 Ga-73 1st + 1st + 1st + 66 2 6 Ge-1 1st + 1st + 1st + 67 1 6 Ge-5 Ge-68 + 1st + 1st + 1st + 5 Ge-69 1 1 1st + 1st + 1st + 4 71 6 Ge-8 Ge-75 1st + 1st + 1st + 3 6 Ge-77 1 1st + 1st + 1st + 78-5 Ge 2 6 As-69 1st + 1st + 1st + 5 As-1 70 1
1st + 1st + 1st + 71 1 5 As-6 As-72 1st + 1st + 1st + 5 As-73 1 3 1st + 1st + 1st + 74 1 7 As-6 As-76 1st + 1st + 1st + 2 5 As-77 3 1st + 1st + 1st + 6 As-78 1 5 Se-70 1st + 1st + 1st + 1 6 Se-73 1 1st + 1st + 1st + 2 6 Se-73 m 6 Se-75 1st + 1st + 1st + 2 6 Se-79 4 1st + 1st + 1st + 81 3 7 Se-6 Se-81 m 1st + 3 1st + 1st + 1st + 1 83 7 Se-5 Br-74 1st + 1
1st + 5 Br-74 m 1st + 1st + 1st + 5 Br-1 75 1 1st + 1st + 1st + 1 6 Br-76 5 Br-77 1st + 1st + 1st + 6 Br 2-80 2 1st + 1st + 1st + 80 m 3 5 Br-7 Br-82 1st + 1st + 1st + 1 6 Br-83 3 1st + 1st + 1st + 1 6 Br-84 5 K-R-74 1st + 1st + 1st + 9 Kr-2 76 2 1st + 1st + 1st + 77 9 Kr-2 9 K-R-79 1st + 3 1st + 1st + 1st + 4 81 5 Kr-7 Kr-81 m 1st + 1st + 1st + 10 Kr 3-83 m 5
1st + 1st + 1st + 85 5 12 Kr-4 Kr-85 2 1st + 1st + 1st + 10 5 Kr-85 32 1st + 1st + 1st + 2 10 Kr-87 9 Kr-88 1st + 1st + 1st + 9 2 Rb-79 1 1st + 1st + 1st + 81 1-5 Rb 6 Rb-81 m 1st + 3 1st + 1st + 1st + 1 7 Rb-82 m 6 Rb-83 + 1st + 1st + 1st + 2 6 Rb-84 1 1st + 1st + 1st + 86 6 Rb-2 Rb-87 5 1st + 1st + 1st + 4 7 Rb-88 1 1st + 1st + 1st + 1 5 Rb-89 5 Sr-80 1st + 3 1st + 1st + 1st + 1 81 7 Sr-5 Sr-82 + 1st + 1st + 1st + 1 5 Sr-83 1 1st + 1st + 1st + 85 2 6 Sr-6 Sr-85 m 2 1st + 1st + 1st + 1st + 87 m 2-7 Sr 6 Sr-89 1st + 3 1st + 6 Sr-90 + 1st + 1st + 1st + 4 2 Sr-91 1 1st + 1st + 1st + 1 5 Sr-92 6 Y-86 1st + 1st + 1st + 1 5 Y-86 m 2 1st + 7 Y-87 + 1st + 1st + 1st + 6 Y-1 88 1 1st + 6 Y-90 1st + 1st + 1st + 3 5 Y-90 m 1 1st + 1st + 1st + 91 3-6 Y 6 Y-91 1st + 1st + 1st + 6 Y-92 2 2 1st + 1st + 1st + 2 Y-93 5 5 Y-94 1st + 1st + 1st + 1 5 Y-95 1 1st + 1st + 1st + 2 86 5 Zr-7 Zr-88 1st + 2 1st + 1st + 1st + 1 89 6 Zr-6 Zr-93 + 1st + 1st + 1st + 3 7 Zr-95 1 1st + 6 Zr-97 + 1st + 1st + 1st + 5 Nb-1 88 1 1st + 5 Nb-89 (2.03 h) 1st + 1st + 5 Nb 1-89 (1.01 h) 1st + 1
1st + 1st + 1st + 1 5 Nb-90 5 Nb-93 m 1st + 1st + 1st + 4 7 Nb-94 1 1st + 1st + 1st + 95 1 6 Nb-6 Nb-95 m 2 1st + 1st + 1st + 1st + 1 7 Nb-96 5 Nb-97

1st + 1st + 1st + 6 Nb-1 98 1 1st + 1st + 1st + 1 5 Mo-90 6 Mo-93 1st + 3 1st + 1st + 1st + 93 m 1 8 Mo-6 Mo-99 1st + 1st + 1st + 6 Mo-101 2 1 1st + 1st + 1st + 1 93 6 Tc-6 Tc-93 m 1st + 1 1st + 1st + 1st + 94 1 6 Tc-6 Tc-94 m 1st + 1 1st + 1st + 1st + 1 95 5 Tc-6 Tc-95 m + 1st + 1st + 1st + 6 Tc-1 96 1 1st + 1st + 1st + 3 96 6 Tc-7 Tc-97 1st + 1st + 3 8 Tc-97 m
1st + 3 1st + 1st + 1st + 1 98 7 Tc-6 Tc-99 1st + 1st + 1st + 4 7 Tc-99 m 2 1st + 1st + 1st + 2 101 7 Tc-6 Tc-104 1st + 1st + 1st + 5 Ru-1 94 2 1st + 1st + 1st + 2 6 Ru-97 7 Ru-103 1st + 1st + 1st + 6 Ru-105 2 1 6 Ru-106 + 1st + 1st + 1st + 2 5 Rh-99 1st + 1st + 1st + 1 6 Rh-99 m 1 1st + 1st + 1st + 1 6 Rh-100 6 Rh-101 1st + 2 1st + 1st + 1st + 101 m 2 7 Rh-7 Rh-102
1st + 1st + 1st + 6 Rh-1 102 m 2 1st + 6 Rh-103 m 1st + 1st + 1st + 4 8 Rh-105 2 1st + 1st + 1st + 1 7 Rh-106 5 Rh-107 1st + 1st + 1st + 6 2 Pd-100 2 1st + 1st + 1st + 2 Pd-7 101 6 Pd-103 1st + 1st + 1st + 3 8 Pd-107 5 1st + 1st + 1st + 3 8 Pd-109 6 Ag-102 1st + 1st + 1st + 5 1 Ag-103 1 1st + 1st + 1st + 1 6 Ag-104 6 Ag-104 m 1st + 1st + 1st + 6 Ag 1-105 2 1st + 6 Ag-106
1st + 1st + 1st + 6 Ag 1-106 1 1st + 6 Ag-108 m + 1st + 1st + 1st + 6 1 Ag-110 m 1 1st + 1st + 1st + 3 6 Ag-111 6 Ag-112 1st + 1st + 1st + 5 1 Ag-115 1 1st + 1st + 1st + 2 5 Cd-104 7 Cd-107 1st + 3 1st + 1st + 1st + 4 109 7 Cd 6 Cd-113 1st + 3 1st + 1st + 1st + 3 113m 6 Cd 6 Cd-115 1st + 1st + 1st + 6 Cd 2-115 m 3 1st + 1st + 1st + 117 1 6 Cd 6 Cd-117 m 1st + 1st + 6 In 1-109
1st + 1st + 6 In 1-110 (3.0 h) 1st + 1st + 6 In 1-110 (69.1 min) 1st + 1st + 1st + 5 In 1-111 2 1st + 1st + 1st + 112 2 6 In-6 In-113m 1st + 1st + 1st + 6 In 2-114 3 1st + 1st + 1st + 2 114 m 5 In-6 In-115 1st + 3 1st + 1st + 1st + 115 m 2 5 In-6 In-116 m 1st + 1st + 1st + 5-In-1 117 1 1st + 1st + 1st + 117 m 2 In 6-6 In-119 1st + 1st + 1st + 5 Sn-2 110 2 1st + 1st + 7 Sn-111 2 1st + 1st + 1st + 3 6 Sn-113 7 Sn-117 m 2 1st + 1st + 1st + 1st + 3 Sn-119 6 7 Sn-121 1st + 1st + 5 7 Sn-121 m + 1st + 1st + 1st + 3 7 Sn-123 3 1st + 1st + 1st + 2 6 Sn-123 m 6 Sn-125 1st + 1st + 2 5 Sn-126 + 1st + 1st + 1st + 5 Sn-1 127 1 1st + 1st + 1st + 1 128 6 Sn-6 Sb-115 1st + 1st + 1st + 6 Sb-1 116 1 1st + 1st + 1st + 116 m 1 6 Sb-5 Sb-117 1st + 1st + 1st + 7 Sb-118 m 2 1 1st + 1st + 1st + 3 119 6 Sb-7 Sb-120 (6.99 d) 1st + 1st + 1 6 Sb-120 (15.89 m) 1st + 1st + 1st + 6 2 Sb-122 2 1st + 1st + 1st + 1 4 Sb-124 6 Sb-124 m 2 1st + 1st + 1st + 1st + 2 125 6 Sb-6 Sb-126 1st + 1st + 1st + 5 Sb-1 126 1 1st + 1st + 1st + 127 1 5 Sb-6 Sb-128 (9.01 h) 1st + 1st + 1 5 Sb-128 (10.4 min) 1st + 1st + 1st + 1 5 Sb-129 1 1st + 1st + 1st + 130 6 Sb-1 5 Sb-131 1st + 1st + 1st + 6-1 116 2 1st + 1st + 1st + 121 1-7 To 6-121 m 1st + 2 1st + 1st + 1st + 6 To-6 To-3 123 123 1st + 1st + 1st + 7-125 m 2 3 1st + 1st + 1st + 3 7-127 To 127 m-6 1st + 1st + 1st + 3 7-129 2 1st + 1st + 1st + 129 m To 6-3 6-131 1st + 1st + 1st + 131 m 2 To 5-1 1st + 1st + 1st + 132 2 To 6-7-133 1st + 1 1st + 1st + 1st + 1 To 5-133 m 5-134 1st + 1st + 1st + 6 I-1 120 1 1st + 1st + 1st + 1 120 m 5 I-5 I-121 1st + 1st + 1st + 6 I-123 2 2 1st + 1st + 1st + 1 124 7 I-6 I-125 1st + 3 1st + 1st + 1st + 126 2 6 I-6 I-128 1st + 1st + 1st + 5 I-129 2 2 1st + 1st + 1st + 1 I-130 5 6 I-131 1st + 1st + 1st + 6 2 I-132 1 1st + 1st + 1st + 2 132 m 5 I-6 I-133 1st + 1 1st + 1st + 1st + 1 6 I-134 5 I-135 1st + 1st + 1st + 1 6 Xe-120 2 1st + 1st + 1st + 121 2 9 Xe-9 Xe-122 + 1st + 1st + 1st + 9 2 Xe-123 2 1st + 1st + 1st + 3 125 9 Xe-9 Xe-127 1st + 1st + 1st + 3 5 Xe-129 m 3 1st + 1st + 1st + 4 4 Xe-131 4 Xe-133 m 1st + 1st + 1st + 3 4 Xe-133 3 1st + 4 Xe-135 1st + 1st + 1st + 9 2 Xe-135 3 1st + 1st + 1st + 138 10 Xe 2 9 Cs-125 1st + 1 1st + 1st + 1st + 2 Cs 4-127 5 Cs-129 1st + 2 1st + 1st + 1st + 130 2 5 Cs-6 Cs-131 1st + 3 1st + 1st + 1st + 132 1 6 Cs-5 Cs-134 1st + 1st + 1st + 4 Cs-134 m 1 3 1st + 1st + 1st + 4 5 Cs-135 7 Cs-135 1st + 1st + 1st + 6 Cs-1 136 1 1st + 5 Cs-137 + 1st + 1st + 1st + 4 Cs-1 138 1 1st + 1st + 1st + 2 126 4 Ba-7 Ba-128 1st + 1st + 1st + 7 Ba-2 131 2 1st + 1st + 1st + 131 m 2 6 Ba-7 Ba-133 1st + 1st + 2 6 Ba-133 m 2 1st + 1st + 1st + 1st + 2 6 Ba-135 6 Ba-137 m 1st + 1st + 1st + 6 1 B-139 2 5 Ba-140 + 1st + 1st + 1st + 1st + 5 Ba-141 1 1 1st + 1st + 1st + 1 5 Ba-142 6 La-131 1st + 1st + 1st + 1 6 La-132 1 1st + 1st + 1st + 3 6 La-135 7 La-137 1st + 1st + 1st + 3 7 La-138 1 1st + 1st + 1st + 1 6 La-140 5 La-141 1st + 1st + 1st + 2 5 La-142 1 1st + 1st + 1st + 2 5 La-143 5 Ce-134 1st + 1st + 1st + 3 7 Ce-135 1 1st + 1st + 1st + 3 137 6 Ce-7 Ce-137 m 1st + 3 1st + 1st + 1st + 2 6 Ce-139 6 Ce-141 1st + 1st + 1st + 7 Ce-2 143 2 6 Ce-144 + 1st + 1st + 1st + 1st + 2 5 Pr-136 1 1st + 1st + 1st + 2 137 5 Pr-6 Pr-138m 1st + 1st + 1st + 1 6 Pr-139 2 1st + 1st + 1st + 2 142 7 Pr-5 Pr-142m 1st + 1st + 1st + 9 7 Pr-143 4 1st + 1st + 1st + 2 6 Pr-144 5 Pr-145 1st + 1st + 1st + 3 5 Pr-147 1 1st + 1st + 1st + 2 Nd-5 136 6 Nd-138 1st + 3 1st + 1st + 1st + 2 Nd 7-139 6 Nd-139m 1st + 1st + 1st + 6 Nd-141 1 2 1st + 1st + 1st + 2 Nd-7 147 6 Nd-149 1st + 1st + 1st + 2 6 Nd-151 1 1st + 1st + 1st + 141 1 5 Pm-5 Pm-143 1st + 1st + 1st + 2 6 Pm-144 1 1st + 1st + 1st + 3 145 6 Pm-7 Pm-146 1st + 1 1st + 1st + 1st + 4 6 Pm-147 7 Pm-148 1st + 1st + 1 5 Pm-148 m + 1st + 1st + 1st + 1 6 Pm-149 3 1st + 1st + 1st + 1 6 Pm-150 5 Pm-151 1st + 2 1st + 1st + 1st + 1 141 6 Sm-5 Sm-141 m 1st + 1 1st + 1st + 1st + 2 142 6 Sm-7 Sm-145 1st + 1st + 1st + 7 2 Sm-146 1 147 1st + 1st + 5 Sm-1 1st + 1st + 1st + 4 151 4 Sm-8 Sm-2 Sm-153 1st + 1st + 1st + 1st + 2 6 155 6 Sm-156 1st + 2 1st + 1st + 1st + 1 6 Eu-145 6 Eu-6 Eu-1st + 1st + 146 1 147 1st + 1st + 1st + 6 2 Eu-148 1 1st + 1st + 1st + 149 2 6 Eu-7 Eu-150 (34.2 a) 1st + 1st + 1 6 Eu-150 (12.6 h) 1st + 1st + 1st + 3 6 Eu-152 1 1st + 1st + 1st + 2 152m 6 Eu-6 Eu-154 1st + 1st + 1st + 1 6 Eu-155 2 1st + 1st + 1st + 156 1 7 Eu-6 Eu-157 1st + 1st + 1st + 6 2 Eu-158 1 1st + 1st + 1st + 1 145-5 Gd 5 Gd-146 + 1st + 1st + 1 6
GD-147 1st + 1st + 1st + 6 Gd-1 148 1 1st + 1st + 1st + 2 149 4 Gd-6 Gd-151 1st + 1st + 1st + 7 Gd-2 152 1 153 1st + 1st + 4 Gd-2 1st + 1st + 1st + 3 159 7 Gd-6 Tb-6 Tb-147 1st + 1st + 1st + 1 149 1 1st + 1st + 1st + 1 6 Tb-6 Tb 150-151 1st + 1st + 1st + 6 Tb-1 153 2 1st + 1st + 1st + 154 1 7 Tb-6 Tb-155 1st + 2 1st + 1st + 1st + 156 1 7 Tb-6 Tb-156m (24.4 h) 1st + 3
1st + 7 Tb-156m (5 h) 1st + 1st + 1st + 7 Tb-4 157 4 1st + 1st + 1st + 1 158 7 Tb-6 Tb-6 Tb-1st + 1st + 1 160 161 1st + 3 1st + 1st + 1st + 1 155 6 Dy-6 Dy-157 1st + 2 1st + 1st + 1st + 3 159 6 Dy-7 Dy-165 1st + 3 1st + 1st + 1st + 3 6 Dy-166 6 Ho-155 1st + 1st + 1st + 6 Ho-2 157 2 1st + 1st + 1st + 159 2 6 Ho-6 Ho-161 1st + 1st + 1st + 7 Ho-2 162 2 1st + 7 Ho-162 m
1st + 1st + 1st + 1 6 Ho-164 3 1st + 1st + 1st + 3 Ho-6 164 7 Ho-166 1st + 1st + 1st + 3 5 Ho-166m 1 1st + 1st + 1st + Ho-6 167 2 6-161 1st + 1st + 1st + 6-1 165 3 1st + 1st + 1st + 4 7-169-171 7 there 1st + 1st + 1st + 6-2 172 2 1st + 1st + 1st + 1 162 6 Tm-6 Tm-6 Tm-1 166 1st + 1st + 1st + 1st + 167 2 6 Tm-170 1st + 3 1st + 1st + 1st + 4 6 Tm-171 8 Tm-172
1st + 2 1st + 1st + 1st + 2 173 6 Tm-6 Tm-175 1st + 1st + 1st + 6 Yb-1 162 2 1st + 7 Yb-166 1st + 1st + 1st + 7 Yb-2 167 2 1st + 1st + 1st + 2 6 Yb-169 7 Yb-175 1st + 1st + 1st + 3 7 Yb-177 2 1st + 1st + 1st + 3 178 6 Yb-6 Lu-169 1st + 1st + 1st + 6 Lu-1 170 1 171 1st + 1st + 6 Lu-1 1st + 1st + 1st + 1 172 6 Lu-6 Lu-173 1st + 1st + 1st + 7 Lu-2 174 2 1st + 7 Lu-174
1st + 1st + 1st + 7 Lu-176 2 2 1st + 1st + 1st + 3 cash consideration of 176 m 6 Lu-6 Lu-177 1st + 1st + 1st + 7 3 Lu-177 m 1 1st + 1st + 1st + 2 6 Lu-178 5 Lu-178 m 1st + 1st + 1st + 5 Lu-1 179 3 1st + 1st + 1st + 6 Hf-170 2 6 Hf-172 + 1st + 1st + 1st + 6 Hf-1 173 2 1st + 6 Hf-175 1st + 1st + 1st + 6 Hf-177 m 2 1 1st + 5 Hf-178 m 1st + 1st + 1st + 6 Hf-1 179m 1 1st + 6 Hf-180 m 1st + 1st + 6 Hf 1-181
1st + 1st + 1st + 6 Hf-182 1 2 1st + 6 Hf-182 m 1st + 1st + 1st + 6 Hf-183 1 1 1st + 1st + 1st + 2 Hf-184 6 6 Ta-172 1st + 1st + 1st + 6 Ta-1 173 1 1st + 1st + 1st + 1 174 6 Ta-6 Ta-175 1st + 1st + 1 6 Ta-176 1st + 1st + 1st + 1 6 Ta-177 2 1st + 1st + 1st + 1 178-7 Ta 6 Ta-179 1st + 3 1st + 1st + 1st + 1 180-7 Ta 6 Ta-180 m 1st + 3 1st + 1st + 1st + 1 182-7 Ta 4 Ta-182 m
1st + 1st + 1st + 2 6 Ta-183 2 1st + 1st + 1st + 1 184-6 Ta 6 Ta-185 1st + 2 1st + 1st + 1st + 186 1 5 Ta-5 W-176 1st + 1st + 1st + 6 W-2 177 1 6 W-178 + 1st + 1st + 1st + 1st + 6 W-179 1 2 1st + 1st + 1st + 3 181 7 W-7 W-185 1st + 4 1st + 1st + 1st + 2 187-7 W 6 W-188 + 1st + 1st + 1st + 5 Re-2 177 1 1st + 1st + 1st + 1 178 6 Re-6 Re-181 1st + 1st + 1 6 Re-182 ( 64 h) 1st + 1st + 1 6 Re-182 (12.7 h) 1st + 1 1st + 1st + 1st + 1 6 Re-184 6 Re-184 m 1st + 2 1st + 1st + 1st + 3 186 6 Re-6 Re-186 m 1st + 1st + 1st + 3 7 187 6 1st + 1st + 1st + 2 Re-188 9 5 Re-188 m 1st + 1st + 7 2 Re-189 + 1st + 1st + 1st + 2 6 Os-180 2 1st + 1st + 1st + 1 181-7 Os 6 Os-182 1st + 2 1st + 1st + 1st + 1 185-6 Os 6 Os-189 m 1st + 1st + 1st + 4 7 Os-191 2 1st + 1st + 1st + 3 191m 7 Os-7 Os-193 1st + 1st + 2 6 Os-194 + 1st + 1st + 1st + 5 2 Ir-182 1 1st + 1st + 1st + 184 1 5 Ir-6 Ir-1 185 1st + 1st + 6 Ir-186 (15.8 h) 1st + 1st + 1 6 Ir-186 (1.75 h) 1st + 1st + 1st + 6 Ir-1 187 2 1st + 1st + 1st + 1 188 6 Ir-6 Ir-192 + 1st + 1st + 1st + 7 Ir-2 190 1 1st + 6 Ir-190 m (3.10 h) 1st + 1st + 1 6 Ir-190 m (1.2 h) 1st + 1st + 4 7 Ir-192 1st + 1st + 1st + 1 4 Ir-192 m 2 1st + 1st + 1st + 4 7 Ir-193 m 7 Ir-194 1st + 1st + 1st + 5 Ir-2 194 m 1 1st + 1st + 1st + 195 2 6 Ir-6 Ir-195 m 1st + 1st + 1st + 6 Pt-186 2 1 1E + 6 Pt-188 + 1st + 1st + 1st + 6 Pt 1-189 2 1st + 1st + 1st + 2 191 6 Pt-6 Pt-193 1st + 4 1st + 1st + 1st + 3 193 m 7 Pt-7 Pt-195 m 1st + 1st + 1st + 6 Pt 2-197 3 1st + 1st + 1st + 2 6 Pt-197m 6 Pt-199 1st + 1st + 1st + 2 6 Pt-200 2 1st + 1st + 1st + 193 2 6 Au-Au-7 194 1st + 1 1st + 1st + 1st + 2 Au 6-195 7-198 1st + 1st + 2 Au 6 Au-198 1st + 1st + 1st + 6 Au-199 1 2 1st + 1st + 1st + 200 2 6 Au-5 Au-women's 200 m 1st + 1st + 1st + 1 6 Au-201 2 1st + 1st + 1st + 193 2 6 Hg-6 Hg-193 m 1st + 1st + 1 6 Hg-194 + 1st + 1st + 1st + 6 Hg-1 195 2 6 Hg-195 m + 1st + 1st + 2 (organic)
1st + 6 Hg-195 m + (inorganic) 1st + 1st + 1st + 6 Hg-2 197 2 1st + 7 Hg-197m (organic) 1st + 1st + 6 Hg-2 197m (inorganic) 1st + 1st + 1st + 6 Hg 2-199 m 2 1st + 1st + 1st + 2 6 Hg-203 5 Tl-194 1st + 1st + 1st + 1 6 Tl-194 m 1 1st + 1st + 1st + 1 6 Tl-195 6 Tl-197 1st + 1st + 1st + 6 Tl-2 198 1 1st + 1st + 1st + 1 Tl-6 198 6 Tl-199 1st + 1st + 1st + 6 Tl-2 200 1 1st + 1st + 1st + 2 6 Tl-201 6
TL-202 1st + 2 1st + 1st + 1st + 4 204 6 Tl-4 Pb-195 m 1st + 1st + 1st + 6 Pb-198 1 2 199 1st + 1st + 6 Pb-1 1st + 1st + 1st + 200 2 6 Pb-6 Pb-201 1st + 1st + 1st + 6 Pb-1 202 3 1st + 1st + 1st + 1 6 Pb-202m Pb-6 203 1st + 1st + 1st + 2 6 Pb-4 Pb-7 205 1st + 1st + 1st + 5 209 6 Pb-210 + 1st + 1st + 1st + 2 4 Pb-211 2 1st + 6 Pb-212 + 1st + 1st + 1st + 5 Pb-214 1 2 1st + 6
 
 
 
BI-200 1st + 1st + 1st + 6 1 Bi-201 1 1st + 1st + 1st + 1 202 6 Bi-6 Bi-203 1st + 1st + 1st + 6 1 Bi-205 1 1st + 1st + 1st + 1 206 6 Bi-5 Bi-207 1st + 1 1st + 1st + 1st + 3 6 Bi-210 6 Bi-210 + 1st + 1st + 1 5 Bi-212 + 1st + 1st + 1 5 Bi-213 1st + 1st + 1st + 6 2 Bi-214 1 1st + 1st + 1st + 1 203 5 Po-6 Po-205 1st + 1st + 1st + 1 6 Po-206 1 1st + 1st + 1st + 1 207 6 Po-6
Po-208 1st + 1 1st + 1st + 1st + 1 209 4 Po 4 Po-210 1st + 2 1st + 1st + 1st + 1 207 4 At-6 At-211 1st + 3 1st + 1st + 1st + 3 222 7 Fr-5 Fr-223 1st + 1st + 2 6 Rn-220 + 1st + 1st + 4 7 Rn-222 + 1st + 1st + 1 8 Ra-223 + 1st + 1st + 2 5 Ra-224 + 1st + 1st + 1st + 5 1 Ra-225 2 1st + 5 Ra-226 + 1 1st + 1st + 1st + 2 227 4 Ra-6 Ra-228 + 1 1st + 1st + 1st + 2 5 Ac-224 6 Ac-225 + 1st + 1 1st + 1st + 1st + 226-4 Ac 2 5 Ac-227 + 1 1st + 1st + 1st + 1 3 Ac-228 6 Th-226 + 1st + 3 1st + 1st + 1st + 1 227 7 Th-4 Th-228 + 1 1st + 4 Th-229 + 1 1st + 3 Th-4 Th-230 1 231 1st + 1st + 1st + 1st + 3 7 Th-232 1 1st + 1st + 3 232sec 4 Th-1 Th-234 + 1st + 1st + 1st + 3 5 Pa-227 3 1st + 1st + 1st + 1 228 6 Pa-6 Pa-230 1st + 1st + 1st + 1 231 1 6 Pa-3 Pa-232 1st + 1
1st + 1st + 1st + 2 233 6 Pa-7 Pa-234 1st + 1st + 1 6 U-230 + 1st + 1st + 1st + 1 5 U-231 2 1st + 7 U-232 + 1 1st + 3 U-233 1st + 1st + 1st + 1 4 U-234 1 4 U-235 + 1st + 1st + 1st + 1 4 U-1 U-236 235sec 1st + 1 1st + 1st + 1st + 2 237 4 U-6 U-238 + 1st + 1st + 1 4 U-238 sec 1 1st + 1st + 3 U-239 2 1st + 1st + 1st + 3 240 6 U-7 U-240 + 1st + 1st + 1st + 6 Np-1 232 1 1st + 6 Np-233 1st + 1st + 1st + 7 Np-2 234 1 1st + 1st + 1st + 235 6 Np-3 7 Np-236 (1.15 10 5 a) 2 1st + 1st + 5 Np-236 (22.5 h) 1st + 1st + 7 3 Np-237 + 1 1st + 1st + 1st + 2 3 Np-238 6 Np-239 1st + 1st + 1st + 2 7 Np-240 1 1st + 1st + 1st + 234 2 6 Pu-7 Pu-235 1st + 1st + 1st + 7 Pu-236 2 1 1st + 1st + 1st + 3 237 4 Pu-7 Pu-Pu-238 1 239 1 1st + 1st + 4 4 Pu-240 1 1st + 3 Pu-241 1st + 1st + 1st + 5 Pu-242 1 2 4 Pu-243 1st + 1st + 1st + 3 7 Pu-244 1 4 Pu-245 1st + 1st + 1st + 6 Pu-2 246 2 1st + 1st + 1st + 2 237 6 Am-6 Am-238 1st + 1st + 1st + 1 6 Am-239 2 1st + 1st + 1st + 1 240 6 Am-6 Am-241 1 1st + 1st + 1st + 3 242 4 Am-6 Am-242 m + 1 1st + 4 Am-243 + 1 1st + 1st + 1st + 1 244 3 Am-6 Am-244 m 1st + 4

1st + 1st + 1st + 3 245 7 Am-6 Am-246 1st + 1st + 1st + 5 Am-1 246m 1 1st + 1st + 1st + 2 238 6 Cm-7 Cm-240 1st + 1st + 1st + 5 Cm-2 241 2 1st + 1st + 1st + 242 2-6 Cm 5 Cm-4 Cm-244 243 1 1st + 1st + 1st + 1st + 4 Cm-1 245 1 3 Cm-3 Cm-247 1 246 1 1st + 1st + 1st + 3 Cm-4 Cm-248 1 249 1st + 3 1st + 6 Cm-250 E-1 1st + 1st + 1st + 2 3 Bk-245 6 Bk-246 1st + 1st + 1 6 Bk-247 1 1st + 4 Bk-249 1st + 1st + 1st + 3 6 Bk-250 1 1st + 1st + 1st + 4 244 6 Cf-7 Cf-246 1st + 3 1st + 1st + 1st + 1 248 6 Cf-4 Cf-249 1 1st + 1st + 1st + 1 250 Cf 3-4 Cf-Cf-252 251 1 1st + 1st + 1st + 1 3 4 Cf-253 1st + 1st + 1st + 5 Cf-254 1 2 3 Es-250 1st + 1st + 1st + 6 Es-2 251 2 1st + 1st + 1st + 253 7 Es-2 5 Es-254 1st + 1st + 1st + 4 1 Es-254 m 2
1st + 6 Fm-252 1st + 1st + 1st + 6 Fm-253 3 2 1st + 1st + 1st + 4 254 6 Fm 7 Fm-255 1st + 1st + 1st + 6 Fm-3 257 1 1st + 1st + 1st + 2 5 Md-257 7 Md-258 1st + 1st + 2 5 1 OBT = organically bound tritium included.
2 for the activity of Kr-85 apply two different values. The value 1E + 10 in this rule applies only in summation of consumer products like lamps and starters to which K-R-85 in small quantity, up to 1st + 4 Bq, is added and which under normal use a skin dose of 50 mSv in a year cannot be exceeded.

Appendix A to table 1. List of the nuclides referred to in paragraph 1 of this annex in secular equilibrium with their daughters (the value in parentheses is the group which to that nuclide decays.)
Mother nuclide daughter nuclide (s) Mg 28 + Al + Ti 44 28 Sc 44 68 60 + Co Fe 60 m Ge + Go + Kr 68 Rb 83 83 m Sr 80 + Rb + Rb 82 82 80 Sr Sr 90 + 87 + Sr 90 Zr 93 87 m Y Y + Nb + Nb 97 97 93 m Zr Tc 95 m + Tc 95 (0.04) Ru 106 106 108 108 m Ag + Ag + Rh (0.089) Sn Sn Sn 121 121 m + (0.776) + Sb 126 126 137 122 122 + I Xe Cs Ba 137 m 140 + Ba +
La Ce 134 140 + La + Ce 134 144 144 146 146 Pm + Eu Gd Pr 148 m + Pm 172 148 (0.046) Hf + 172 178 178 + Ta W W Lu 188 188 188 188 Pt + Re + Ir Ir 189 189 189 m Re + Os + 194 + 189 m (0.241) Os Os Ir 194 194 194 195 m + Hg Hg Hg + Au 195 (0.542) 210 210 Pb + Bi 212 210 Pb 212, Po + Bi, Tl 208 (0.36), Po (0.64) 212 Bi 210 m 210 Bi + 212 + Tl Tl 208 (0.36), Po (0.64) 212 220 + 216 Po Rn Rn 222 + 218, Pb 214 Bi, 214 Po, Po, Po 219 214 215, 223 Ra + Rn Oj 211, Bi 211, 220 Rn Tl 207 224 + Ra, Po 216, Pb 212, 212 Bi, Tl 208 (0.36) 212 (0.64) Ra 226, Po + 218 222 Rn, Po, 214 Pb 214 Bi, Po, 214, 210 210 210 Pb, Bi, Po Ra 228 + 228 Ac Ac 225 221, At 217, Bi + Fr 213, Po 213 (0 978), Tl 209 209 (0 0216), Pb (0 978) Ac 227 + Fr 223 (0 0138) Th 226 Ra 214, 218, Po Rn + 222 Th 224 228 + Ra 216, Pb 212, 220 Rn, Po, 212 Bi, Tl 208 (0.36), Po (0.64) Th 212 229 + 225, Ac 225, Fr Ra 221, At 217, 213, 213 (0,978) Po Bi, Pb 232sec Ra 228 209 (0.978) Th, Ac 228, Th 224 228, Ra, Rn, Pb 212, 216, 220 Po 212 Bi, Tl 208 (0.36), Po (0.64) Th 212 234 + Pa + Th 226 230 234 m you 218, 222, Rn, Ra Po Ra 228, 232 + 214 you Th 220 224, Rn, Po 216, Pb 212, 212 Bi, Tl 208 (0.36), Po (0.64) 212 231 235 238 + Th + Th you you you 238sec Th 234 234 234 m, Pa, Pa 230, 234, 234 m, you Th 226 Ra, 218 222 Rn, Po, 214 Pb 214 Bi 210 Pb, Po, 214, 210, Bi , Po 210 240 240 m + Np Np you 237 233 242 m Am + Am + Pa 242 243 Am + Np 239 Appendix B to table 1. Radionuclides, which for dose calculation the activity or activity concentrations of the short-lived daughter nuclides must be added to that of the mother in the table below listed have daughters radionuclides with half-lives of 10 days or less, which for 10% or more contributions to the dose and that are not included in the annex 1 of Directive 96/29 and in table 1.
These daughters are also not included in the balances as included in Appendix A to table 1. They should, therefore, on dose calculations in the summation. Furthermore, the ratio between the mother and daughter at equilibrium.
Mother nuclide Daughter Ratio Sc-44 m Sc-72 44 0.986 Zn-Ga-72 1 Se-81 Se-81 1 Br-80 m Br-80 1 Tc-95 m Tc-95 1 Pd-100 Rh-100 1 Cd-117 117 117 m In-0.5124 In-0.92 Cd-117 m In 117 1-In-In-In-117 m 117 117 m 0.01 0.47 Sn-110 In-110 (short half-life) 1 Sn-Sb-128 128 1 Sb-127 To 127 To 129-129-0.824 Sb-To-116 Sb-116 1 0.775 Ce-Ce-136 137 137 m 0.99 Nd-Pr 139m Pr-139 1 136 1 Nd-Nd-164 164 1 139 0.12 Ho-Ho-Ho There-161-161 1 Yb-166 Tm-166 1 Yb-178 178 1 Lu-Lu-177 m Lu-177-182 182 0.21 Os-Re Ir-195 m
IR-200 1 Pt-200 195 0.04 Au-Au-200 m Au-Pb-211 200 0.18 Bi-Pb-214 Bi-214 1 211 1 Po-214 1 At-0.1 203 207 Bi-Fr-222 222 1 Ac-Th-226 226 Ra-Ra-222 0.828 0.828 Pa-227 Ac-223 0.85 Fr-211 215 219 0.85 At-0.85 Bi-0.85 Tl-228 Ac-224 0.02 207 0.85 Pa-Pu-Pu-245 1 246 245 Am-Am-246 1 Am-240 Np-238 238 Am-236 1 Cm-0.9 Cm-250 250 Bk-0.14 table 2. Release values for discharges in water and air of radionuclides as a result of work in GBq per calendar year.
Radionuclide Activity water discharges GBq/year Activity air discharges GBq/year Pb-210 + 210 10 10 10 10 Po-Rn-222 + 223 + 1,000 10,000 Ra-Ra-Ra-226 224 + 1,000 + 10 10 Ra-228 + 100 10 100 1 Ac-227 + Th-Th-Th-228 + 227 1,000 1,000 1 230 100 1 100 1 Th-232sec Th-234 10,000 Pa-231 10,000 0.1 U-234 1,000 10 U-235 + 1,000 10 U-238sec 1,000 10 Annex 1. , part of article 1.2, paragraph Weighted summation of activities and activity concentrations In this annex, the method which should be summoned and tested activities and concentrations of activity weighted in accordance with article 25, paragraph 3 and paragraph 4 of the decision radiation protection.

Total activity [Bq] this summation in relation to the total activity at any time present within a location should be made in the following manner: in which: (A) (i) is total activity of radionuclide i, with which a step is [Bq] A v, i is the exemption or release value for the total activity for radionuclide i [Bq]. For the Av values serve the tables 1 and 2 of annex 1.1 for acts to work respectively.

Activity concentrations [Bq/g] with respect to the activity concentrations, the radioactive substances that are involved in individual acts or work separately in conjunction with their overall activity to be seen.
If both the activity concentrations as the total activity of one of these substances above the licensing requirement for waivers or release value comes out there (or in the case of activities sometimes reporting obligation).
The summons related to the activity concentrations of various radionuclides in one radioactive substance, should be made in the following way: where: C i is measurement of radionuclide i in a radioactive substance [Bq/g].
V i is the exemption or release value for the activity concentrations for radionuclide i [Bq/g].
For the values of table 1 of annex 1.1 should Resume any actions to work respectively.

Exemption from summation of only natural radionuclides The activity concentrations and hence the activity of many natural radio nuclides are becoming in a fixed ratio with those of other radionuclides. If the calculated value of one of the exemption value or release radionuclides is much higher than according to this fixed ratio for might come, it is not useful to the activity concentrations of that radionuclide to determine whether to include the summation.
Our Ministers have therefore determined that the total activity, the activity concentrations or any other quantity referred to in article 25, paragraph 7, of the decision of the radionuclides radiation protection, Th-234, U-234, U-235, Ra-223, Ra-224, 227 and Pa-231 Th-not with the summation, provided for in article 25, third and fourth paragraph, of the decision have to be taken into account and, therefore, radiation protection need not be determined.

Annex 1.3. , part of article 1.2, paragraph Activiteitswaarden above which a sealed source meets the definition of high activity source for radionuclides not listed in the table below are included, the activity level worth one hundredth of the corresponding A1 value given in the IAEA Regulations for the safe transport of radioactive materials ' 1.
Element (atomic number) radionuclide activity level (Bq) iron (26) Fe-55 4 x 1011 cobalt (27) Co-60 4 x 109 selenium (34) Se-75 3 x 1010 Krypton Kr-85 1 x 1011 (36) Strontium (38) Sr-90 (a) 3 x 109 Palladium (46) Pd-103 (a) 4 x 1011 Jew (53) I-125 2 x 1011 Cesium (55) Cs-137 (a) 2 x 1010 Promethium (61) Pm-147 4 x 1011 Gadolinium (64) Gd-153 1 x 1011 Thulium (69) Tm-170 3 x 1010 Iridium (77) Ir-192 1 x 1010
Thallium 204 1 x 1011 (81) Tl-Radium (88) Ra-226 (b) 2 x 109 Plutonium (94) Pu-238 (a) 1 x 1011 Americium (95) Am-241 (b) 1 x 1011 Californium (98) Cf-252 5 x 108 (a) In the activity level are taken into account the contributions from daughter nuclides with a half-life of less than 10 days.
(b) including neutron sources with beryllium.

Annex 1.4. Article 1.3, part of the Data for the determination of the effective dose Data for the determination of the effective dose (E (τ)) after external beam radiation therapy or taking a radioactive substance using the tables in annex 3 of Directive 96/29 and in annex 2 of the communications from the Commission on the application of Directive 96/29, of 23 February 1998. The effective dose due to external beam radiation is determined by means of ICRP publication 74 and ICRU publication 57.

A. effective dose for age group g unless otherwise stated shall be subject to the rules on doses for the sum of the doses due to external exposure over a period of time and of the follow doses for 50 years (up to the age of 70 years) as a result of intake during the same period. The specified period is the period that is specified in articles 9 and 13 of the Council Directive 96/29 related to the dose limits.

In General, the effective dose (E) that an individual of the age group g will receive in accordance with the following formula: where: Eextern the effective dose due to external exposure;
• e (g) j, ing and e (g) j, inh are the committed effective doses per via ingestion or inhalation welcome activity of radionuclide j for age group g (Sv Bq-1). These are given in the tables under point (D) of this annex.
• Aj, ing and Aj, inh are the received activity via ingestion, inhalation, respectively of the radionuclide j (Bq).

B. Notes to the tables In table 1 and 2 the effective dose per intake for ingestion and inhalation welcome activity (Bq) radionuclide is for members of the public in different age classes. Because in table 4 only data for adult workers be given, column ' 12 – 17a ' also be used to determine the dose for apprentices and students aged 16 and 17 years. This may be useful in some situations to make sure that the default parameters for the members of the public used appropriate to the physical and chemical forms in which the radionuclides at work. The daughter nuclides of radon (Rn-222) and thoron (Rn-220) are not taken into account.
As for exposure of members of the public are in table 1 for ingestion values that correspond to the different gut transfer factors f1 in infants and the elderly. As for exposure of members of the public are in table 2 for inhalation values for the different types of lung retention, with appropriate f1 values for that portion of the intake that is drained through the gastrointestinal tract. If information is available about these values, the appropriate value; If not then the most restrictive value. The lung absorption types for this are given in table 3.
In table 4 shows values of the committed effective dose per intake for ingestion and inhalation Bq radionuclide is taken for exposed workers and for apprentices and students aged 18 years or older; the daughter nuclides of radon progeny and thoron progeny are not taken into account. Is given in table 5 for soluble or reactive gases and vapours and in table 6 for rare gases.
What occupational exposure concerns are in table 4 values for ingestion corresponding with the different gut transfer factors f1 as well as the values for inhalation for the different types of lung retention, with appropriate f1 values for that portion of the intake that is drained through the gastrointestinal tract.
In table 7 are the gut transfer factors f1 by element and compounds for employees and members of the public at recording via ingestion. In table 8 are the lung absorption types and gut transfer factors f1 by element and compounds for exposed workers, apprentices and students aged 18 years or older and members of the population at intake via inhalation.
For members of the public, the lung absorption types and gut transfer factors f1 on the basis of available international guidelines to take into account the chemical form of the element. In General, in the absence of information on these parameters the most conservative value to be applied.

C. conversion factors for radon progeny and thoron progeny-daughters For radon (Rn-222) and thoron (Rn-220), the following conventional conversion factors, effective dose per unit potential Alpha-energy exposure (Sv per Jhm-3): conversion factors in effective dose per unit potential Alpha-energy exposure (Sv per Jhm-3) 1.4 Thoron 1.1 Radon Radon in home on work on work 0.5 Potential Alpha energy (of radon progeny and thoron progeny) is the total energy eventually issued during the decay of radon progeny and thoron progeny in the whole expiration cycle up to but not including 210Pb 222Rn and up to stable 208Pb for for daughter nuclides of 220Rn. The unit is J (joule). For exposure to a given concentration during a given time is the unit Jhm-3.

D. Tables taken from Annex III of Directive 96/29 and the communication from the Commission of the EC, 23 February 1998, Oj 1998, C 133.
Table numbers: 1. Ingestion dose coefficients for members of the public.
2. Inhalation dose coefficients for members of the public.
3. Lung absorption types, used for the calculation of inhalation dose coefficient deeltjesaerosolen or gases and vapours for exposed to members of the public.
4. Inhalation and ingestion dose coefficients for workers.
5. Effective dose e (g) per unit of intake via inhalation (Sv Bq-1) for soluble or reactive gases and vapours, for > 17 years both for employees and for members of the public 6. Effective dose per unit of integrated air concentration (Sv/Bq m-3 d-1) as a result of exposure of adults (employees or members of the public) to noble gases 7. Connections and f1 values, used for the calculation of ingestion dose coefficients 8. Connections, Lung absorption types and f1 values, used for the calculation of inhalation dose coefficients table 1 ingestion dose coefficients for members of the population effective dose per unit intake for ingestion (Sv Bq-1) for members of the population age ≤ 1 a Age > 1 a Nuclide half-life f1 for g ≤ 1 a e (g) f1 for g > 1 a 1 – 2 a e (g) 2 – 7 a e (g) 7 – 12 a e (g) 12 – 17 a e (g) > 17 a e (g) Tritiated hydrogen water 1.000 1.000 4.8 6.4 a 12.3 E-11 E-11 1.8 3.1 E-11 2.3 E-11 E-11 1.8 E-11 OBT 12.3 a 1.000 1.000 1.2 1.2 E-10 E-10 7.3 E-11 E-5.7 4.2 4.2 E E-11 11-11 Beryllium Be-53.3 d 0.020 1.8 E-10 7 1.3 E-10 7.7 0.005 E-11 E-5.3 2.8 3.5 E 11-11 E-11 Be-10 E + 6 a 0.020 1.4 1.60 E-8 8.0 E-9 0.005 4.1 E-9 2.4 E-9 1.4 1.1 E-9 E-9 carbon C-11 1.000 0.340 1.000 1.5 h 2.6 E-10 E-E-E-11 10 7.3 4.3 3.0 E 11-11 2.4 E-11 C-14 5.73 E + 3 a 1.000 1.000 E-9 1.4 1.6 E-9 9.9 E-10 8.0 E-10 5.8 5.7 E-10 E-10 Fluorine F-1.83 18 h 5.2 E-1.000 10 1.000 1.5 3.0 E-10 E-10 9.1 E-11 E-11 4.9 6.2 E-11 Sodium Na-22 2.60 a 1.000 1.000 1.5 2.1 E-8 E-8 E 9 5.5 E-9 3.7-8.4 E-9 E-9 After 3.2-3.5 h 24-15.0 1.000 E-9 1.2 2.3 1.000 E-9 E-9 7.7 4.3 5.2 E E-10-10 E-10 Magnesium Mg-28 20.9 h 1.4 1.2 1.000 E-8 0.500 E-8 4.5 7.4 E-9 E-9 2.2 2.7 E-9 E-9 Aluminum Al-26 7.16 E + 5 a 3.4 E-8 0.010 0.020 2.1 7.1 1.1 E-8 E-8 E-9 4.3 3.5 E-9 E-9 Silicon Si-31 2.62 0.020 1.9 1.0 E 0.010 E-9 h-9 3.0 5.1 E-10 E-10 1.6 1.8 E-10 E-10 Si-32 E 4.50 + 2 a 0.010 4.1 0.020 7.3 E-9 E-9 E-9 1.2 2.0 7.0 E-9 E-10 P-Phosphorus 32 14.3 5.6 E-10 d
3.1 1.000 E-8 0.800 9.4 E-9 5.3 1.9 E-8 E-9 3.1 2.4 E-9 P-E-9 33 25.4 d 1.000 E-9 0.800 2.7 1.8 E-9 5.3 9.1 E-10 E-10 3.1 E-10 2.4 E-10 Sulfur S-35 (anorg.) 87.4 d 1.000 E-9 1.3 8.7 1.000 E-10 2.7 1.6 4.4 E-10 E-10 E-10 1.3 E-10 S-35 (org.) 87.4 d 1.000 E-9 1.000 5.4 7.7 E-9 1.6 2.7 E-9 E-9 9.5 E-10 Chlorine Cl-36 3.01 7.7 E-10 E + 5 a 6.3 1.000 1.000 9.8 E-9 E-9
1.9 3.2 E-9 E-9 1.2 E-9 9.3 E-10 Cl-38 1.000 1.000 7.7 0.620 h 1.4 E-9 E-10 2.2 3.8 E-10 E-10 1.2 1.5 E-10 E-10 Cl-10 39 0.927 h 1.000 1.000 5.5 9.7 E-E-E-E-10 10 2.7 1.6 1.1 10 E-10 8.5 E-11 Potassium K-40 1.28 E + 9 a 1.000 1.000 4.2 6.2 E-8 E-8 2.1 E-8 1.3 E-8 7.6 E-9 6.2 E-9 K-12.4 42 h 3.0 1.000 1.000 5.1 E-9 E-9 1.5 E-9 8.6 5.4 E-10 E-10 4.3 E-10 K-43
22.6 h 2.3 1.000 E-9 1.4 1.000 E-9 4.7 7.6 E-10 E-10 2.5 3.0 E-10 E-10 K-44 5.5 1.0 E-9 0.369 h 1.000 1.000 E-E-E-10 10 10 2.7 1.6 1.1 E-10 E-11 K-45 0.333 8.4 h 1.000 1.000 3.5 E-10 10 6.2 E-1.7 E-10 9.9 E-11 E 6.8-11 5.4 E-11 Calcium 2 Ca-41 1.40 E + 5 a 5.2 0.300 0.600 1.2 E-9 E-10 5.0 3.9 E-10 4.8 E-10 E-10 1.9 E-10 Ca-45 163 d 0.300 4.9 0.600 1.1 E-8 E-9
2.6 1.8 E-9 E-9 1.3 E-9 7.1 E-10 Ca-47 d 0.600 4.53 1.3 E-8 0.300 4.9 9.3 E-9 E-9 3.0 E-9 1.6 1.8 E-9 E-9 Scandium Sc-0.001 1.8 1.0 3.89 43 h E-9 E-4 E-9 1.2 3.7 6.1 E-10 E-10 1.9 2.3 E-10 E-10 Sc-3.93 44 h 3.5 0.001 E-9 E-4 E-9 1.2 2.2 1.0 E-9 E 7.1-10 4.4 3.5 E-10 E-10 Sc-44 m 2.44 0.001 2.4 d E-8 1.0 E-4 E-9 1.6 E-8 8.3 3.1 5.1 E-9 E-9 2.4 E-9
SC-0.001 1.1 1.0 E-8 46 83.8 d E-E-E-9 9 4 7.9 4.4 1.8 1.5 2.9 E-9 E-9 E-9 Sc-47 d 0.001 6.1 3.35 E-9 1.0 E-4 3.9 E-9 1.2 2.0 E-9 E-9 E 6.8-10 5.4 E-10 Sc-1.82 48 d 1.3 1.0 E-4 E-8 0.001 9.3 5.1 E E-9-9-9-9 1.7 2.1 3.3 E E E-9 Sc-0.956 49 h 1.0 1.0 E 0.001-9 E-4 E-5.7 10 1.0 2.8 E-10 1.6 E-10 E-10 E 8.2-11 Titanium Ti-44 5.5 47.3 a 0.020 E-8 0.010
8 1.7 3.1 E-E-E-E-8 6.9 8 1.1 9 5.8 E-9 h 45 3.08 0.020 1.6 Ti-E-9 0.010 9.8 5.0 E-10 E-E-E-10 10 10 3.1 1.9 1.5 E-10 Vanadium V-47 h 0.020 7.3 0.543 E-10 0.010 4.1 E-10 E-10 1.2 2.0 E-10 8.0 E-V-E 6.3-11 11 48 16.2 d 0.020 1.5 1.1 E-8 E-8 0.010 3.9 5.9 E-9 E-9 2.0 2.5 E-9 E-9 V-49 330 d 0.020 0.010 1.4 2.2 E-10 E-10 E-11 4.0 E-11 6.9 2.3 E-11 1.8 E-11 Chrome
 
 
 
 
 
 
 
 
 
CR-48 23.0 h 1.4 0.200 0.100 9.9 E-9 E-10 E-5.7 10 3.8 E-10 2.5 2.0 E-10 E-10 E-9 1.4 0.010 9.9 0.020 E-10 E-5.7 10 3.8 E-10 2.5 2.0 E-10 E-10 Cr-49 0.702 h E 6.8-10 0.100 3.9 0.200 E-10 2.0 E-10 6.1 1.1 E-10 7.7 E-11 E-11 0.010 3.9 0.020 6.8 E-10 E-10 2.0 E-10 6.1 1.1 E-10 7.7 E-11 E-11 Cr-51 d 0.200 27.7 3.5 E-10 E-10 1.2 2.3 0.100 E-10 E 7.8-11 4.8 E-11 E-11 0.020 3.8
0.010 2.2 3.3 E-10 E-10 1.2 E-10 7.5 E-11 4.6 E-11 E-11 Manganese Mn-3.7 51 0.200 1.1 0.770 h E-9 3.0 0.100 6.1 E-10 E-10 1.2 1.8 E-10 E-10 9.3 E-11 Mn-52 5.59 0.200 1.2 d E-E-E-9 8 0.100 8.8 5.1 2.2 3.4 E 9-9 E-9 1.8 E-9 Mn-52 m 0.352 h 7.8 E-10 0.100 0.200 4.4 E-10 2.2 1.3 E-10 8.8 E E-10-11 11 Mn-53 3.70 6.9 E-E + 6 a 0.200

4.1 E-10 0.100 2.2 1.1 10 E-E-E-E-11 10 6.5 3.7 3.0 E 11-11 Mn-54 312 d 3.1 0.100 0.200 5.4 E-9 E-9 1.3-1.9 E 9 E-9 7.1 8.7 E-10 E-10 Mn-2.7 E-9 h 56 2.58 0.200 0.100 1.7 E-9 8.5 E-10 2.5 3.2 5.1 E-10 E-10 E-10 Iron 3) Fe-0.600 1.3 E-8 h 52 8.28 0.100 9.1 E-9 4.6 E-9 2.8 E-9 1.4 1.7 E-9 E-9 Fe-2.70 a 0.600 7.6 55 E-9 0.100 2.4 1.7 E-9 E-9 E-1.1 9 7.7 E-10 3.3 E-10 Fe-59 0.600 3.9 44.5 d E-8 1.3 0.100 7.5 E E-8-9-9-9 1.8 3.1 4.7 E E E-9 Fe-60 1.00 E + 5 a 7.9 0.600 0.100 2.7 2.7 E-7 E-7 E-7 1.1 2.3 2.5 E-7 E-7 E-7 Cobalt 4 Co-55 17.5 h 5.5 6.0 E-9 0.600 0.100 E-9 2.9 E-9 1.0 1.1 1.8 E-9 E-9 E-9 Co-56 78.7 d 1.5 0.100 0.600 2.5 E-8 E-8 8.8 E 5.8-9 E-9 3.8 E-9 2.5 E-9 Co-57 271 d 0.600 2.9 E-9 1.6 0.100 E-9 3.7 5.8 8.9 E-10 E-10 E-10 2.1 E-10 Co-70.8 d 0.600 7.3 58 E-9 0.100 4.4 E 2.6-9 E-9 1.7 E-9 E-1.1 9 7.4 E-10 Co-58 m 1.5 0.100 9.15 h 0.600 2.0 E-10 E-10 E 7.8-11 E-11 2.8 E 4.7-11 2.4 E-11 Co-60 5.27 0.600 5.4 a E-8 0.100 2.7 E-8 1.7 E-8 1.1 E-8 7.9 E-9 3.4 E-9 Co-60 m 0.174 0.600 2.2 h E-11 0.100 1.2 E-11 E-5.7 12 2.2 3.2 E-12 E-12 1.7 E-12
Co-1.65 61 h 8.2 E-10 0.100 5.1 0.600 E-10 E-10 9.2 1.4 2.5 E-10 E-11 7.4 E-11 Co-62 m 5.3 0.600 0.232 h E-10 1.5 0.100 3.0 E-10 E-10 8.7 E-11 E-11 4.7 6.0 E-11 Nickel Ni-5.3 0.100 6.10 d 56 E-9 0.050 4.0 E-9 1.6 2.3 E-9 E-9 E-1.1 9 8.6 E-10 Ni-1.50 57 d 6.8 0.100 E-9 0.050 4.9 1.7 E 2.7 E-E-9 9-9 E-1.1 9 59 7.50 8.7 E-10 Ni-E + 4 a 0.050 0.100 6.4 3.4 E E-10-10
1.9 1.1 7.3 E E-E-10 10-11 E-11 Ni-63 96.0 6.3 a 0.050 8.4 0.100 1.6 E-9 E-10 4.6 E-10 2.8 E-10 1.5 1.8 E-10 E-10 Ni-2.52 h 65 0.050 0.100 2.1 E-9 1.3 E-9 2.3 3.8 6.3 E-10 E-10 E-10 66 2.27 1.8 E-10 Ni-d 0.050 2.2 3.3 0.100 E-8 E-8 1.1 E-8 E 6.6-3.7 9 E-9 3.0 E-9 Copper Cu-60 0.387 h 1.000 7.0 E-10 4.2 0.500 E-10 2.2 1.3 E-10 E-10 8.9 E-11 E-11 Cu-7.0 3.41 61 h
0.500 7.5 7.1 1.000 E-10 E-E-E-10 10 10 3.9 2.3 1.5 1.2 E-10 E-10 Cu-12.7 64 h 5.2 1.000 E-10 0.500 4.2 E-10 2.5 8.3 E-10 E-10 1.2 1.5 E-10 E-10 Cu-2.1 2.58 67 d 1.000 E-9 2.4 0.500 E-9 1.2 E-9 E-10 7.2 4.2 E-10 3.4 E-10 Zinc Zn-9.26 62 h 1.000 4.2 E-9 6.5 0.500 E-9 1.2 2.0 3.3 E-9 E-9 E-9 63 0.635 9.4 E-10 Zn-h 5.2 0.500 E 8.7 1.000 E-10-10 1.0 1.5 E 2.6 E-10-10 E-10 7.9 E-11 Zn-65 244 d 3.6 E-8 0.500 1.6 1.000 E-8 6.4 9.7 E-9 E-E-E-9 9 9 3.9 4.5 Zn-0.950 69 h 3.5 1.000 E-10 1.1 2.2 0.500 E-10 E-10 3.9 3.1 6.0 E-11 E-11 E-11 Zn-69 m 1.3 h 13.8 1.000 E-9 1.2 2.3 0.500 E-9 E-9 4.1 7.0 E-10 E-10 3.3 E-10 Zn-71 m 1.5 1.4 3.92 h 1.000 E-9 0.500 E-9 4.8 7.8 E-10 E-10 3.0 E-10 2.4 E-10 Zn-72 1.94 d 8.7 1.000 E-9 8.6 0.500 E-9
2.8 4.5 E-9 E-9 1.4 1.7 E-9 E-9 Gallium Ga-0.253 65 h 4.3 0.010 0.001 2.4 E-10 E-10 1.2 E-10 6.9 E-11 4.7 E-11 3.7 E-11 Ga-66 9.40 h 1.2 E-8 0.010 0.001 4.0 7.9 E-9 E-9 1.2 1.5 2.5 E-9 E-9 E-9 Ga-67 d 0.010 3.26 1.8 E-9 1.2 0.001 E-9 6.4 E-10 4.0 1.9 2.4 E-10 E-10 E-10 Ga-68 1.13 0.010 1.2 h E-9 3.4 0.001 6.7 E-10 E-10 1.0 2.0 1.3 E-10 E-10 E-10 Ga-70 0.353 h
0.001 2.2 0.010 3.9 E-10 E-10 1.0 4.0 5.9 E 10-11 E-E-E-11 go 3.1-14.1 72 11 h 1.0 E-8 0.010 0.001 3.6 E 6.8 E-9-9-9-9 1.4 1.1 2.2 E E E-9 Ga-4.91 73 h 3.0 E-9 0.001 1.9 0.010 E-9 5.5 9.3 E-10 E-10 2.6 3.3 E-10 E-10 Germanium Ge-2.27 66 h 8.3 E-10 1.000 1.000 5.3 1.9 2.9 E-10 E-10 E-10 1.3 E-10 1.0 E-10 Ge-0.312 67 h 7.7 1.000 E-10 4.2 1.000 E-10 2.1 1.2 E-10 E-10 8.2 E-11 68 288 d 1.000 E-11 Ge 6.5-8.0 E-8 1.2 1.000 E-9 4.2 E 2.6 E-9 1.6-9 E-9 1.3 E-9 Ge-1.63 69 d 1.000 E-9 2.0 1.3 1.000 E-9 E 7.1-10 4.6 E-10 3.0 E-10 2.4 E-10 Ge-11.8 71 d 1.000 E-10 1.000 7.8 E 1.2-2.4 E 4.0 E 11-11-11 11 1.2 1.5 E-E-11 Ge-1.38 75 h 1.000 1.000 3.1 5.5 E-10 E-10 1.5 E-10 8.7 E-11 E-11 4.6 5.9 E-11 Ge-77 11.3 h 3.0 E-9 1.000 1.000 1.8 E-9
9.9 E-10 10 6.2 E-3.3 4.1 E-10 E-10 Ge-1.45 h 78 1.000 1.000 7.0 E-10 E-9 1.2 3.6 E-10 1.2 1.5 2.2 E-10 E-10 E-10 Arsenic As-0.253 69 h 6.6 1.000 E-10 3.7 0.500 E-10 1.1 1.8 E-10 E-10 7.2 5.7 E E-11-11 As-70 0.876 h 1.2 1.000 E-9 7.8 0.500 E-10 4.1 2.5 E-10 E-10 1.3 1.7 E-10 E-10 As-71 2.8 2.8 E-9 0.500 2.70 d 1.000 E-9 9.3 1.5 E-9 E-10 E-5.7 10 4.6 E-10 As-1.08 72 d
1.1 1.000 E-8 1.2 0.500 E-8 2.3 3.8 6.3 E-9 E-9 E-9 1.8 E-9 As-80.3 73 d 1.000 E 2.6-9 1.9 0.500 E-9 5.6 9.3 E-10 E-10 2.6 3.2 E-10 E-10 As-1.0 17.8 74 d 1.000 E-8 0.500 2.6 4.3 8.2 E-9 E-9 E-9 1.6 E-9 1.3 E-9 As-1.0 76 1.10 d 1.000 E-8 1.1 0.500 E-8 E 5.8-9 3.4 E-9 1.6 2.0 E-9 E-9 As-1.62 77 d 1.000 E-9 0.500 2.7 2.9 1.5 E-9 E-9 8.7 E-10 5.0 E-10
1.51 4.0 E-10 As-78 h 2.0 1.000 E-9 1.4 0.500 E-9 4.1 7.0 E-10 E-10 2.1 2.7 E-10 E-10 Selenium Se-70 1.000 1.0 E-9 0.683 h E 7.1-10 0.800 3.6 E-10 1.2 1.5 2.2 E-10 E-10 E-10 Se-7.15 73 h 0.800 1.4 1.6 1.000 E-9 E-9 4.8 7.4 E-10 E-10 2.1 2.5 E-10 E-10 Se-73 m 1.8 2.6 E-10 0.800 0.650 h 1.000 E-10 E 9.5-11 5.9 E-11 E-11 2.8 3.5 E-11 Se-75 120 d 2.0 1.000 E-8 1.3 0.800 E-8
8.3 6.0 E-9 E-9 3.1 E 2.6-9 E-9 Se-79 6.50 E + 4 a 1.000 4.1 2.8 E-8 1.9 0.800 E-8 E-8 E-8 4.1 E-9 1.4 2.9 E-9 Se-0.308 h 81 3.4 E-10 0.800 1.9 1.000 E-10 9.0 E-E-E-11 11 11 5.1 3.4 2.7 E-11 Se-81 m 0.954 h 6.0 E-10 0.800 3.7 1.000 E-10 1.1 1.8 E-10 E-10 6.7 E-11 E-11 Se-83 0.375 5.3 h 2.9 4.6 E-10 0.800 1.000 E-10 1.5 E-E-E-11 11 10 8.7 5.9 4.7 E-11 Bromine Br-74
9.0 h 1.000 E-10 1.000 0.422 5.2 E-10 1.5 1.1 10 2.6 E-10 E-E-E-11 Br-74 m 0.691 10 8.4 h 1.000 1.000 8.5 E 1.5 E-9-10 4.3 E-10 2.5 E-10 1.4 1.7 E-10 E-10 Br-1.63 75 h 8.5 E-10 1.000 4.9 1.000 E-10 1.5 2.5 E-10 E-10 9.9 E-11 E-11 Br-76 16.2 7.9 h 2.7 1.000 1.000 4.2 E-9 E-9 1.4 E-9 4.6 5.6 8.7 E-10 E-10 E-10 Br-2.33 77 d 6.3 4.4 1.000 1.000 E-10 E-10 1.7 2.5 E-10 E-10
9.6 1.1 E-10 E-11 Br-80 3.9 2.1 0.290 h 1.000 1.000 E-10 E-10 1.0 E-10 3.9 3.1 5.8 E-11 E-11 E-11 Br-80 m 4.42 h 1.4 1.000 E-9 8.0 E-10 3.9 1.000 E-10 1.4 1.1 2.3 E-10 E-10 E-10 Br-3.7 1.47 82 d 1.000 E-9 2.6 1.000 E-9 1.5 E-9 9.5 E-10 5.4 6.4 E-10 E-10 Br-2.39 83 h 3.0 1.000 1.000 5.3 E-10 E-E-E-10 10 1.4 8.3 5.5 4.3 E E-11 11-11 Br-0.530 84 h 5.8 1.000 1.000 1.0 E-9 E-10 1.6 2.8 E-10 E-E-E-10 8.8 1.1 10 11 Rubidium Rb-79 0.382 h 1.000 1.000 3.2 5.7 E-10 E-10 9.2 1.6 E-10 E-11 E-11 5.0 E 6.3-11 Rb-81 5.4 3.2 4.58 h 1.000 1.000 E-10 E-10 1.6 E-10 1.0 E-5.4 6.7 E 10-11 E-11 Rb-81 m 6.2 1.1 E-10 0.533 h 1.000 1.000 E-11 1.2 1.8 3.1 E-11 E-11 E-11 9.7 E-12 Rb-82 m 6.20 h 1.000 1.000 5.9 8.7 E-10 E-10 2.2 3.4 E-10 E-10 1.3 1.5 E-10 E-10 Rb-86.2 83 d 1.000 E-8 1.1 8.4 1.000 E-E-E-9 9 9 4.9 3.2 2.2 E-9 E-9 Rb-84 32.8 1.9 d 1.000 E-8 2.0 1.4 1.000 E-8 7.9 E-9 5.0 E-9 3.3 2.8 E-9 E-9 Rb-18.7 86 d 1.000 E-8 2.0 3.1 1.000 E-8 5.9 9.9 E-9 E-9 2.8 3.5 E-9 E-9 Rb-87 4.70 E + 10 a 1.000 1.000 1.0 1.5 E-8 E-8 1.8 3.1 5.2 E-9 E-9 E-9 E-9 Rb-88 0.297 1.5 h 1.000 1.000 6.2 1.1 E-9 E-10 1.7 3.0 E-10 E-10 9.0 1.2 E-10 E-11 Rb-89 5.4 E-10 0.253 h 1.000 1.000 1.5 3.0 E-10 E-5.9 8.6 E 10-11 E-11 4.7 E-11 Strontium 5 Sr-80 0.600 3.7 1.67 h E-9 0.300 1.1 2.3 E-9 E-9 6.5 E-10 3.4 4.2 E-10 E-10 Sr-81 0.425 0.600 8.4 h E-10 0.300 2.4 4.9 E-10 E-E-E-11 10 10 1.4 9.6 7.7 E-11 Sr-82 25.0 d 7.2 0.600 E-8 0.300 2.1 4.1 E-8 E-8 1.3 E-8 6.1 8.7 E-9 E-9 Sr-83 1.35 d 0.600 3.4 E-9 1.4 0.300 2.7 E-9 E-9 E-5.7 4.9 9.1 E-10 10 E-10 Sr-85 0.600 7.7 64.8 d E-E-E-1.7 3.1 0.300 9 9 9 9 9 5.6 1.5 1.3 E-E-E-10 Sr-85 m 1.16 0.600 4.5 h E-11 0.300 3.0 E-11 1.7 E-11 E-6.1 1.1 7.8 E 11-12 E-12 Sr-87 m 2.80 h 0.600 2.4 1.7 E-10 E-10 0.300 9.0 E-11 5.6 E-11 3.6 E-11 E-11 Sr-89 50.5 3.0 d 3.6 E-8 0.300 0.600 1.8 E-8 8.9 E 5.8-9 E-9 4.0 E-9 2.6 E-9
SR-90 0.600 2.3 E-7 0.300 29.1 a 7.3 4.7 E-8 E-8 6.0 E-8 8.0 E-8 2.8 E-8 Sr-91 9.50 h 5.2 0.600 0.300 4.0 E-9 E-9 1.2-2.1 E 9 6.5 7.4 E-9 E-10 E-10 Sr-92 0.600 3.4 2.7 0.300 2.71 h E-9 E-9 1.4 E-9 4.8 E-10 4.3 8.2 E-10 E-10 Yttrium Y-14.7 86 h 1.0 E 0.001 7.6 E-9-4 9-2.9 5.2 E E-9 1.9 E-9 1.2 E-9 9.6 E-10 Y-86 0.800 0.001 4.5 h E-10 1.0 E-4 3.1 E-10
1.1-1.7 E 10 E-10 E-11 5.6 E 7.1-11 Y-87 3.35 d 0.001 4.6 E-9 1.0 1.8 3.2 E-4 E-9 E-9 E-1.1 9 7.0 E-10 E 5.5 8.1-10 Y-88 107 d 0.001 E-9 1.0 E-4 E-9 2.4 3.5 6.0 E-9 E-9 1.6 E-9 1.3 E-9 Y-90 (d) 0.001 2.67 3.1 2.0 1.0 E-8 E-4 E-8 1.0 E-8 3.3 5.9 E-9 E-9 2.7 E-9 Y-90 m 0.001 1.8 1.0 E 3.19 h E-9-4 1.2 E-9 3.7 6.1 E-10 E-10 E 2.2-1.7 10 E-10
Y-1.0 2.8 E-8 91 58.5 (d) 0.001 E-4 E-8 1.8 5.2 8.8 E-9 E-9 2.9 E-9 2.4 E-9 Y-91 0.828 h 9.2 0.001 E-11 E-4 6.0 1.0 E-11 E 3.3-2.1 E 11-11 1.4 1.1 E E-11-11 Y-92 h 0.001 5.9 3.54 E-9 1.0 E-4 3.6 E-9 1.0 1.8 E-9 E-9 4.9 6.2 E-10 E-10 Y-10.1 93 h 1.0 1.4 0.001 E-8 E-4 E-9 4.3 8.5 E-9 1.2 1.4 2.5 E-9 E-9 E-9 Y-94 0.001 9.9 0.318 h E-10 1.0 E-4
5.5 1.5 2.7 E-10 E-10 E-10 1.0 E-10 E 8.1-11 Y-95 h 0.001 5.7 0.178 E-10 1.0 E-4 1.5 E-10 8.7 3.1 E-10 E-11 E-11 4.6 5.9 E-11 Zirconium Zr-16.5 h 0.020 6.9 86 E-9 4.8 0.010 E-9 2.7 1.1 1.7 E-9 E-9 E-9 8.6 E-10 Zr-83.4 88 d 0.020 2.8 E-9 1.2 0.010 2.0 E-9 E-9 4.5 5.4 8.0 E-10 E-10 E-10 Zr-3.27 89 d 0.020 0.010 4.5 6.5 E-9 E-9 1.6 2.5 E-9 E-9 7.9 9.9 E-10 E-10
ZR-93 1.53 E + 6 a 0.010 7.6 0.020 1.2 E-9 E-E-E-10 10 10 5.1 5.8 8.6 E-10 E-1.1 9 Zr-95 64.0 d 0.020 8.5 E-9 0.010 5.6 E-9 E-9 1.9 3.0 E-9 1.2 E-9 9.5 E-10 Zr-97 16.9 0.020 2.2 h 1.4 E-8 E-8 0.010 7.3 4.4 E-E-9 9 9 2.1 2.6 E-E-9 Niobium Nb-88 0.020 6.7 E-10 0.238 h 3.8 0.010 E-10 1.9 E-E-E-10 7.9 1.1 10 11 E 6.3-11 Nb-2.03 89 h 2.0 3.0 E-9 0.020 0.010 E-9
6.0 1.0 E-9 E-10 3.4 2.7 E-10 E-10 Nb-1.10 89 h 1.5 0.020 0.010 8.7 E-9 E-10 E-10 4.4 1.8 1.4 2.7 E-10 E-10 E-10 Nb-90 14.6 h 1.1 0.020 E-8 0.010 3.9 7.2 E-9 E-9 1.2 2.5 E-9 1.6 E-9 E-9 Nb-93 m 13.6 a 0.010 9.1 0.020 1.5 E-9 E-10 4.6 E-10 1.5 2.7 E-10 E-10 1.2 E-10 Nb-94 2.03 E + 4 a 0.020 1.5 E-8 0.010 9.7 E-E-E-9 9 9 5.3 3.4 1.7 2.1 E-9 E-9 Nb-95 35.1 d 0.020 0.010 3.2 4.6 E-9 E-9 1.1 1.8 E-9 E 5.8 7.4-9 E-10 E-10 Nb-95 m 3.61 d 0.020 0.010 4.1 6.4 E-9 E-9 E-9 1.2 E 2.1-5.6-7.1 9 E 10 E-10 Nb-23.3 96 h 9.2 0.020 0.010 6.3 E-9 E-9 2.2 3.4 E-9 E-9 1.4 1.1 E-9 E-9 Nb-1.20 h 7.7 0.020 97 E-10 4.5 0.010 E-10 2.3 1.3 E-10 E-6.8 8.7 E 10-11 E-11 Nb 0.858 h 98 0.020 0.010 7.1 E-10 E-9 1.2 3.6 E-10 1.4 2.2 E-10 E-10 E-1.1 10 Molybdenum

 
 
 
 
 
 
 
 
MO-90 5.67 h 1.7 1.000 E-9 1.2 1.000 E-9 E 6.3-10 4.0 E-10 2.2 2.7 E-10 E-10 Mo-3.50 E + 3 a 1.000 7.9 93 E-9 6.9 1.000 E-5.0 4.0 E-E-9 9 9 9 3.1 3.4 E-E-9 Mo-93 m 6.85 h 8.0 E-10 1.000 1.000 5.4 2.0 3.1 E-10 10 E-E-E-E-10 10 10 1.4 1.1 Mo-99 2.75 d 1.000 E-9 1.000 3.5 E 5.5-9 7.6 1.8 E-1.1 9 E-9 E-10 6.0 E-10 Mo-0.244 1.000 4.8 h E 101-10 1.000 1.3 2.7 E-10 E-10 7.6 E-11 E-11 4.1 5.2 E-11 Technetium Tc-2.75 93 h 2.5 2.7 1.000 E-10 0.500 E-10 1.5 E-10 9.8 E-11 E 6.8-11 E 5.5-11 Tc-93 m 0.725 h 2.0 E-10 1.000 1.3 E-10 7.3 0.500 E-11 E-11 2.5 3.2 4.6 E-11 E-11 Tc-4.88 94 h 1.0 1.2 1.000 E-9 0.500 E-9 3.7 5.8 E-10 E-10 2.0 2.5 E-10 E-10 Tc-94 m 0.867 h 1.000 1.3 E-9 6.5 0.500 E-10 1.3 3.3 E-10 1.9 E-10 E-10 1.0 E-10 Tc-20.0 95 h 1.000
9.9 E-10 8.7 0.500 E-10 5.0 E-10 2.3 3.3 E-10 E-10 1.8 E-10 Tc-95 m 61.0 1.000 4.7 d E-9 1.6 2.8 0.500 E-9 E-9 1.0 7.0 E-9 E-10 5.6 E-10 Tc 96 4.28 d 1.000 E-6.7-9 5.1 0.500 E-9 2.0 3.0 E-9 E-9 1.4 1.1 E-9 E-9 Tc-0.858 96 h 1.0 E-10 0.500 6.5 1.000 E-11 3.6 2.3 E E-11-11 11 1.2 1.6 E-E-11 Tc-97 2.60 E + 6 a 9.9 1.000 E-10 2.4 4.9 0.500 E-10 E-10 8.8 1.4 E-10 E-11 E 6.8-11 Tc-97 m 8.7 87.0 d 1.000 E-9 4.1 0.500 E-9 2.0 7.0 E-1.1 9 E-9 E-10 5.5 E-10 Tc-98 4.20 E + 6 a 2.3 1.000 E-8 1.2 0.500 E-8 3.7 6.1 E-9 E-9 2.0 2.5 E-9 E-9 Tc-99 2.13 E + 5 a 1.000 1.0 E-8 0.500 4.8 2.3 1.3 E E-E-9 9-9-10 E 8.2 6.4 E-10 Tc-99 m 6.02 h 2.0 E-10 1.000 1.3 E-10 7.2 0.500 E-11 4.3 E-11 E-11 2.2 2.8 E-11 Tc-101 2.4 0.237 h 1.000 E-10 1.3 0.500 E-10 6.1 E-11 E-11 2.4 3.5 E-11 1.9 E-11 Tc 104 0.303 h 1.000 1.0-E-9 2.6 5.3 0.500 E-10 E-10 E-10 1.0 1.5 8.0 E-10 E-11 Ruthenium Ru-E-10 0.863 h 94 0.100 9.3 0.050 5.9 E-10 3.1 1.2 1.9 E-10 E-10 E-9.4 E 10-11 Ru-97 2.90 d 0.100 1.2 E-9 8.5 E-10 4.7 0.050 E-10 E-10 1.9 3.0 E-10 E-10 Ru-103 39.3 d 1.5 0.100 0.050 4.6 E 7.1 E-9-9-9-9 9.2 2.4 E 1.5 E E-10 7.3 E-10 Ru-105 4.44 h 2.7 E-9 0.050 0.100 1.8 E-9 5.5 9.1 E-10 E-10 2.6 3.3 E-10 E-10 Ru-106 1.01 a 0.050 4.9 0.100 8.4 E-8 E-8 1.5 2.5 E-8 E-8 8.6 E-9 7.0 E-9 Rhodium Rh-99 16.0 d 0.100 4.2 E-9 1.6 0.050 2.9 E-9 E-9 1.0 E-9 6.5 E-10 5.1 E-10 Rh-99 m 4.9 0.100 4.70 h E-10 0.050 2.0 3.5 E-10 E-10 1.3 E-10 8.3 E-11 E 6.6-11 Rh-100 4.9 0.100 20.8 h E-9 2.0 0.050 3.6 E-9 E-9 1.4-7.1 8.8 E-9 E 10 E-10 Rh-3.20 a 0.100 4.9 101 E-9 1.6 0.050 2.8 E-9 E-9 1.0 E-9 5.5 6.7 E-10 E-10 Rh-101 m 1.7 E-9 1.2 0.050 0.100 4.34 d E 6.8-9 E-10 4.4 2.8 E-10 E-10 2.2 E-10 Rh-102 2.90 0.100 1.9 1.0 E 0.050 E-8 a-8 E 9 4.3-6.4 E-9 3.0 E-9-102 207 d Rh E 2.6-9 1.2 E-8 0.050 7.4 0.100 E-9 3.9 E-9 2.4 E-9 1.2 1.4 E-9 E-9 Rh-103 m 0.935 h 4.7 0.100 E-11 0.050 2.7 E-11 1.3 E-11 7.4 E-12 3.8 4.8 E-12 E-12 Rh-105 1.47 d 4.0 E-9 0.050 0.100 2.7 E-9 1.3 E-9 8.0 E-10 3.7 4.6 E-10 E-10 Rh-106 m 2.20 h 1.4 0.100 E-9 5.3 0.050 9.7 E-10 E-10 1.6 2.0 3.3 E-10 E-10 E-10 Rh-0.362 107 h 2.9 E-10 0.050 1.6 0.100 E-10 7.9 E-11 E-11 3.1 4.5 E-11 2.4 E-11 Palladium Pd-100 0.050 7.4 3.63 d E-9 0.005 5.2 E-9 2.9 E-9 1.9 E-9 1.2 E-9 9.4 E-10 Pd-101 8.27 h 8.2 E-10 0.005 5.7 0.050 E-10 3.1 1.2 1.9 E-10 E-10 E-9.4 E 10-11 Pd-103 17.0 0.050 2.2 d E-E-E-9 1.4 7.2 9 0.005 10 2.4 1.9 4.3 E-10 E-10 E-10 Pd-107 6.50 E + 6 a 0.050 4.4 2.8 1.4 0.005 E-10 E-10 E-10 E-11 4.6 E 8.1-11 3.7 E-11 Pd-13.4 109 h 6.3 0.050 E-9 0.005 4.1 E-9 1.2 2.0 E-9 E-9 E 6.8-10 5.5 E-10 Silver Ag-102 0.215 0.100 4.2 E-10 0.050 2.4 h E-10 7.3 1.2 E-10 E-11 5.0 4.0 E-11 E-11 Ag-1.09 103 h 4.5 0.100 0.050 2.7 E-10 E-E-E-10 10 1.4 8.3 5.5 4.3 E E-11 11-11 Ag-104 1.15 h 4.3 0.100 0.050 2.9 1.7 E-10 E-10 E-E-E-10 10 1.1 7.5 11 6.0 E-11 Ag-104 m 0.558 h 0.050 3.3 5.6 0.100 E-10 E-10 10 1.0 1.7 E-E-E-E-11 5.4 6.8 10 11 Ag-41.0 d 0.100 3.9 105 E-9 1.4 2.5 0.050 E-9 E-9 5.9 4.7 9.1 E-10 E-10 E-10 Ag-106 0.399 h
0.050 2.1 0.100 3.7 E-10 E-10 6.0 1.0 E-10 E-11 3.2 4.1 E-11 E-11 Ag-106 m 0.100 9.7 8.41 d E-E-E-9 9 0.050 6.9 4.1 2.8 1.8 E-E-9 9 9 9 E-Ag-108 m 1.5 0.100 2.1 1.1 0.050 127 a E-8 E-8 E 6.5-9 4.3 E-9 2.8 E-9 2.3 E-9 Ag-110 m 0.100 2.4 d 250 E-8 1.4 0.050 E-8 7.8 E-9 5.2 3.4 E-9 E-9 2.8 E-9 Ag-7.45 111 d 1.4 0.100 E-8 4.6 0.050 9.3 E-9 E-9 1.6 2.7 E-9 E-9
1.3 E-9 Ag-3.12 112 h 3.0 0.050 0.100 4.9 E-9 E-9 1.5 E-9 5.4 8.9 E-10 E-10 4.3 E-10 Ag-0.333 115 h 7.2 E-10 0.050 4.1 0.100 E-10 1.2 2.0 E-10 E-10 6.0 E-11 E-7.7 11 Cadmium Cd-0.961 104 h 2.9 0.050 0.100 4.2 E-10 E-10 1.7 E-10 7.2 1.1 E-10 E-11 E-11 Cd-107 6.49 5.4 h 0.100 7.1 0.050 4.6 E-10 E-10 2.3 1.3 E-E-10 10 6.2 E 7.8-11 E-11 Cd-109 1.27 a 2.1 0.100 0.050 9.5 E E-8-9
3.5 E 5.5-9 E-9 2.0 2.4 E-9 E-9 Cd-9.30 113 E + 15 a 1.0 E-7 0.050 4.8 0.100 E-8 3.7 E-8 3.0 E-8 2.5 2.6 E-8 E-8 Cd-0.100 113m 13.6 a 0.050 5.6 1.2 E-7 E-8 3.9 2.9 E-8 E-8 2.3 2.4 E-8 E-8 Cd-2.23 115 d 0.050 9.7 0.100 1.4 E-8 E-9 E-9 4.9 1.7 1.4 2.9 E-E-E-9 9 9 Cd-115 0.100 4.1 44.6 d E-E-E-8 8 0.050 1.9 9.7 9 6.9 E-9 4.1 E-9 3.3 E-9 Cd-2.49 117 h 2.9 E 0.100 0.050 1.9-9 E-9 9.5 E-10 E-5.7 10 2.8 3.5 E-10 E-10 Cd-117 m 3.36 0.100 2.6 h E-9 0.050 1.7 E-9 3.5 5.6 9.0 E-10 E-10 E-10 2.8 E-10 Indium In-109 4.20 h 5.2 E-10 0.020 0.040 3.6 E-10 2.0 1.3 E-10 E-10 E 8.2-11 6.6 E-11 In-110 4.90 0.040 1.5 h E-9 6.5 0.020 1.1 E-9 E-10 4.4 E-10 3.0 E-10 2.4 E-10 In-110 1.15 h 6.4 0.020 0.040 1.1 E-9 E-10 1.9 3.2 E-10 E-10
1.3 E-10 1.0 E-10 In-111 0.040 2.4 1.7 2.83 d 0.020 E-9 E-9 E-10 9.1 3.7 E-10 2.9 5.9 E-10 E-10 In 112 0.240 h 0.040 1.2-E-E-E-11 10 0.020 6.7 3.3 11 1.9 1.0 E 1.3 E-E-11 11-11 In-113m 3.0 h 0.040 1.66 E-10 0.020 1.8 E-10 9.3 E-11 E-11 3.6 6.2 E-11 2.8 E-11 In-114 m 49.5 d 0.020 3.1 0.040 5.6 E-8 E-8 1.5 E-8 9.0 E-9 5.2 E-9 4.1 E-9 In-5.10 115 E + 15 a 0.040 1.3 E-7
0.020 4.8 6.4 E-8 E-8 3.2 3.6 4.3 E-8 E-8 E-8 In-115 0.040 9.6 4.49 h E-10 3.0 6.0 E-10 E-0.020 10 1.1 1.8 E-10 E-10 8.6 E-11 In-116 m 0.020 3.6 5.8 0.040 0.902 h E-10 E-10 1.9 E-10 E-10 8.0 E 1.2-6.4 11 E-11 In-0.730 117 h 3.3 0.040 E-E-E-10 10 0.020 1.9 9.7 11 3.9 3.1 5.8 E-11 E-11 E-11 In-117 m 1.94 h 1.4 0.040 E-9 4.3 0.020 8.6 E-10 E-10 E-2.5 1.2 1.6 10 E-10 E-10 In-119
0.040 5.9 0.300 h E-10 1.6 0.020 3.2 E-10 E-10 E-11 6.0 E-11 4.7 8.8 E-11 Tin Sn-4.00 h 0.040 3.5 110 E-9 1.2 2.3 0.020 E-9 E-9 7.4 E-10 4.4 3.5 E-10 E-10 Sn-111 0.588 h 2.5 E-10 0.020 0.040 1.5 7.4 4.4 E E-E-10 11-11 2.3 3.0 E-11 E-11 Sn-113 115 d 0.020 5.0 0.040 7.8 E 9-E-9 1.6 2.6 E-9 E-9 7.3 9.2 E-10 E-10 Sn-117 m 13.6 d 0.020 5.0 0.040 7.7 E-9 E-9 1.5 2.5 E-9 E-9 7.1 8.8 E-10 E-10 Sn-119 293 d 0.020 0.040 4.1 2.5 E-9 E-9 1.3 E-9 7.5 E-10 3.4 4.3 E-10 E-10 Sn-121 1.13 d 0.020 1.7 0.040 2.6 E-9 E-9 8.4 2.8 5.0 E-10 E-10 E-10 2.3 E-10 Sn-121 m 0.040 55.0 a 4.6 E-9 1.4 0.020 2.7 E-9 E-9 4.7 8.2 E-10 E-10 3.8 E-10 Sn-123 129 d 0.020 1.6 0.040 2.5 E-8 E-8 4.6 E 7.8 E-9-9-9 2.1 2.6 E E-9 Sn-123 m 0.668 h 0.020 0.040 4.7 E-10
7.3 2.6 1.3 E-10 E-10 E-11 4.9 E-11 E-11 Sn-125 9.64 3.8 d 0.020 0.040 3.5 E-8 1.1 2.2 E-8 E-8 E-6.7 3.8 3.1 E E-9 9-9 Sn-126 1.00 E + 5 a 0.040 5.0 E-8 0.020 1.6 3.0 E-8 E-8 9.8 4.7 5.9 E-9 E-9 E-9 Sn-2.10 127 h 0.040 2.0 E-9 1.3 E-9 6.6 0.020 E-10 2.5 4.0 E-10 E-10 2.0 E-10 Sn-0.985 128 h 1.6 0.040 0.020 9.7 E-9 E-10 4.9 E-10 1.9 3.0 E-10 E-10 1.5 E-10
Antimony Sb-0.530 115 h 1.5 0.100 0.200 2.5 E-10 E-4.5 7.5 E 10-11 E-11 3.1 E-11 E-11 Sb-116 0.263 2.4 h 2.7 E-10 0.100 0.200 1.6 4.8 E 8.0 E-E-10 11-11 E-11 2.6 E 3.3-11 Sb-116 m 1.00 0.200 5.0 E-10 0.100 3.3 h E-10 1.2 1.9 E-10 E-6.7 8.3 E 10-11 E-11 Sb-2.80 117 h 1.6 0.200 0.100 1.0 E-10 E-10 3.5 5.6 E-11 E-11 1.8 2.2 E-11 E-11 Sb-5.00 h 0.200 1.3 118 m E-9 0.100 1.0 E 5.8-9 E-10
3.9 2.1 2.6 E-10 E-10 E-10 Sb-1.59 d 0.200 8.4 119 E-10 0.100 3.0 E 5.8 E-10-10 1.0 1.8 E-10 E-10 8.0 E-11 Sb-120 d 0.200 8.1 5.76 0.100 6.0 E-9 E-9 3.5 E-9 1.6 2.3 E-9 E-9 1.2 E-9 Sb-0.265 120 h 1.7 E-10 0.100 0.200 9.4 E-11 4.6 E-11 2.7 1.8 E-11 E-11 E-11 Sb-122 2.70 1.4 d 0.200 1.8 E-8 1.2 0.100 E-8 6.1 E-9 3.7 E-9 1.7 2.1 E-9 E-9 Sb-124 60.2 d 0.200 2.5 E-8
8.4 0.100 1.6 E-8 E-9 5.2 E-9 2.5 3.2 E-9 E-9 Sb-124 m 0.337 0.200 8.5 E-11 0.100 4.9 h E-11 2.5 1.5 1.0 E E-E-11 11-11 8.0 E-12 Sb-125 0.100 6.1 1.1 0.200 2.77 a E-8 E-9 2.1 3.4 E-9 E-9 1.4 1.1 E-9 E-9 Sb-12.4 126 d 2.0 E-8 0.100 1.4 0.200 E-8 E-9 3.1 4.9 7.6 E-9 E-9 2.4 E-9 Sb-126 m 0.317 0.200 3.9 h E-10 0.100 2.2 1.1 10 E-E-E-E-11 10 6.6 4.5 3.6 E 11-11 Sb-127
3.85 d 0.200 1.7 E-8 1.2 0.100 E-8 5.9 2.1 3.6 E-9 E-9 E-9 1.7 E-9 Sb-128 9.01 h 6.3 0.200 0.100 4.5 E-9 E-9 2.4 E-9 1.5 E-9 9.5 E-10 7.6 E-10 Sb-0.173 128 h 2.1 0.100 0.200 3.7 E-10 E-10 1.0 E-10 6.0 E-11 4.1 E-11 3.3 E-11 Sb-129 0.200 4.32 h 4.3 1.5 0.100 2.8 E-9 E-9 E-9 5.3 8.8 E-10 E-10 4.2 E-10 Sb-E-10 130 0.667 h 0.200 9.1 0.100 5.4 E-10 2.8 E-10 1.7 E-10
9.1 1.2 E-10 E-11 Sb-E-9 0.383 h 131 0.200 1.1 7.3 0.100 E-E-E-10 10 10 3.9 2.1 1.0 1.4 E-10 E-10 To-0.600 Tellurium 116 2.49 h 1.4 0.300 1.0 E-9 E-9 5.5 E-10 3.4 1.7 2.1 E-10 E-10 E-10 To-0.600 3.1 17.0 121 d E-9 1.2 2.0 0.300 E-9 E-9 8.0 E-10 5.4 E-10 To 4.3 E-10-121 m 154 d 0.600 2.7 E-8 1.2 0.300 E-8 6.9 E-9 2.8 E-9 2.3 4.2 E-9 E-9 123 1.00 To-0.600 2.0 E + 13 a E-8 6.9 0.300 9.3 E-9 E-9 4.7 4.4 5.4 E-9 E-9 E-9 To-0.600 123 120 d 1.9 8.8 0.300 E-8 E-9 4.9 1.7 E 2.8 E-E-9 9-9 To E-9 1.4-125 m 58.0 0.600 1.3 E-8 d 6.3 0.300 E 3.3-9 E-9 1.9 E-9 E-1.1 9 8.7 E-10 To-0.600 1.5 9.35 127 h E-9 0.300 1.2 3.6 6.2 E-9 E-10 E-10 1.7 2.1 E-10 E-10 To-0.600 4.1 127 m 109 d E-8 0.300 1.8 5.2 E 9.5 E-8 E-9-9-9 2.3 3.0 E E-9
To-0.600 1.16 129 h 7.5 E-10 0.300 4.4 E-10 2.1 1.2 E-10 8.0 E-10 E-11 To E-11-129 m 33.6 d 6.3 0.600 4.4 E-8 2.4 0.300 E-8 1.2 E-8 3.0 3.9 6.6 E-9 E-9 E-9 To-0.600 9.0 0.417 131 h E-10 3.5 0.300 6.6 E-10 E-10 1.9 E-10 1.2 E-10 To 11-131 m 1.25 8.7 E-d E-E-8 0.300 0.600 2.0 1.4 8 7.8 E 9 4.3-E-9 2.7 E-9 To E-9-132 3.26 1.9 d 0.600 4.8 E-8 1.6 3.0 0.300 E-8 E-8 8.3 E-9 5.3 E-9 3.8 E-9 To-0.600 8.4 0.207 133 h E-10 E 6.3-10 3.3 0.300 E-10 1.6 E-10 1.1 E-10 To E-11-133 m 0.923 7.2 h 0.600 3.1 0.300 2.4 E-9 E-9 1.3 E-9 E 6.3-10 4.1 2.8 E-10 E-10 To-0.600 1.1 0.696 134 h E-9 7.5 E-10 3.9 0.300 E-10 1.4 1.1 2.2 E-10 E-10 E-10 Iodine I-1.35 120 h 1.000

3.9 E-9 2.8 E-9 1.4 1.000 E-9 4.8 7.2 E-10 E-10 3.4 E-10 I-120 m 2.3 1.5 0.883 h 1.000 1.000 E-9 E-7.8 E 9-10 4.2 E-10 2.1 2.9 E-10 E-10 I-2.12 121 h 1.000 1.000 5.3 E-10 10 6.2 E-E-E-1.7 3.1 1.2 E-10 10 10 11 8.2 E-I-E-9 123 13.2 h 1.000 1.000 1.9 2.2 1.1 9 E-E-E-E-10 10 9 4.9 3.3 2.1 E-10 I-124 4.18 d 1.000 E-7 1.1 1.2 1.000 E-7 E 6.3-8 E-8 1.3 3.1 2.0 E-8 E-8 I-125 1.000 5.2 5.7 60.1 d 1.000 E-8 E-8 3.1 4.1 E-8 E-8 1.5 2.2 E-8 E-8 I-126 2.1 2.1 13.0 d 1.000 1.000 E-7 E-7 1.3 E-7 E-6.8 8 4.5 2.9 E-8 E-8 I-0.416 128 h 1.000 1.000 3.3 5.7 E-10 E-10 8.9 1.6 E-10 E-11 6.0 E-11 4.6 E-11 I-129 7 E + 1.57 1.8 2.2 a 1.000 1.000 E-7 E-7 E-7 1.4 1.7 1.9 E-7 E-7 1.1 E-7 I-12.4 130 h 1.000 1.000 1.8 2.1 E-8 E-8
9.8 E-9 4.6 E-9 2.0 3.0 E-9 E-9 I-131 8.04 d 1.8 1.8 E-7 1.000 1.000 E-7 1.0 E-7 E-5.2 2.2 3.4 E 8-8 E-8 I-2.30 h 3.0 E-9 132 1.000 1.000 2.4 E-9 1.3 E-9 E-4.1 E-10 10 6.2 2.9 E-10 I-132 m 2.0 2.4 E-9 1.39 h 1.000 1.000 E-9 1.1 5.0 E-9 E-10 2.2 3.3 E-10 E-10 I-133 20.8 h 1.000 1.000 4.4 4.9 E-8 E-8 2.3 6.8 1.0 E-8 E-8 E-9 4.3 E-9 I-134 0.876 h 1.000
E-1.1 9 7.5 1.000 E-E-E-10 10 10 3.9 2.1 1.1 1.4 E-10 E-10 I-135 1.000 1.000 8.9 6.61 h 1.0 E-8 E-9 1.4 2.2 4.7 E-9 E-9 E-9 9.3 E-10 Cesium Cs-3.9 h 125 0.750 1.000 E-10 1.1 2.2 1.000 E-10 E-10 4.4 3.5-6.5 E 11 E-11 E-11 Cs-6.25 127 h 1.000 1.000 1.2 1.8 E-10 E-10 E-11 4.2 E 6.6-11 2.9 E-11 E-11 Cs-129 1.34 2.4 d 1.000 E-10 1.000 3.0 E-10 4.4 1.7 E-10 7.2 1.1 E-10 E-11
6.0 E-11 Cs-130 h 1.000 3.3 0.498 E-10 1.000 1.8 5.2 E E-E-10 9.0 11-11 3.6 2.8 E-11 E-11 Cs-131 9.69 d 1.000 E-10 1.000 2.9 4.6 E-10 6.9 1.0 1.6 E-10 E-10 E-11 E 5.8-11 Cs-132 6.48 d 1.000 E-9 2.7 1.1 1.8 1.000 E-9 E-9 5.7 7.7 E-10 E-10 5.0 E-10 Cs-134 2.06 a 1.000 1.000 2.6 E-8 1.3 1.4 1.6 E-8 E-8 E-8 1.9 1.9 E-8 E-8 Cs-134 m 2.90 h 2.1 1.2 1.000 1.000 E-10 E-10 5.9 E-11 3.5 2.5 2.0 E E-E-11 11-11 Cs-135 2.30 E + 6 a 4.1 2.3 1.000 1.000 E-9 E-9 1.7 E-9 1.7 2.0 2.0 E-E-9 9 E-9 Cs-135 0.883 h 1.3 E-10 1.000 1.000 8.6 E-11 4.9 E-11 3.2 2.3 1.9 E E-E-11 11-11 Cs-13.1 136 d 1.5 1.000 E-8 9.5 1.000 E-9 6.1 3.4 4.4 E-9 E-9 E-9 3.0 E-9 Cs-137 30.0 a 2.1 1.000 E-8 1.2 1.000 E-8 9.6 E-9 1.3 1.0 E-8 E-8 1.3 E-8 Cs-138 0.536 h
1.000 1.000 E-1.1 9 2.9 5.9 E-10 E-10 9.2 1.7 1.2 E-10 E-10 E-11 Barium 6 Ba-1.61 126 h 2.7 E-9 0.200 0.600 1.7 E-9 5.0 8.5 E-10 E-10 2.6 3.1 E-10 E-10 Ba-2.43 128 d 1.7 2.0 E-8 0.600 0.200 E-8 E-9.0 3.0 E-5.2 E-9 9 9 9 E-Ba-131 11.8 2.7 d 0.600 4.2 E-9 1.4 0.200 2.6 E-9 E-9 9.4 E-10 4.5 6.2 E-10 E-10 Ba-131 m 0.243 h 0.600 5.8 3.2 E-11 E-11 0.200 1.6 E-11 9.3 E-12
4.9 6.3 E-12 E-12 Ba-133 10.7 a 2.2 0.600 0.200 6.2 E E-8-9-9-9 7.3 3.9 E 4.6 E E-9 1.5 E-9 Ba-133 m 1.62 0.600 4.2 3.6 E 0.200 E-9 d-9 1.1 1.8 E-9 E-9 5.9 5.4 E-10 E-10 Ba-135 d 1.20 0.600 3.3 0.200 2.9 E-9 E-9 8.5 E 1.5 E-9-10 4.7 4.3 E-10 E-10 Ba-1.38 139 h 1.4 0.600 0.200 8.4 E-9 E-10 4.1 1.5 E 2.4 E-E-10 10-10 1.2 E-10 Ba-140 12.7 d 0.600 0.200 1.8 3.2 E-8 E-8 9.2 E-9 3.7 5.8 E-9 E-9 E-9 Ba-141 0.305 2.6 h 4.7 0.200 0.600 7.6 E-10 E-10 2.3 1.3 E-10 E-10 8.6 E-11 E-11 Ba-142 0.177 7.0 h 3.6 E-10 0.200 0.600 2.2 1.1 10 E-E-E-E-11 10 6.6 4.3 3.5 E 11-11 Lanthanum La-0.005 3.5 5.0 E-10 131 0.983 h E-4 E-2.1 1.1 10 E-10 4.4 3.5 E 6.6-11 E-11 E-11 La-132 4.80 h 3.8 5.0 E-4 E-9 0.005 2.4 E-9 1.3 E-9 4.8 7.8 E-10 E-10 3.9 E-10
La-19.5 135 h 2.8 5.0 E-4 E-10 0.005 1.9 1.0 E-10 E-10 6.4 E-11 E-11 3.0 3.9 E-11 La-6.00 137 E-4 to E-9 0.005 1.1 5.0 4.5 E-4 E-10 1.0 2.5 E-10 1.6 E-10 E-10 E 8.1-11 La-138 1.35 E + 11 a 0.005 1.3 E-8 5.0 E-4 4.6 E-8 2.7 E-9 1.9 E-9 1.3 1.1 E-9 E-9 La-140 1.68 0.005 2.0 5.0 E-E-8 d 4 E-9 1.3 E-9 6.8 2.5 2.0 4.2 E-E-E-9 9 9 La-0.005 141 3.93 h 4.3 E-9 5.0 E-4 E-9 1.3 E-9 7.6 2.6 E-10 E-10 3.6 E-10 La 4.5-5.0 h 142 1.54 0.005 1.9 E-9 E-4 E-1.1 9 5.8 3.5 E-10 E-10 2.3 E-10 1.8 E-10 La-0.005 6.9 0.237 143 h E-10 5.0 3.9 E-4 E-10 1.1 1.9 E-10 E-10 E-11 5.6 E 7.1-11 Cerium Ce-134 0.005 2.8 E-8 3.00 d 5.0 E-4 9.1 1.8 E-8 E 9 5.5-E-9 2.5 3.2 E-9 E-9 Ce-135 h 17.6 0.005 7.0 E-9 5.0 4.7 E-4 E-9 2.6 E-9
1.0 E E-9 1.6-9 E-10 Ce 7.9-9.00 h 0.005 2.6 137 E-10 5.0 E-4 1.7 E-10 8.8 E-11 5.4 2.5 3.2 E E-11-11 E-11 Ce-1.43 137 m d E-4 E-9 0.005 6.1 5.0 3.9 E-9 1.2 2.0 E-9 E-9 E 6.8-10 5.4 E-10 Ce-139 138 d 5.0 0.005 2.6 E-9 E-4 E-9 1.6 8.6 5.4 E-E-E-10 10 10 3.3 2.6 E-10 Ce-141 32.5 d 5.0 E-4 E-9 0.005 5.1 8.1 E-9 E 2.6-8.8 1.5 E-9 E 9-10 E 7.1-10 Ce-1.38 143 d 5.0 1.2 0.005 E-8 E-4 E-9 4.1 8.0 E-9 2.4 E-9 1.4 1.1 E-9 E-9 Ce-144 284 d 0.005 5.0 3.9 6.6 E-8 E-4 E-8 1.1 1.9 E-8 E-8 E-9 6.5 5.2 E-9 Praseodymium Pr-136 0.005 3.7 0.218 h E-10 5.0 2.1 E-4 E-10 1.0 E-10 E-3.3 6.1 4.2 E 11-11 E-11 Pr-1.28 137 h 0.005 4.1 2.5 5.0 E-10 E-4 E-10 1.3 E-10 5.0 4.0 7.7 E-11 E-11 E-11 Pr-138m 1.0 E 5.0 E 9 0.005-2.10 h-4 7.4 E-10 4.1 2.6 E-10 E-10 1.3 1.6 E-10 E-10 Pr-139 0.005 3.2 4.51 h E-10 E-4 2.0 5.0 E-E-E-11 10 10 1.1 6.5 4.0 E-11 E-11 Pr-142 19.1 3.1 0.005 1.5 h E-8 9.8 5.0 E-4 E-9 4.9 E-9 1.6 2.9 E-9 E-9 1.3 E-9 Pr-0.243 h 142m 0.005 2.0 5.0 E-4 E-10 10 6.2 1.2 E-E-E-E-11 11 11 3.7 1.7 2.1 E-11 Pr-143 13.6 0.005 1.4 d E-8 5.0 E-4 E-9 2.6 4.3 8.7 E-9 E-9 1.2 1.5 E-9 E-9 Pr-144 0.288 h 6.4 0.005 3.5 5.0 E-10 E-4 E-10 1.7 E-10 E 9.5-11 E 6.5-11 E-11 Pr-145 5.98 5.0 h 5.0 4.7 0.005 E-9 E-4 E-9 1.4 2.9 E-9 8.5 E-10 3.9 4.9 E-10 E-10 Pr-147 0.227 h 5.0 3.9 0.005 E-10 E-4 6.1 1.1 2.2 E-10 E-10 E-11 4.2 E-11 E-11 Neodymium Nd 3.3-1.0 5.0 E-9 0.005 0.844 136 h E-E-E-10 10 4 6.1 3.1 1.2 1.9 E-10 E-10 9.9 E-11 Nd-138 5.04 0.005 7.2 h E-9
4.5 5.0 E-4 E-9 2.3 E-9 1.3 E-9 6.4 8.0 E-10 E-10 Nd-0.005 2.1 139 0.495 h E-10 5.0 1.2 E-4 E-10 E-11 3.7 E 6.3-11 2.5 2.0 E-11 E-11 Nd-0.005 2.1 139m 5.50 (h) E-9 1.4 5.0 E-4 E-7.8 E 9-10 2.5 3.1 5.0 E-10 E-10 E-10 Nd-2.49 141 h 7.8 0.005 E-11 5.0 5.0 E-4 E-11 2.7 1.6 E E-11-11-11 8.3 1.0 E E-12 Nd-11.0 147 d 0.005 1.2 E-8 E-4 7.8 5.0 3.9 E-9 E-9 2.3 E-9
1.1 1.3 E-9 E-9 Nd-1.73 149 h 5.0 E-4 E-9 1.4 0.005 8.7 E-10 2.6 4.3 E-10 E-10 1.2 1.6 E-10 E-10 Nd-0.207 151 h 0.005 3.4 2.0 5.0 E-10 E-4 E-10 9.7 E-11 E-5.7 3.0 E-E-11 11 11 3.8 Promethium Pm-141 0.348 0.005 4.2 E-10 h 5.0 E-4 1.2-2.4 E 10 E-10 E-11 4.6 E 6.8-11 3.6 E-11 Pm-143 265 d 1.9 0.005 5.0 E-4 E-9 1.2-6.7-9 E 10 4.4 E E-E-E-10 10 2.9 2.3 10 Pm-144 363 d
E-4 E-9 0.005 7.6 5.0 4.7 E-9 2.7 E-9 1.2 1.8 E-9 E-9 9.7 E-10 Pm-1.5 E-9 145 17.7 a 0.005 5.0 E-4 E 6.8-10 3.7 E-10 1.4 1.1 2.3 E-E-E-10 10 10 Pm-1.0 E 5.0 146 5.53 a 0.005-8 E-4 5.1 2.8 E-E-9 9 9 1.1 1.8 E-E-9 9.0 E-10 Pm-147 2.62 a 3.6 5.0 E-4 E-9 0.005 1.9 E-9 5.7 9.6 E-10 E-10 2.6 3.2 E-10 E-10 Pm-0.005 3.0 E-8 148 5.37 d 5.0 E-4 E-8 9.7 1.9 E-E-E-9 9 9 5.8 2.7 E 3.3-9 Pm-148 m 5.0 1.5 0.005 41.3 d E-8 E-4 5.5 1.0 E-8 E 9 3.5-E-E-E-9 9 2.2 1.7 9 Pm-2.21 149 d 5.0 1.2 0.005 E-8 E-4 E 7.4-9 1.2 2.2 3.7 E-9 E-9 E-9 9.9 E-10 Pm-2.68 150 h 2.8 E-9 0.005 5.0 E-4 E 1.7-5.2 E 8.7 E-10 9-10 2.6 3.2 E-10 E-10 Pm-1.18 151 d 5.0 E-4 E-9 0.005 8.0 5.1 E 2.6 E-9 1.6-9 E-9 7.3 9.1 E-10 E-10 Samarium
 
 
 
 
 
 
 
 
 
SM-141 0.170 h 5.0 4.5 0.005 E-10 E-4 1.3 2.5 E-10 E-10 5.0 3.9 7.3 E-11 E-11 E-11 Sm-141 m 0.377 h 0.005 7.0 E-10 5.0 4.0 E-4 E-10 1.2 2.0 E-10 E-10 E 8.2-11 E-11 Sm-142 1.21 6.5 h 5.0 E-4 E-9 0.005 2.2 1.3 E-9 3.6 6.2 E-10 E-10 1.9 2.4 E-10 E-10 Sm-0.005 2.4 E-9 145 340 d 5.0 E-4 E-9 1.4 4.5 7.3 E-10 E-10 2.1 2.7 E-10 E-10 Sm-146 1.03 E + 8 a 0.005 1.5 E-6
1.0 E 5.0 E-4 1.5-7 E-7 E-8 5.8 5.4 7.0 E-8 E-8 Sm-147 1.06 E + 11 a 0.005 5.0 E-4 1.4 1.4 E-6 E-7 6.4 9.2 E-8 E-8 4.9 5.2 E-8 E-8 Sm-151 90.0 5.0 1.5 a 0.005 E-9 E-4 2.0 3.3 6.4 E-10 E-10 E-10 1.2 E-10 9.8 E-11 Sm-153 0.005 8.4 1.95 d 5.0 E-4 5.4 9 E-E-E-E-9 9 9 2.7 1.6 7.4 9.2 E-10 E-10 Sm-155 0.368 0.005 3.6 5.0 E-E-10 h 4 2.0 E-9.7 E 10-11
E-11 3.7 E 5.5-11 9.40 2.9 E-11 Sm-156 h 2.8 E-9 0.005 5.0 9.0 1.8 E-4 E-9 E-10 5.4 2.5 3.1 E-10 E-10 E-10 Europium Eu 5.94 145 d 5.0 E-4 E-9 0.005 5.1 3.7 E-9 1.4 2.1 E-9 E-9.4 E-10 9 7.5 E-10 Eu-4.61 146 d 5.0 8.5 E 0.005-9 E-4 3.6 6.2 E-9 E-9 1.6 2.4 E-9 E-9 1.3 E-9 Eu 147 0.005 3.7 24.0 d E-9 1.4 2.5 5.0 E-4 E-9 E-9 5.6 8.9 E-10 E-10 4.4 E-10 Eu-148
54.5 d 5.0 8.5 E-9 0.005 6.0 E-4 E-9 2.4 3.5 E-9 E-9 1.6 E-9 1.3 E-9 Eu 93.1 149 d 5.0 0.005 9.7 E-10 E-4 E 6.3-10 2.1 3.4 E-10 E-10 1.3 1.0 E-10 Eu-E-10 150 34.2 a 0.005 1.3 E-8 5.0 E-4 E-5.7 9 2.3 3.4 E-9 E-9 1.3 1.5 E-9 E-9 Eu-12.6 150 h 5.0 E-4 E-9 0.005 4.4 2.8 E 8.2 1.4-9 E-9 E-10 4.7 E-10 E-10 Eu-152 13.3 3.8 a 0.005 1.6 5.0 E-4 E-8 7.4 E-9 4.1 2.6 E E-9-9-9 1.4 1.7 E E-9 Eu-9.32 h 152m 0.005 5.7 3.6 5.0 E-9 E-4 E-9 6.2 1.1 1.8 E-9 E-9 E-10 E-10 Eu-154 8.80 5.0 a 5.0 0.005 2.5 E-8 E-4 1.2 E-8 E-9 6.5 4.1 2.5 2.0 E E-E-9 9-9 Eu-155 4.96 a 5.0 E-0.005 4.3 E-9 4 2.2 1.1 E-9 E-9 E 6.8-10 E-3.2 4.0 E-10 10 Eu 15.2 156 d 5.0 E-8 E-0.005 2.2 4 7.5 8 1.5 E-E-E-E-9 9 9 4.6 2.7 2.2 E-9 Eu 15.1 157 h 5.0 E-0.005 6.7 E-9 4 2.2 1.3 E-9 9 4.3 E-E-E-10 9 7.5 6.0 E-10 Eu-0.765 158 h 1.1 5.0 E E-9 0.005-3.1-4 6.2 E 10 E-10 1.2 1.8 E-10 E-9.4 E 10-11 Gadolinium Gd-145 0.382 h 4.5 5.0 E-4 E-10 0.005 2.6 1.3 E-10 E-10 8.1 4.4 E E E-11 5.6-11-11 Gd-48.3 146 d 9.4 E-9 0.005 5.0 6.0 E-4 E-9 3.2 E-9 1.2 2.0 E-9 E-9 9.6 E-10 Gd-1.59 147 d 4.5 0.005 E-9
3.2-5.0 E 4 E-9 1.2 1.8 E-9 E-9 6.1 7.7 E-10 E-10 Gd-E-6 148 93.0 a 0.005 1.7 1.6 E-7 1.1 5.0 E-4 E-7 E-5.6 7.3 5.9 8 E-8 E-8 Gd-5.0 4.0 E-9 0.005 9.40 149 d E-4 1.5 2.7 E-9 E-9 E-5.7 4.5 9.3 E-10 10 E-10 Gd-151 120 d 5.0 2.1 0.005 E-9 E-4 1.3 E-9 E 6.8-10 4.2 E-10 2.0 2.4 E-10 E-10 Gd-1.08 152 E + 14 a 0.005 5.0 E-4 1.2 1.2 E-6 E-7 7.7 E-8
4.1 5.3 E-8 4.3 E-8 E-8 Gd-153 242 d 5.0 E-4 E-9 0.005 2.9 1.8 E-9 9.4 E-10 5.8 2.7 3.4 E-10 E-10 E-10 Gd-18.6 159 h 0.005 5.7 3.6 5.0 E-9 E-4 E-9 6.2 1.1 1.8 E-9 E-9 E-10 4.9 E-10 Terbium Tb-0.005 1.5 h 1.65 147 E-9 1.0 5.0 E-4 E-9 5.4 2.0 3.3 E-10 E-10 E-10 1.6 E-10 Tb-4.15 149 h 2.4 E-9 0.005 5.0 1.5 8.0 E-9 E-4 E-10 2.5 3.1 5.0 E-10 E-10 E-10 Tb-150
3.27 h 2.5 5.0 E-4 E-9 0.005 1.6 E-9 5.1 8.3 E-10 E-10 2.5 3.2 E-10 E-10 Tb-17.6 151 h 2.7 E-9 0.005 1.9 1.0 5.0 E-4 E-9 E-9 E-6.7 10 3.4 4.2 E-10 E-10 Tb-153 2.34 d 5.0 E-4 E-9 0.005 2.3 1.5 E 8.2-9 E-10

2.5 3.1 5.1 E-10 E-10 E-10 Tb-21.4 154 h 5.0 4.7 0.005 E-9 E-4 3.4 E-9 1.3-1.9 E-9 E 9 6.5 E 8.1-10 E-10 Tb-0.005 1.9 155 5.32 d 5.0 E-4 E-9 1.3 E-9 E 6.8-10 2.1 2.6 4.3 E-10 E-10 E-10 Tb-156 5.34 d 5.0 9.0 0.005 E-9 E-4 3.5 E 6.3 E-9-9-9-9 1.2 2.3 1.5 E E E-9 Tb-156m 1.02 d 0.005 1.5 1.0 5.0 E-4 E-9 E 9 3.5-5.6 E-10 E-10 E 2.2-1.7 10 E-10 Tb-156m 5.00 h 0.005 8.0 E-10 5.0 E-4 5.2 E-10 1.0 1.7 2.7 E-10 E-10 E-10 E 8.1-11 Tb-157 150 0.005 4.9 5.0 a E-10 E-4 E-10 1.1 2.2 6.8 10 E-E-E-E-11 11 4.1 3.4 11 Tb-158 150 a 0.005 1.3 E-8 5.0 E-4 5.9 2.1 3.3 E-9 E-9 E-9 1.4 1.1 E-9 E-9 Tb-0.005 1.6 160 72.3 d E-8 5.0 E-4 E-8 5.4 1.0 E-9 1.6 2.0 3.3 E-9 E-9 E-9 Tb-0.005 6.91 161 d 5.0 5.3 8.3 E-9 E-4 E-9
2.7 E-9 1.6 E-9 9.0 E-10 7.2 E-10 Dysprosium Dy-5.0 10.0 155 h 0.005 9.7 E-10 E-4 E 6.8-10 3.8 E-10 2.5 1.3 1.6 E-10 E-10 E-10 Dy-8.10 157 h 5.0 E-4 E-10 0.005 4.4 3.1 1.2 1.8 E-10 10 E-E-E-E-11 11 10 7.7 6.1 Dy-0.005 1.0 E 5.0 159 144 d-9 E-4 E-6.4 3.4 2.1 E E-10 10-10 1.3 E-10 1.0 E-10 Dy-2.33 165 h 1.3 E-9 0.005 5.0 3.9 7.9 E-4 E-10 E-10 1.4 1.1 2.3 E-10 E-10 E-10 Dy-3.40 166 d 1.9 0.005 5.0 E-4 E-8 1.2 3.6 E 6.0 E-E-8 9-9 1.6 2.0 E-9 E-9 Holmium Ho-155 0.800 0.005 3.8 5.0 E-E-10 h 4 1.2 2.3 10 E-E-E-E-11 4.7 7.1 10 11 3.7 E-11 157 0.210 h 5.8 E Ho-0.005-3.6 5.0 E-4 E 11-11 1.9 E-11 E-11 8.1 1.2 E-12 12 6.5 E-Ho-0.005 7.1 E-11 159 0.550 h 5.0 E-4 E-11 2.3 E-11 1.4 4.3 E-11 9.9 E-12 7.9 E-12 Ho-2.50 161 h 1.4 0.005 E-10
8.1 5.0 E-4 E-11 4.2 E-11 2.5 1.3 1.6 E E-11-11 E-11 Ho-5.0 3.5 E 0.250 162 h 0.005-11 E-4 2.0 1.0 E-11 E-11 6.0 E-12 3.3 4.2 E-12 E-12 Ho-1.13 h 0.005 2.4 E-10 162 m 5.0 1.5 E-4 E-10 7.9 E-11 4.9 E-11 3.3 E-11 0.483 164 h E 2.6-11 Ho-5.0 1.2 0.005 E-10 E-4 E 6.5-11 E-11 1.8 3.2 E-11 1.2 E-11 9.5 E-12 Ho-0.005 2.0 E-10 164 0.625 h 5.0 E-4 5.5 1.1 E-10 E-11 3.2 E-11
1.6 2.1 E-11 E-11 Ho-166 1.12 0.005 1.6 d 5.0 E-4 E-8 1.0 E-8 5.2 E-9 1.4-1.7 3.1 E-9 E 9 E-9 Ho-166m 1.20 E + 3 a 0.005 2.6 E-8 5.0 E-4 E 9.3-9 5.3 E-9 2.0 2.4 3.5 E-9 E-9 E 9 0.005 Ho-167 3.10 h 8.8-E-10 5.0 5.5 E-4 E-10 1.0 1.7 2.8 E-10 E-10 E-10 8.3 E-11 Erbium Er-3.24 161 h 6.5 0.005 E-10 5.0 E-4 2.4 E-10 1.6 4.4 E-10 E-10 1.0 E-10 8.0 E-11 Er-165
10.4 0.005 1.7 h E-10 5.0 E-4 E-10 6.2 1.1 E-11 3.9 E-11 E-2.4 1.9 E 11-11 There-9.30 169 d 5.0 E-4 E-9 0.005 4.4 2.8 E 8.2 1.4-9 E-9 E-10 3.7 4.7 E-10 E-10 There-7.52 171 h 5.0 4.0 E 0.005-9 E-4 E-9 1.3 2.5 E-9 4.5 7.6 E-10 E-10 172 2.05 d 3.6 E-10 There-0.005 1.0 5.0 E-8 E-4 E 6.8-9 1.3-2.1 3.5 E-9 E 9 E-9 1.0 E-9 Thulium Tm-0.362 162 h 2.9 0.005 E-10 5.0 E-4
8.7 1.7 E-10 E-11 5.2 E-11 3.6 2.9 E-11 Tm E-11-166 7.70 h 5.0 E-4 E-9 0.005 2.1 1.5 E-9 8.3 3.5 E 5.5 E E-10-10-10 2.8 E-10 Tm-9.24 167 d 6.0 E-9 0.005 5.0 3.9 E-4 E-9 E-9 1.2 2.0 7.0 E-9 E-10 E-10 Tm-170 129 d 0.005 5.6 1.6 9.8 5.0 E-8 E-4 E-9 4.9 E-9 1.6 2.9 E-9 E-9 1.3 E-9 Tm-171 a 0.005 1.5 1.92 E-9 5.0 3.9 7.8 E-4 E-10 E-10 2.3 1.3 E-10 E-10
E-10 Tm 1.1-1.9 0.005 172 2.65 d 5.0 E-4 E-8 1.2 E-8 3.7 6.1 E-9 E-9 1.7 2.1 E-9 E-9 Tm-173 8.24 0.005 3.3 h E-9 E-4 2.1 1.1 5.0 E-9 E-9 6.5 E-10 3.8 3.1 E-10 E-10 Tm 175 0.253 h 0.005-3.1 E-10 5.0 E-4 8.6 1.7 E-10 E-11 5.0 E-11 3.4 2.7 E-11 E-11 Ytterbium Yb-0.315 162 h 0.005 2.2 1.3 E-10 5.0 E-4 E-10 6.9 E-11 E-2.3 4.2 2.9 E 11-11 E-11 Yb-166 2.36 d 0.005 7.7 E-9 5.0 E-4 E-1.9 5.4 9 2.9 E-9 E-9 1.2 E-9 9.5 E-10 Yb-0.005 7.0 E-11 167 0.292 h 5.0 E-4 E 4.1-11 2.1 1.2 E-11 E-11 6.7 8.4 E-12 E-12 Yb-169 0.005 7.1 32.0 d 5.0 E-9 E-4 4.6 E-9 2.4 E-9 1.5 E-9 8.8 E 7.1-10 E-10 Yb-175 4.19 d 5.0 5.0 E-4 E-9 0.005 3.2 E-9 1.6 E-9 9.5 E-10 4.4 5.4 E-10 E-10 Yb-177 1.0 E 5.0 E 9 0.005-1.90 h-4 E 6.8-10 3.4 2.0 E-10 E-E-E-10 8.8 1.1 10 11 Yb-1.23 178 h 5.0 E-4 E-9 1.4 0.005 8.4 E-10 4.2 E-10 2.4 E-10 1.2 1.5 E-10 E-10 Lutetium Lu-1.42 169 d 3.5 5.0 E-4 E-9 0.005 2.4 E-9 1.4 E-9 5.7 8.9 E-10 E-10 4.6 E-10 Lu-2.00 170 d 5.0 E-4 E-9 0.005 7.4 5.2 E-9 2.9 E-9 1.9 E-9 1.2 E-9 9.9 E-10 Lu-0.005 171 8.22 d 5.0 4.0 5.9 E-E-E-9 9 4 2.2 E-9 1.4 E-9 8.5 E-10 6.7 E-10 Lu-172 6.70 d 5.0 E-4 E-8 0.005 1.0 7.0 E-9 3.9 E-9 1.6 2.5 E-9 E-9 1.3 E-9 Lu-173 1.37 a 0.005 2.7 E-9 1.6 5.0 E-4 E-9 5.3 8.6 E-10 E-10 2.6 3.2 E-10 E-10 Lu-174 3.31 a 3.2 5.0 E-4 E-9 0.005 1.7 E-9 3.3 5.6 9.1 E-10 E-10 E-10 2.7 E-10 Lu-174 0.005 6.2 E-9 142 d 5.0 E-4 1.9 3.8 E-9 E-9 E-1.1 9 5.3 6.6 E-10 E-10 Lu-176 3.60 E + 10 a 0.005 2.4 E-8 5.0 E-4
1.1 E-8 E-5.7 9 1.8 2.2 3.5 E-9 E-9 E-9 Lu-cash consideration of 176 m 3.68 h 2.0 5.0 E-4 E-9 0.005 1.2 E-9 6.0 E-10 1.7 2.1 3.5 E-10 E-10 E-10 Lu-177 0.005 6.71 d 5.0 3.9 6.1 E-9 E-4 E-9 1.2 2.0 E-9 E-9 5.3 6.6 E-10 E-10 Lu-177 m 1.7 E 161 d 0.005-8 1.1 5.0 E-4 E-8 3.6 5.8 E-9 E-9 1.7 2.1 E-9 E-9 Lu-178 0.005 5.9 0.473 h E-10 5.0 E-4 E-10 1.6 3.3 E-10 9.0 E-11 6.1 E-11
4.7 E-11 Lu-178 m 0.378 h 4.3 0.005 E-10 E-5.0 1.2 4 2.4 E-10 E-10 7.1 E-11 4.9 E-11 E-11 Lu 3.8-5.0 4.59 179 h 0.005 2.4 E-9 E-4 1.5 E-9 7.5 E-10 4.4 E-10 2.1 2.6 E-10 E-10 Hafnium Hf-16.0 170 h 0.020 3.9 2.7 E-9 E-9 0.002 1.5 E-9 4.8 9.5 E-10 6.0 E-10 E-10 Hf-1.87 a 0.020 1.9 172 E-8 0.002 3.3 6.1 E-9 E-9 1.3 1.0 2.0 E-E-E-9 9 9 Hf-E-9 173 24.0 h 0.020 1.9 0.002
7.2 1.3 E-9 E-10 2.8 E-10 2.3 4.6 E-10 E-10 Hf-E-9 175 70.0 d 0.020 3.8 1.3 0.002 2.4 E-9 E-9 5.2 8.4 E-10 E-10 4.1 E-10 Hf-177 m 0.856 h 7.8 E-10 0.002 4.7 0.020 E-10 1.0 1.5 2.5 E-10 E-10 E-10 E 8.1-11 Hf-178 m 31.0 a 0.020 7.0 E-8 1.1 0.002 1.9 E-8 E-8 7.8 E 9 5.5 E-4.7-9 E-9 Hf-25.1 d 0.020 1.2 179m E-8 0.002 7.8 E 9-4.1 2.6 E E-9-9-9 1.2 1.6 E E-9 Hf-180 5.50 h 1.4 0.020 E-9 5.3 0.002 9.7 E-10 E-10 1.7 2.1 3.3 E-10 E-10 E-10 Hf-42.4 181 d 0.020 1.2 E-8 0.002 7.4 E-9 3.8 E-9 1.4 1.1 2.3 E-9 E-9 E-9 Hf-182 9.00 E + 6 a 0.020 5.6 E-8 0.002 7.9 5.4 4.0 E-E-E-9 9 9 9 3.0 3.3 E-E-9 Hf-182 m 1.02 h 0.020 4.1 2.5 E-10 E-10 0.002 1.3 E-10 E 7.8-11 E-11 4.2 5.2 E-11 Hf-183 1.07 0.020 8.1 E-10 0.002 4.8 h E-10 2.4 E-10 1.4 E-10 9.3 E-11 E-11 Hf-184 4.12 7.3 h 3.6 E 5.5 0.020 E-9 0.002-9 1.1 1.8 E-9 E-9 6.6 E-10 5.2 E-10 Tantalum Ta-0.613 172 h 5.5 E-10 0.001 3.2 0.010 E-E-E-10 10 1.6 9.8 5.3 6.6 E 11-11 E-11 Ta-0.010 3.65 h 2.0 E-9 173 0.001 1.3 E-9 6.5 E-E-E-10 10 10 3.9 2.4 1.9 E-10 Ta-1.20 h 0.010 6.2 E-10 174 0.001 3.7 E-10 1.9 E-10 7.2 5.7 1.1 E-10 E-11 E-11 Ta-175 10.5 h 1.6 0.010 E-9
0.001 6.2 1.1 E-9 E-10 2.1 2.6 E 4.0 E-10-10 E-10 Ta-176 0.010 2.4 1.7 0.001 8.08 h E-9 E-9 6.1 9.2 E-10 E-10 3.9 3.1 E-10 E-10 Ta-2.36 177 d 0.010 1.0 E-9 0.001 6.9 E-10 3.6 E-10 2.2 1.1 1.3 E-10 E-10 E-10 Ta-0.010 6.3 E-10 178 2.20 h 4.5 0.001 E-10 2.4 E-10 1.5 E-10 9.1 E-11 7.2 E-11 Ta-1.82 a 0.010 6.2 E 179-10 0.001 4.1 E-10 2.2 1.3 E-10 E-10 E 8.1-11 E 6.5-11 Ta-180
1.00 E + 13 a 0.010 8.1 E-9 0.001 5.3 2.8 E-9 E-9 1.7 E-9 E-1.1 9 8.4 E-10 Ta-180 m 0.001 3.7 5.8 0.010 8.10 h E-10 E-10 1.1 1.9 E-10 E-10 E-11 5.4 6.7 E-11 Ta-182 115 d E-E-8 0.010 1.4 0.001 9.4 9 5.0 E-E-E-9 9 9 3.1 1.9 1.5 E-9 Ta-182 m 0.264 h 1.4 0.010 0.001 7.5 E-10 E-E-E-11 11 11 3.7 2.1 1.2 1.5 E-11 E-11 Ta-183 0.010 1.4 5.10 d E-8 0.001 9.3 E-9 4.7 E-9
1.3 1.6 2.8 E-9 E-9 E-9 Ta-E-9 184 8.70 h 0.010 6.7 0.001 4.4 E-9 1.4 2.3 E-9 E-9 8.5 E-10 E 6.8-10 Ta-0.816 185 h 0.010 8.3 4.6 E-10 E-10 0.001 2.3 1.3 E-10 8.6 E E-10-11 E 6.8-11 Ta-0.010 3.8 186 0.175 h E-10 0.001 2.1 1.1 10 E-E-E-E-11 10 11 3.3 6.1 4.2 E-11 Tungsten W-2.30 h 0.600 6.8 E-10 176 0.300 5.5 E-10 2.0 3.0 E-10 E-10 1.3 E-10 1.0 E-10 W-177 h 0.600 4.4 2.25 E-10 1.7 0.300 3.2 E-10 E-10 7.2 1.1 E-10 E-11 E 5.8-11 W-178 0.600 1.8 E-9 1.4 0.300 21.7 d E-E-E-10 4.5 7.3 9 10 2.2 2.7 E-10 E-10 W-179 0.625 0.600 3.4 E-11 h 2.0 1.0 E-11 E-11 0.300 6.2 E-12 3.3 4.2 E-12 E-12 W-181 121 d 6.3 0.600 E-10 2.5 0.300 4.7 E-10 E-10 1.6 E-10 E-11 7.6 9.5 E-11 W-185 d 0.600 75.1 4.4 E-9 1.6 0.300 3.3 E-9 E-9 5.5 9.7 E-10 E-10 4.4 E-10
W-E-9 187 23.9 h 0.600 5.5 4.3 0.300 E-9 1.3 2.2 E-9 E-9 7.8 E-10 E-10 W-188 69.4 d 6.3 0.600 2.1 1.5 0.300 E-8 E-8 4.6 7.7 E-9 E-9 2.1 2.6 E-9 E-9 Rhenium Re-0.233 177 h 1.4 2.5 E-10 0.800 1.000 E-10 7.2 4.1 2.8 E E-E-11 11-11 E-11 Re-178 0.220 2.2 h 2.9 E-10 0.800 1.6 1.000 E-10 E-11 4.6 7.9 E-11 2.5 3.1 E-11 E-11 Re-20.0 181 h 1.000 4.2 E-9 1.4 0.800 2.8 E-9 E-9
4.2 5.4 8.2 E-10 E-10 E-10 Re-2.67 182 d 1.000 E-8 0.800 8.9 E-9 1.4 4.7 E-9 2.8 E-9 1.4 1.8 E-9 E-9 Re-12.7 182 h 2.4 1.7 0.800 1.000 E-9 E-9 E-8.9 10 5.2 E-10 2.7 3.5 E-10 E-10 Re-38.0 184 d 1.000 E-9 0.800 5.6 8.9 E-9 3.0 E-9 1.3 1.0 1.8 E-E-E-9 9 9 Re-184 m 1.7 9.8 0.800 165 d 1.000 E-8 E-9 4.9 2.8 E-9 E-9 1.9 E-9 E-9 Re 1.5-1.9 3.78 186 d 1.000 E-8
5.5 0.800 1.1 E-8 E-9 1.9 3.0 E-9 E-9 1.5 E-9 Re-186 m 2.00 E + 5 a 1.000 0.800 1.6 3.0 E-8 E-8 7.6 E-9 4.4 2.8 E-9 E-9 2.2 E-9 Re-5.00 187 E + 10 a 6.8 1.000 E-E-E-11 11 0.800 3.8 1.8 1.0 E 11-11 5.1 6.6 E-12 E-12 Re-17.0 188 h 1.7 1.000 E-8 5.4 0.800 1.1 E-8 E-9 E-9 1.4 2.9 1.8 E-9 E-9 Re-188 m 0.800 2.3 3.8 0.310 h 1.000 E-10 E-10 6.1 1.1 E-10 E-11 4.0 E-11 3.0 E-11 Re-1.01 d 1.000 E-9 189 9.8 0.800 6.2 E-9 E-9 1.6 3.0 1.0 E 7.8 E 9-E-9-10-180 0.366 h 1.6 0.020 Osmium Os E-E-E-11 10 0.01 9.8 5.1 3.2 2.2 E E-11 11-11 1.7 E-11 Os-1.75 h 0.020 7.6 E-10 181 0.01 5.0 E-10 2.7 1.1 1.7 E-10 E-10 E-10 E-11 Os 8.9-22.0 182 h 0.01 3.2 4.6 0.020 E-9 E-9 1.7 E-9 E-1.1 9 7.0 E-10 5.6 E-10 Os-94.0 185 d 0.020 0.01 2.6 3.8 E-9 E-9 6.5 9.8 1.5 E-9 E-10 E-10 5.1 E-10 Os-189 m 6.00 h 2.1 0.020 0.01 1.3 E-10 E-E-E-11 11 10 6.5 2.2 3.8 E-11 1.8 E-11 Os-191 d 0.020 6.3 15.4 E-9 2.1 0.01 4.1 E-9 E-9 1.2 E-9 5.7 7.0 E-10 E-10 Os-13.0 191m h 1.1 0.01 7.1 0.020 E-9 E-10 2.1 3.5 E-10 E-10 1.2 E-10 E-11 Os 9.6-1.25 d 0.020 9.3 E-193 9 3.0 6.0 E 0.01-9 E-9 1.0 1.8 E-9 E-9 E-10 Os-194 6.00 8.1 (a)
0.020 2.9 1.7 E-8 E-8 0.01 8.8 E-9 5.2 E-9 3.0 E-9 2.4 E-9 Iridium Ir 0.250 h 0.020 5.3 182 E-10 1.5 3.0 E 0.01-10 E-10 8.9 E-11 E-11 4.8 6.0 E-11 Ir-184 3.02 0.020 1.5 h E 0.01 9.7-9 E-10 5.2 E-10 1.7 2.1 3.3 E-10 E-10 E-10 Ir-14.0 185 h 0.020 2.4 E-9 1.6 E 0.01 8.6-9 E-10 E-2.6 5.3 3.3 E-10 10 E-10 Ir-15.8 186 h 3.8 0.020 E-9 1.5 2.7 E 0.01-9 E-9 6.1 9.6 E-10 E-10 4.9 E-10 Ir-1.75 186 h 3.6 5.8 0.020 E-10 0.01 E-10 2.1 E-10 1.3 E-10 7.7 E-11 6.1 E-11 Ir-10.5 h 187 0.020 1.1 0.01 7.3 E-9 E-10 3.9 E-10 2.5 1.5 E E-10-10

1.2 E-10 Ir-1.73 188 d 0.020 4.6 3.3 0.01 E-E-9 9 9 1.2 1.8 E-E-E-E-10 9 7.9 6.3 10 Ir-13.3 189 d 0.020 0.01 1.7 2.5 E-9 E-9 5.2 8.6 E-10 E-10 3.0 E-10 2.4 E-10 Ir-190 d 0.020 1.0 12.1 E-8 0.01 3.9 7.1 E-9 E-9 1.2 2.5 E-9 1.6 E-9 E-9 Ir-190 m 3.10 h 6.4 0.01 0.020 9.4 E-10 E-E-E-10 10 3.5 1.5 1.2 2.3 10 E-10 E-10 Ir-190 m 1.20 h 0.020 7.9 E-11 5.0 E-11 2.6 0.01 E-11 E-11 1.0 E 1.6-11 8.0 E-12 Ir-192 74.0 d 0.020 1.3 E-8 0.01 4.6 E 8.7 E-9-9-9-9 1.4 1.7 2.8 E E E-9 Ir-192 m 2.41 E + 2 a 0.020 2.8 E-9 1.4 0.01 E-9 5.5 8.3 E-10 E-10 3.1 3.7 E-10 E-10 Ir-193 m d 0.020 11.9 3.2 E-9 1.0 0.01 2.0 E-9 E-9 6.0 E-10 3.4 2.7 E-10 E-10 Ir-0.020 1.5 h 19.1 194 E-8 0.01 9.8 E-9 4.9 1.7 2.9 E-9 E-9 E-9 1.3 E-9 Ir-171 d 194 m
0.020 1.7 E-8 1.1 0.01 E-8 6.4 4.1 2.6 E E-E-9 9-9-9 Ir-195 2.50 2.1 E h E-9 1.2 0.01 7.3 0.020 E-10 3.6 E 2.1-10 E-10 1.3 E-10 1.0 E-10 Ir-195 m 3.80 h 0.020 2.3 1.5 0.01 E-9 E-9 4.3 7.3 E-10 E-10 2.1 2.6 E-10 E-10 Platinum Pt-2.00 h 7.8 E-10 186 0.020 0.01 5.3 1.8 2.9 E-10 10 E-E-E-E-11 10 10 1.2 9.3 Pt-10.2 188 d 0.020 0.01 4.5 6.7 E-9 E-9 2.4 E-9 1.5 E-9 9.5 E-10 189 10.9 7.6 E-10 Pt-h 1.1 0.01 7.4 0.020 E-9 E-E-E-10 10 10 3.9 2.5 1.2 1.5 E-10 E-10 Pt-191 d 0.020 2.80 3.1 2.1 1.1 0.01 E-E-E-9 9 9 10 10 3.4 4.2 6.9 E-E-E-10 Pt-50.0 a 0.020 3.7 E-10 193 0.01 2.4 E-10 1.2 E-E-E-11 11 10 6.9 3.9 3.1 E-11 Pt-193 m 4.33 d 0.020 5.2 3.4 E 0.01 E-9-9-9 9.9 1.7 E E-E-E-10 10 10 5.6 4.5 Pt-195 m 0.01 4.6 4.02 d 0.020 7.1 E-9 E-9
2.3 E-9 1.4 E-9 6.3 7.9 E-10 E-10 Pt-18.3 197 h 0.020 4.7 1.5 3.0 E 0.01-9 E-9 E-9 E-8.8 10 5.1 4.0 E-10 E-10 Pt-197m 1.0 0.01 6.1 1.57 h 0.020 E-9 E-10 3.0 E-10 1.1 1.8 E-10 E-10 8.4 E-11 Pt-199 h 0.020 4.7 0.513 E-10 1.3 2.7 E-10 E 0.01-7.5 E 10-11 E-5.0 3.9 E 11-11 Pt-200 12.5 h 1.4 0.020 E-8 0.01 8.8 E-9 4.4 E-9 1.2 1.5 E 2.6-9 E-9 E-9 Gold Au-17.6 h 193
0.100 8.8 0.200 1.2 E-9 E-10 4.6 E-10 2.8 E-10 1.3 1.7 E-10 E-10 Au-1.65 194 h 2.9 2.2 0.200 0.100 E-9 E-9 1.2 E-9 5.3 8.1 E-10 E-10 4.2 E-10 Au-195 183 d 0.200 2.4 1.7 0.100 E-9 E-9 E-8.9 10 5.4 2.5 3.2 E-10 E-10 E-10 Au-198 0.200 1.0 E-8 0.100 7.2 2.69 d E-E-E-9 9 9 3.7 2.2 1.3 E-9 1.0 E-9 Au-198 2.30 d 0.200 1.2 E-8 0.100 8.5 E-9 1.6 4.4 E-9 2.7 E-9 E-9
1.3 E-9 Au-3.14 199 d 0.200 0.100 3.1 4.5 E-9 E-9 1.6 E-9 5.5 9.5 E-10 E-10 4.4 E-10 Au-0.807 200 h 4.7 0.100 0.200 8.3 E-10 E-10 2.3 1.3 E-10 E-6.8 8.7 E 10-11 E-11 Au-200 m 18.7 h 9.2 0.200 0.100 6.6 E-9 E-9 3.5 E-9 2.2 1.1 1.3 E-9 E-9 E-9 Au-201 0.100 1.7 3.1 0.200 0.440 h E-10 E-10 3.1 4.6 E 8.2 E-11-11 E-11 2.4 E-11 Mercury Hg-3.50 193 h 1.000 1.000 1.9 3.3 E-10 E-10
9.8 E-11 E-11 3.9 3.1 5.8 E-11 E-11 (org.) 0.800 4.7 4.4 E-10 2.2 0.400 E-10 E-E-E-10 10 1.4 8.3 6.6 E 11-11 Hg-193 (anorg.) 3.50 0.040 8.5 E-10 0.020 5.5 h E-10 1.0 1.7 2.8 E-10 E-10 E-10 E 8.2-11 Hg-193 m 11.1 h 1.1 1.000 E-9 6.8 1.000 E-E-E-10 10 10 3.7 2.3 1.3 1.5 E-10 E-10 (org.) 1.6 0.800 0.400 1.8 E-9 E-9 9.5 10 6.0 E-E-E-E-10 10 3.7 3.0 10 Hg-193 m (anorg.) 0.040 11.1 h 3.6 E-9
0.020 2.4 E-9 1.3 E-9 E 8.1-10 5.0 4.0 E-10 E-10 Hg-194 260 a 1.000 1.000 1.2 1.3 E-7 E-7 E-8 5.5 6.6 8.4 E-8 E-8 5.1 E-8 (org.) 4.8 0.400 0.800 1.1 E-7 E-8 3.5 E-8 2.3 2.1 2.7 E-8 E-8 E-8 Hg-194 (anorg.) 260 a 7.2 0.040 E-9 0.020 3.6 2.6 E E-9-9-9-9 1.4 1.5 1.9 E E E-9 Hg-195 1.000 2.0 3.0 h 9.90 1.000 E-10 E-10 1.0 E-10 6.4 3.4 4.2 E E-11-11 E-11 (org.) 0.800
4.8 0.400 4.6 E-10 E-10 1.5 2.5 E-10 E-E-E-11 10 9.3 7.5 11 Hg-195 (anorg.) 9.90 h 9.5 E-10 0.020 6.3 0.040 E-10 1.2 2.0 3.3 E-10 E-10 E-10 9.7 E-11 Hg-195 m 1.73 d 1.000 E-9 1.3 2.1 1.000 E-9 E 6.8-10 4.2 E-10 2.2 2.7 E-10 E-10 (org.) 0.800 2.6 2.8 E-9 1.4 0.400 E-9 E-9 5.1 8.7 E-10 E-10 4.1 E-10 Hg-195 m (anorg.) 1.73 d 0.020 3.8 0.040 5.8 E-9 E-9 E-9 1.2 2.0 7.0 E-9 E-10 5.6 E-10 Hg-197 2.67 d 1.000 E-10 6.2 9.7 1.000 E-10 E-10 1.9 3.1 1.2 E-10 9.9 E E-10-11 (org.) 0.400 1.2 1.3 0.800 E-9 E-9 3.7 6.1 E-10 E-10 E 2.2-1.7 10 E-10 Hg-197 (anorg.) 2.67 d 0.020 1.6 0.040 2.5 E-9 E-9 8.3 E-10 5.0 E-10 2.9 E-10 2.3 E-10 Hg-197m) 1.5 23.8 h 1.000 E-9 4.8 9.5 1.000 E-10 E-10 2.9 1.5 1.8 E-10 E-10 E-10 (org.) 2.2 0.800 0.400 2.5 E-9 E-9 1.2-4.2 E 7.3 9 E-10 E-10 3.4 E-10 Hg-197m (anorg.) 23.8 h 5.2 3.4 E-0.040 0.020 E-9 9 9 1.0 1.7 E-E-E-E-10 9 5.9 4.7 10 Hg-199 m 3.4 E-10 1.000 1.000 1.9 0.710 h E-10 9.3 E-11 E-3.6 5.3 2.8 E 11 E-11-11 (org.) 0.800 3.6 E 2.1 0.400 E-10 1.0-10 E-10 3.9 3.1 5.8 E-11 E-11 E-11 Hg-199 m (anorg.) 3.7 0.040 0.710 h E-10 0.020 1.0 E-10 5.9 2.1 E-10 E-11 3.9 3.1 E-11 E-11 Hg-203 46.6 d 1.000 E-8 1.5 1.1 1.000 E-8
5.7 3.6 E E-9-9-9 1.9 2.3 E E-9 (org.) 0.800 1.3 E-8 0.400 6.4 3.4 E-9 E-9 2.1 1.1 1.3 E-9 E-9 E-9 Hg-203 (anorg.) 46.6 d 3.6 E 5.5 0.040 0.020 E-9-9-9 1.1 1.8 E E-9 5.4 6.7 E-10 E-10 Tl-Thallium 0.550 194 h 6.1 1.000 E-E-E-11 11 1.000 3.9 2.2 1.0 1.4 E 11-11 E-11 8.1 E-12 Tl-194 m 0.546 h 3.8 1.000 E-10 1.2 2.2 1.000 E-10 E-10 7.0 E 4.0 E E-4.9-11 11-11 Tl-195 1.16 h 1.000
1.000 1.4 2.3 E-10 E-10 7.5 E-11 4.7 E-11 E-2.7 E-11 Tl 11 3.3-2.1 E-10 197 2.84 h 1.000 1.000 1.3 E-10 E-6.7 11 4.2 E-11 2.8 E-11 2.3 E-11 Tl-5.30 h 4.7 1.000 E-10 198 3.3 1.000 E-10 1.2 1.9 E-10 E-10 Tl 7.3 E 8.7 E-11-11-198 1.87 h 4.8 1.000 E-10 1.000 1.6 3.0 E-10 E-10 5.4 6.7 9.7 E-11 E-11 E-11 Tl-199 7.42 2.3 1.5 h 1.000 1.000 E-10 E-10 7.7 E-11 E-11 2.6 3.2 4.8 E-11 E-11 Tl-200 1.000 1.000 E-9 1.3 9.1 1.09 d E-E-E-10 10 10 5.3 3.5 2.0 2.4 E-10 E-10 Tl-201 3.04 d 1.000 E-10 5.5 8.4 1.000 E-10 2.9 1.8 E-10 E-10 1.2 E-10 E 9.5-11 Tl-12.2 202 d 1.000 E-9 1.000 2.1 2.9 E-9 1.2 E-9 4.5 5.4 7.9 E-10 E-10 E-10 Tl-3.78 204 a 1.000 1.000 1.3 E-8 8.5 E-9 4.2 E-9 1.2 1.5 2.5 E-9 E-9 E-9 Lead 7) OJ-195 m 0.600 2.6 E-10 0.200 1.6 0.263 h E-10
8.4 E-11 5.2 E-11 E-11 2.9 3.5 E-11 Pb-198 0.200 4.8 5.9 0.600 2.40 h E-10 E-10 2.7 E-10 1.1 1.0 1.7 E-10 E-10 E-10 Pb-1.50 h 0.600 3.5 E-10 199 0.200 2.6 E-10 9.4 E 1.5 E-10-11 E-E 6.3-11 5.4 11 Pb-200 h 21.5 0.200 2.0 2.5 0.600 E-9 E-9 E-1.1 9 7.0 E 4.0-4.4 E-10 10 E-10 Pb-201 0.600 9.4 E-10 0.200 9.40 h 7.8 E-10 2.7 1.8 4.3 E-10 E-10 E-10 E-10 Pb-1.6 3.00 202 E + 5 (a) 1.6 0.200 0.600 3.4 E-8 E-8 1.3 E-8 E-1.9 8.8 8 2.7 E-8 E-9 Pb-3.62 h 0.600 7.6 202m E-10 3.5 0.200 6.1 E-10 E-10 2.3 1.3 1.5 E-10 E-10 E-10 Pb-1.6 0.600 2.17 d E 203-9 1.3-6.8-9 E 10 E 0.200 4.3 E-10 2.4 2.7 E-10 E-10 Pb-1.43 205 E + 7 (a) 2.1 0.600 0.200 9.9 E-9 E-10 6.2 E-10 6.5 6.1 E-10 E-10 2.8 E-10 Pb-209 0.600 5.7 E-10 0.200 3.8 3.25 h E-10 1.1 1.9 E-10 E-10 E 6.6-11 E-11 Pb-210 22.3 5.7 a 8.4 0.600 0.200 3.6 E-6 E-6 1.9 1.9 2.2 E-6 E-6 E-6 E-7 Pb-211 0.601 6.9 h 0.600 3.1 E-9 1.4-7.1 E-9 E 10 0.200 4.1 E-10 2.7 1.8 E-10 E-10 Pb-212 10.6 0.600 1.5 h E-7 3.3 0.200 6.3 E-8 E-8 2.0 E-8 1.3 E-8 6.0 E-9 Pb-214 0.447 h 2.7 E-9 0.200 0.600 1.0 E-9 2.0 3.1 5.2 E-10 E-10 E-10 1.4 E-10 Bismuth Bi-0.606 200 h 0.100 4.2 E-10
0.050 1.5 2.7 E-10 E-10 E 9.5-11 6.4 5.1 E-11 E-11 Bi-h 1.80 0.100 1.0 E-9 201 0.050 6.7 E-10 3.6 E-10 2.2 E-10 1.2 1.4 E-10 E-10 Bi-1.67 202 h 6.4 0.100 0.050 4.4 E-10 E-10 2.5 E-10 1.1 1.6 E-10 E-10 8.9 E-11 Bi-11.8 0.100 3.5 h 203 E-9 1.4 2.5 0.050 E-9 E-9 4.8 9.3 6.0 E-10 E-10 E-10 Bi-15.3 205 d 0.100 6.1 0.050 4.5 E-9 E-9 E-9 1.7 E 2.6-9 E-1.1 9 9.0 E-10 Bi-206
0.050 1.0 1.4 0.100 6.24 d E-8 E-8 E-5.7 9 3.7 E-9 2.4 1.9 E-9 E-9 Bi-38.0 a 0.100 1.0 E-8 207 0.050 3.9 7.1 E-9 E-9 1.6 2.5 E-9 E-9 1.3 E-9 Bi-210 5.01 d 1.5 0.100 E-8 0.050 9.7 E-9 4.8 E-9 1.6 2.9 E-9 E-9 1.3 E-9 Bi-210 m 3.00 E + 6 a 0.050 9.1 0.100 2.1 E-7 E-8 4.7 1.9 3.0 E-8 E-8 E-8 E-8 Bi-212 1.01 h 1.5 0.100 0.050 1.8 3.2 E-9 E-9 8.7 E-10
3.3 5.0 E-10 E-10 2.6 E-10 Bi-213 0.761 0.100 2.5 h E-9 1.4 0.050 E-9 E-6.7 10 3.9 E-10 2.5 2.0 E-E-10 10 Bi-214 0.100 1.4 0.332 h E-9 0.050 3.6 E 2.1 7.4 E-10 10-E-E-E-10 10 10 1.4 1.1 Polonium-Po 0.612 203 h 2.9 1.000 E-10 0.500 2.4 E-10 1.3 E-10 8.5 E-11 4.6 5.8 E-11 E-11 Po-205 0.500 2.8 3.5 h 1.80 1.000 E-10 E-E-E-10 10 1.6 1.1 10 7.2 E-11 E 5.8-11 Po-4.4 207 5.83 h 1.000 E-10 5.7 0.500 E-E-E-10 10 10 3.2 2.1 1.1 1.4 E-10 E-10 Po-210 138 d 1.000 E 2.6-8.8 0.500 E 5-6 1.6 4.4 E-6 2.6 E-6 E-6 1.2 E-6 1.80 At-Astatine 207 h 2.5 E-9 1.6 1.000 1.000 E-9 4.8 8.0 E-10 E-10 2.9 E-10 2.4 E-10 At-211 7.21 h 7.8 1.000 1.000 1.2 E-7 E-8 2.3 3.8 E-8 E-8 1.1 1.3 E-8 E-8 Fr-Francium 6.2 E-9 222 0.240 h 1.000 1.000 3.9 E-9 2.0 E-9 1.3 E-9 8.5 E-10
7.2 E-10 Fr-223 0.363 h E-8 1.000 1.000 2.6 8.3 1.7 E-8 E-9 5.0 E-9 2.9 E-9 2.4 E-9 Radium 8) Ra-223 11.4 d 5.3 0.600 0.200 1.1 E-6 E-6 E-7 3.7 4.5 5.7 E-7 E-7 1.0 E-7 Ra-224 0.600 2.7 E-6 0.200 6.6 3.66 d E-7 E-7 2.6 3.5 2.0 E-7 E-7 E 6.5-8 Ra-225 0.600 7.1 14.8 d E-6 E-7 E-6 1.2 0.200 6.1 5.0 E-7 E-7 9.9 4.4 E-8 Ra-226 1.60 E + 3 a 4.7 0.600 E-6
0.200 9.6 6.2 E-7 E-7 1.5 8.0 E-7 E-6 2.8 E-7 Ra-0.703 h 227 1.1 0.600 E-9 4.3 0.200 E-10 2.5 1.3 1.7 E-10 E-10 E-10 E 8.1-11 Ra-228 0.600 0.200 5.7 3.0 5.75 a E-5 E-6 6 3.9 5.3 3.4 E-E-E-6 6 E-7 Ac-Actinium 6.9 2.90 224 h 1.0 E 5.0 E-4 8-0.005 5.2 E-9 E-9 1.5 E 2.6-8.8 E 9-10 7.0 E-10 Ac-225 5.0 10.0 d 0.005 4.6 E-7 E-4 9.1 1.8 E-7 E-8 5.4 E-8 3.0 E-8
2.4 E-8 Ac-1.21 226 d 5.0 0.005 1.4 E-7 E-4 E-8 2.3 3.8 7.6 E-8 E-8 1.3 1.0 E-8 E-8 Ac-227 21.8 a 0.005 3.3 3.1 5.0 E-5 E-4 E-6 2.2 E-6 E-6 1.2 1.5 1.1 E-6 E-6 Ac-228 0.005 7.4 6.13 h E-9 E-4 2.8 5.0 E-9 1.4 E-9 5.3 8.7 E-10 E-10 4.3 E-10 Thorium Th-0.005 4.4 E-9 226 0.515 h 5.0 E-4 2.4 E-9 1.2 E-9 3.5 4.5 6.7 E-10 E-10 E-10 Th-18.7 0.005 3.0 d 227 E-7 E 5.0-7.0 E 4-8 3.6 E-8 2.3 1.5 E-8 E-8 8.8 E-9 Th-228 1.91 a 0.005 3.7 5.0 E-4 E-6 2.2 3.7 E-7 E-7 9.4 7.2 1.5 E-7 E-8 E-8 Th-229 7.34 E + 3 a 0.005 1.1 1.0 E 5.0 E-5 E-4-6 7 7 6.2 7.8 E-E-E-E-7 5.3 4.9 7 Th-230 7.70 E + 4 a 0.005 4.1 5.0 E-4 E-6 E-7 3.1 4.1 E-7 2.4 2.1 2.2 E-7 E-7 E-7 Th-1.06 231 d 5.0 3.9 0.005 E-9 E-4 2.5 E-9 1.2 E 7.4-9 E-10 3.4 4.2 E-10 E-10 Th-232 1.40 E + 10 a 0.005 4.6 4.5 5.0 E-4 E-6 E-7 2.9 3.5 E-7 E-7 2.3 2.5 E-7 E-7 Th-234 24.1 d 5.0 4.0 E 0.005-8 E-4 E-8 1.3 2.5 E-8 7.4 3.4 4.2 E-9 E-9 E-9 Protactinium Pa 227 0.638 h-E-9 0.005 5.8 3.2 5.0 E-4 E-9 8.7 1.5 E-9 E-10 5.8 E-10 4.5 E-10 Pa-5.0 1.2 0.005 228 22.0 h E-8 E-4 E 2.6-9 1.6 4.8 E-9 E-9
7.8 9.7 E-10 E-10 Pa-0.005 2.6 E-8 230 17.4 d 5.0 E-4 E-5.7 9 1.9 3.1 E-9 E-9 E-1.1 9 9.2 E-10 Pa-231 3.27 E + 4 a 0.005

E-5 1.3 1.3 1.1 5.0 E-4 E-6 E-6 9.2 8.0 E-7 E-7 E-7 Pa-232 1.31 7.1 d 6.3 0.005 5.0 E-E-9 4 2.2 4.2 E-9 E-9 1.4 E-9 E-8.9 10 7.2 E-10 Pa-233 27.0 d 5.0 E-4 E-9 0.005 9.7 6.2 E-9 1.9 3.2 E-9 E-9 E-1.1 9 8.7 E-10 Pa-234 6.70 h 5.0 5.0 E-4 E-9 0.005 3.2 E-9 9 1.0 1.7 E-E-E-E-10 10 9 6.4 5.1 Uranium U-230 20.8 d 0.020 0.040 7.9 E-7 E-7 1.5 3.0 E-7
6.6 1.0 E-7 E-8 5.6 E-8 U-231 4.20 d 0.020 2.0 3.1 0.040 E-9 E-9 1.0 E-9 2.8 3.5 6.1 E-10 E-10 E-10 U-232 0.040 72.0 a 2.5 E-6 5.8 0.020 8.2 E-7 E-7 3.3 5.7 6.4 E-7 E-7 E-7 U-233 1.58 E + 5 a 0.020 1.4 0.040 3.8 E-7 E-7 7.8 7.8 9.2 E-E-E-8 8 8 8 U-234 2.44 5.1 E-E + 5 a 0.020 1.3 0.040 3.7 E-7 E-7 E-8 7.4 8.8 E-8 4.9 7.4 E-8 E-8 U-235 7.04 E + 8 a 0.020 0.040 3.5 E-7 1.3 E-7 E-8 7.0 7.1 8.5 E-8 E-8 4.7 E-8 U-236 0.040 3.5 E + 7A 2.34 E-7 1.3 E-7 8.4 0.020 7.0 7.0 E E-E-8 8-8 4.7 E-8 U-237 6.75 d 0.020 5.4 0.040 8.3 E-9 E-9 1.6 2.8 E-9 E-9 9.5 E-10 U-238 4.47 7.6 E-10 E + 9 a 3.4 E-7 1.2 0.040 0.020 8.0 E-7 E-8 4.5 6.7 6.8 E-8 E-8 E-8 U-239 0.040 3.4 0.392 h E-10 0.020 1.9 E-E-E-11 10 9.3 5.4 2.7 3.5 E 11-11 E-11 U-240 h 14.1 0.040 1.3 E-8 4.1 0.020 8.1 E-9 E-9 2.4 E-9 1.4 1.1 E-9 E-9 Neptunium Np-0.005 8.7 E-11 232 0.245 h 5.0 E-4 E 5.1-11 2.7 E-11 1.7 1.2 E-11 E-11 9.7 E-12 Np-233 0.603 h 5.0 2.1 0.005 E-11 E-4 1.3 E-11 6.6 E-12 4.0 E-12 2.8 E-12 2.2 4.40 d 234 E-12 Np-0.005 6.2 E-9 5.0 E-4 2.4 E-9 1.6 4.4 E-9 E-9 1.0 E-9 8.1 E-10 Np-1.08 a 0.005 7.1 235 E-10 5.0 E-4 1.2 2.0 4.1 E-10 E-10 E-10 E 6.8-11 5.3 E-11 Np-1.15 236 E + 5 a 0.005 1.9 2.4 5.0 E-7 E-4 E-8 1.8 E-8 1.8 1.7 1.8 E-8 E-8 E-8 Np-236 22.5 h 2.5 5.0 E-4 E-9 0.005 1.3 E-9 6.6 E-10 4.0 1.9 2.4 E-10 E-10 E-10 Np-237 2.14 E + 6 a 0.005 2.0 2.1 5.0 E-4 E-6 E-7 E-7 1.4 1.1 1.1 1.1 E-7 E-7 E-7 Np-238 2.12 d
5.0 E-4 E-9 0.005 9.5 6.2 E-9 1.9 3.2 E-9 E-9 E-1.1 9 9.1 E-10 Np-239 0.005 8.9 2.36 d 5.0 E-9 E-4 E-5.7 9 2.9 1.7 E-9 E-9 1.0 E-9 8.0 E-10 Np-240 h 0.005 8.7 1.08 E-10 5.0 E-4 E-10 2.6 E-10 1.6 5.2 E-10 1.0 E-10 E 8.2-11 Plutonium Pu-8.80 234 h 0.005 2.1 1.1 5.0 E-4 E-9 E 9 5.5-E-E-E-10 10 10 3.3 2.0 1.6 E-10 Pu-E-11 235 0.422 h 0.005 2.2 1.3 5.0 E-4 E-11
6.5 E-12 3.9 2.1 2.7 E-12 E-12 E-12 Pu-236 2.85 a 0.005 5.0 E-4 E-6 2.1 2.2 1.0 1.4 E-7 E-7 E-7 E 8.5-8.7 8 E-8 Pu-45.3 237 d 1.1 5.0 E-4 E-9 0.005 6.9 E-10 3.6 E-10 2.2 1.3 1.0 E E-E-10 10-10 Pu-238 87.7 5.0 4.0 E-6 E a 0.005-3.1 4 4.0 E-7 E-7 2.2 2.3 2.4 E-7 E-7 E-7 Pu-239 2.41 E + 4 a 0.005 4.2 4.2 5.0 E-4 E-6 E-7 3.3 E-7 2.4 2.7 E-7 E-7
2.5 E-7 Pu-240 6.54 E + 3 a 0.005 4.2 4.2 5.0 E-4 E-6 E-7 3.3 E-7 2.4 2.5 2.7 E-7 E-7 E-7 Pu-241 14.4 a 0.005 5.6 5.7 5.0 E-4 E-8 E 9 5.5-E-9 4.8-9 E-9 4.8 5.1 E E-9 Pu-242 3.76 E + 5 a 0.005 5.0 4.0 E-6 E-4 E-7 2.6 3.2 4.0 E-7 E-7 2.4 2.3 E-7 E-7 Pu-243 1.0 E 5.0 E-9 4.95 h 0.005-3.1 4 6.2 E-10 E-10 1.1 1.8 E-10 E-10 8.5 E-11 Pu-244 8.26 E + 0.005 4.0 5.0 E-6 E 7 a-4 E-7 2.6 3.2 4.1 E-7 E-7 2.4 2.3 E-7 E-7 Pu-0.005 8.0 E-9 245 10.5 h 5.0 E-4 E 2.6-9 1.5 5.1 E-9 E-9 E-8.9 10 7.2 E-10 Pu-10.9 246 d 3.6 5.0 E-4 E-8 0.005 2.3 E-8 1.2 E-8 4.1 7.1 E-9 E-9 3.3 E-9 Americium Am-0.005 1.7 E-10 237 1.22 h 5.0 E-4 5.5 1.0 E-10 E-11 2.2 3.3 E-11 E-11 1.8 E-11 Am-1.63 238 h 2.5 5.0 0.005 E-10 E-4 9.1 1.6 E-10 E-11 4.0 5.9 E-11 E-11-11 Am-239 11.9 3.2 E h E 2.6-9 0.005 5.0 E-4 E-9 8.4 1.7 E-10 5.1 E-10 3.0 E-10 2.4 E-10 Am-2.12 240 d 5.0 4.7 0.005 E-9 E-4 E 3.3-9 1.2 1.8 E-9 E-9 5.8 7.3 E-10 E-10 Am-241 432 a 0.005 3.7 5.0 E-6 E-3.7 4 E-7 2.7 E-7 E-7 2.2 2.0 2.0 E-7 E-7 Am-242 16.0 h 5.0 5.0 E-0.005 E-9 4 2.2 1.1 E-9 E-9 3.7 6.4 E-10 E-10 3.0 E-10 Am-152 a 0.005 3.1 E-6 242 m 5.0 E-4 2.0 2.3 3.0 E-7 E-7 E-7 1.9 1.9 E-7 E-7 Am-243 7.38 E + 3 a 0.005 3.6 5.0 E-3.7 4 E-6 E-7 2.7 E-7 E-7 2.2 2.0 2.0 E-7 E-7 Am-244 10.1 h 5.0 E-4 E-9 0.005 3.1 4.9 E-9 1.6 E-9 4.6 5.8 9.6 E-10 E-10 E-10 Am-244 m 0.433 h 0.005 3.7 E-10 E-4 2.0 5.0 E-10 9.6 E-11 E-11 3.7 E 5.5-11 2.9 E-11 Am-2.05 245 h
0.005 4.5 5.0 E-4 E 6.8-10 E-10 2.2 1.3 E-E-10 10 6.2 E 7.9-11 E-11 Am-246 0.650 0.005 6.7 h E-10 E-4 3.8 5.0 E-10 1.9 1.1 7.3 E E-E-10 10-11 E 5.8-11 Am-5.0 3.9 0.005 0.417 h 246m E-10 E-4 E-2.2 1.1 10 E-10 6.4 3.4 4.4 E E-11-11 E-11 Curium Cm-238 2.40 h 7.8 0.005 E-10 E-4 4.9 5.0 E-10 1.6 2.6 E-10 E-10 1.0 E-10 27.0 Cm-8.0 E-11 240 d 5.0 E-4 E-7 2.2 0.005 4.8 E-8
8 1.5 2.5 E-E-E-E-9 9 8 9.2 7.6 Cm-241 32.8 0.005 1.1 5.0 E-E-8 d 4 E-5.7 3.0 E 9-9-9-9 9.1 1.9 E 1.1 E E-10 Cm-242 163 d 5.9 0.005 E-7 E-5.0 3.9 7.6 4 E-8 E-8 2.4 E-8 1.2 1.5 E-8 E-8 Cm-28.5 a 0.005 3.2 243 E-6 2.2 3.3 5.0 E-4 E-7 E-7 1.4 1.5 1.6 E-7 E-7 E-7 Cm-244 18.1 a 0.005 2.9 2.9 5.0 E-4 E-6 E-7 1.2 1.4 1.9 E-7 E-7 E-7 1.2 E-7
Cm-245 8.50 E + 3 a 0.005 3.7 5.0 E-4 E-6 E-7 3.7 2.8 E-7 2.3 2.1 2.1 E-7 E-7 E-7 Cm-4.73 246 E + 3 a 0.005 5.0 E-6 E-3.7 4 2.8 E-7 2.2 3.7 E-7 E-7 E 2.1 2.1 E-7-7 Cm-247 1.56 E + 7 a 3.4 E-6 0.005 5.0 E-4 3.5 2.1 2.6 E-7 E-7 E-7 1.9 1.9 E-7 E-7 Cm-248 3.39 E + 5 a 0.005 5.0 E-4 1.4 1.4 E-5 E-6 8.4 1.0 E-6 E-7 7.7 7.7 E-7 E-7
Cm-249 1.07 h 5.0 3.9 0.005 E-10 E-4 6.1 1.1 2.2 E-10 E-10 E-4.0 E 11-11-11 Cm-250 6.90 3.1 E E + 3 a 0.005 7.8 E-5 E-4 8.2 5.0 6.0 E-6 E-6 4.9 4.4 E-6 E-6 4.4 E-6 Berkelium Bk-245 d 0.005 6.1 4.94 E-9 E-4 E-9 2.0 5.0 3.9 E-9 1.2 E-9 E-10 7.2 5.7 E-10 Bk-1.83 246 d 5.0 E-4 E-9 0.005 3.7 2.6 E-9 1.4 E-9 4.8 9.4 E-10 6.0 E-10 247 1.38 E + E-10 Bk-3 a
8.9 0.005 5.0 E-4 E-6 6.3 8.6 E-7 E-7 3.5 3.8 4.6 E-7 E-7 E-7 Bk-249 320 d 0.005 2.2 2.9 E 5.0 E-4 E-8-9-9-9 1.4 1.1 1.9 E E E-9 250 3.22 9.7 E-10 Bk-0.005 1.5 h E-9 5.0 8.5 E-4 E-10 4.4 E-10 2.7 E-10 1.4 1.7 E-10 E-10 Californium Cf-0.005 9.8 5.0 0.323 244 h E-10 E-4 2.4 4.8 E-10 E-10 1.3 E-10 7.0 E E-11-11 Cf 8.9-1.49 246 d 5.0 5.0 E-4 E-8 0.005 2.4 E-8
1.2 E-8 4.1 7.3 E-9 E-9 248 334 d E 3.3-9 Cf-0.005 1.5 1.6 5.0 E-4 E-6 E-7 E-8 6.0 9.9 E-8 3.3 2.8 E-8 E-8 Cf-249 350 a 0.005 5.0 9.0 E-6 E-4 E-7 6.4 8.7 E-7 3.5 3.8 4.7 E-7 E-7 E-7 Cf-13.1 a 0.005 250 E-4 5.5 5.7 5.0 E-6 E-7 3.7 E-7 E-7 1.7 1.6 2.3 E-7 E-7 Cf-251 898 a 0.005 9.1 8.8 5.0 E-4 E-6 E-7 E 6.5-7 4.7 3.9 3.6 E-7 E-7 E-7
Cf-252 2.64 a 5.0 5.0 E-4 E-6 0.005 5.1 E-7 E-7 3.2 1.9 1.0 E-7 E-7 E-8 Cf-253 17.8 9.0 d 5.0 E-4 E-7 0.005 1.0 1.1 E-8 6.0 E-9 3.7 E-9 1.4 1.8 E-9 E-9 Cf-60.5 254 d 0.005 1.1 5.0 E-5 E-4 1.4 2.6 E-6 E-6 E-7 8.4 5.0 4.0 E-7 E-7 Einsteinium Es-2.10 h 0.005 2.3 E-10 250 E-4 9.9 5.0 E-11 E-5.7 11 3.7 E-11 E-11 2.1 2.6 E-11 Es-1.38 251 d 1.9 0.005 5.0 E-9 E-4 E-9 1.2 6.1 E-10 2.2 3.7 E-10 E-10 1.7 E-10 Es-20.5 253 d 0.005 1.7 E-7 E-4 4.5 5.0 E-8 2.3 E-8 1.4 E-8 7.6 E-9 6.1 E-9 Es-254 276 d 0.005 1.4 1.6 5.0 E-4 E-6 E-7 E-8 9.8 6.0 E-8 3.3 2.8 E-8 E-8 Es-254 m 1.64 d 5.0 E-4 E-8 0.005 5.7 3.0 E-8 1.5 E-8 4.2 5.2 9.1 E-9 E-9 E-9 Fermium Fm 22.7 252 h 3.8 5.0 E-4 E-8 0.005 2.0 E-8 5.9 9.9 E-9 E-9
3.3 E-9 2.7 E-9 Fm-0.005 2.5 5.0 E-8 3.00 253 d E-E-E-9 4 6.7 3.4 2.1 1.1 E-E-9 9 9 9.1 E-10 Fm 3.24 254 h 5.6 5.0 E-4 E-9 0.005 3.2 E-9 1.6 E-9 5.6 9.3 E-10 E-10 4.4 E-10 Fm 20.1 255 h 3.3 0.005 E-8 E-4 1.9 5.0 E-8 9.5 E-9 2.5 3.2 5.6 E-9 E-9 E-9 Fm-257 101 d 0.005 9.8 5.0 E-4 E-7 1.1 E-7 E-6.5 8 4.0 1.9 E-8 E-8 1.5 E-8 Mendelevium Md-5.20 257 h
E-4 E-9 0.005 3.1 5.0 4.5 8.8 E-10 E-10 1.2 1.5 2.7 E-10 E-10 E-10 Md-55.0 258 d 6.3 0.005 E-7 E-4 5.0 5.0 8.9 E-8 E-8 1.3-1.6 3.0 E-8 E 8 E-8 table 2 Inhalation dose coefficients for members of the population effective dose per unit intake via inhalation (Sv Bq-1) for members of the population age ≤ 1 a Age > 1 a Nuclide half-life Type9 f1 e (g) f1 1 – 2 a e (g) 2 – 7 a e (g) 7 – 12 a e (g) 12 – 17 a e (g) > 17 a e (g) hydrogen Tritiated water 12.3 a F 1.000 1.000 2.0 E 2.6 E-11-11 1.1 E-11 8.2 6.2 5.9 E-12 E-12 E-12 M 0.200 3.4 2.7 E-10 E-10 0.100 8.2 1.4 E-10 E-11 5.3 E-11 4.5 E-11 S 0.020 0.010 1.0 1.2 E-9 E-9 E 6.3-10 3.8 2.8 2.6 E E-E-10 10-10 Beryllium Be 53.3-7 d 0.020 0.005 2.1 2.5 E-10 E-10 6.2 8.3 1.2 E-10 E-11 E-11
11 S 0.020 2.8 5.0 E-E-E-E-10 10 0.005 2.4 1.4 9.6 E 10-11 E 6.8-11 E 5.5-11 Be-10 E + 6 a 1.60 M 3.4 0.005 0.020 4.1 E-8 E-8 2.0 1.3 1.1 E E-E-8 8-8 9.6 E-9 S 0.020 9.9 9.1 0.005 E-8 E-8 6.1 E-8 4.2 E-8 3.5 3.7 E-8 E-8 carbon C-11 0.340 h F 1.000 1.000 1.0 E-10 7.0 E-E-E-11 11 11 3.2 2.1 1.1 1.3 E-11 E-11 M 1.5 1.1 10 0.100 0.200 E-E-10 4.9 E-11
1.8 2.1 3.2 E-11 E-11 E-11 S 0.010 1.1 0.020 1.6 E-10 E-E-E-11 10 5.1 3.3 2.2 E 11-11 1.8 E-11 C-14 5.73 E + 3 a F 1.000 1.000 6.7 6.1 E-10 E-10 1.9 3.6 2.9 E-10 E-10 E-10 2.0 E-10 M 6.6 0.100 0.200 8.3 E-9 E-9 4.0 E-9 2.0 2.5 2.8 E-9 E-9 E-9 S 8 0.010 1.7 1.9 0.020 E-E-E-E-8 8 1.1 7.4 5.8 6.4 E 9-9 E-9 Fluorine F-1.83 18 h F 1.000 1.000 2.6 E-10
9.1 1.9 E-10 E-11 E-11 3.4 5.6 E-11 2.8 E-11 M E-10 1.000 1.000 4.1 1.5 E-10 9.7 2.9 E-10 E-11 6.9 E-11 5.6 E-11 S 1.000 1.000 3.1 4.2 E-10 E-10 10 1.0 1.5 E-E-E-E-11 10 7.3 5.9 11 Sodium Na-22 1.000 9.7 2.60 a F E-9 3.8 7.3 1.000 E-9 E-9 2.4 E-9 1.3 1.5 E-9 E-9 Na-24 15.0 h F 2.3 1.000 1.000 1.8 E-9 E-9 9.3 E-10 E-5.7 10 3.4 2.7 E-10 E-10 Magnesium Mg-28 20.9 h F 5.3 1.000 E-9 2.2 4.7 0.500 E-9 E-9 1.3 E-9 7.3 6.0 E-10 E-10 M 7.3 1.000 E-9 7.2 0.500 E-9 3.5 E-9 E-9 1.2 2.3 1.5 E-9 E-9 Aluminum Al-7.16 E + 5 a F 0.020 8.1 26 E-8 0.010 6.2 E-8 3.2 E-8 2.0 1.3 1.1 E E-E-8 8-8 M 8 0.010 7.4 0.020 8.8 E-E-E-E-8 8 8 4.4 2.9 2.2 2.0 E-8 E-8 Silicon Si-31 0.020 3.6 2.62 h F E-10 0.010 2.3 E-10 E 9.5-11
5.9 E-11 3.2 E-11 2.7 E-11 M 4.4 0.010 0.020 6.9 E-10 E-10 E-2.0 1.3 E-10 8.9 10 E-11 11 S 0.020 7.2 7.4 E-E-E-E-10 2.2 4.7 0.010 10 10 E 9.5-11 7.9 1.4 E-10 E-11 Si-32 E 4.50 + 2 a F 0.020 3.0 E-8 0.010 1.1 2.3 E-8 E-8 6.4 E-9 3.8 3.2 E-9 E-9 M 0.020 7.1 E-8 0.010 6.0 E-8 3.6 E-8 2.4 1.7 1.9 E-8 E-8 E-8 S 0.010 2.7 2.8 E-7 E-0.020 7 1.9 E-7
1.1 1.1 1.3 E-7 E-7 E-7 Phosphorus P-32 1.000 1.2 14.3 d F E-8 3.2 0.800 7.5 E-9 E-9 9.8 1.8 E-9 E-10 7.7 E-10 M 1.5 2.2 1.000 E-8 0.800 E-8 8.0 5.3 E-9 E-9 4.0 E-9 3.4 E-9 P-E-9 1.2 25.4 33 d F 1.000 0.800 7.8 E-10 2.0 3.0 E-10 E-10 9.2 1.1 E-10 E-11 M 6.1 1.000 E-9 0.800 4.6 E-9 2.8 E-9 E-9 1.9 2.1 1.5 E-9 E-9 Sulfur 1.000 S-35 87.4 d F

0.800 3.9 5.5 E-10 E-10 1.1 1.8 E-10 E-10 5.1 6.0 E-11 E-11 (anorg.)
 
0.200 5.9 m E-9 0.100 2.8 4.5 2.0 E E-E-9 9-9 1.4 1.8 E-9 E-9 S 0.020 7.7 0.010 6.0 E-9 E-9 E-3.6 2.6 2.3 E-E-9 9 9 9 Chlorine Cl-36 3.01 1.9 E-E + 5 a F 3.9 1.000 E-9 2.6 1.000 E-9 E-1.1 9 7.1 3.9 3.3 E E-E-10 10-10 M 1.000 1.000 2.6 3.1 E-8 E-8 1.5 1.0 E-8 E-8 7.3 8.8 E-9 E-9 Cl-38 1.000 2.9 0.620 h F E-10 1.9 1.000 E-10 8.4 E-11 5.1 E-11
2.5 3.0 E-11 E-11 M 1.000 1.000 3.0 4.7 E-10 E-10 E-10 8.5 E 1.4-4.5 5.4 E 11-11 E-11 Cl-2.7 E-10 39 0.927 h F 1.000 1.000 8.4 1.8 E-10 E-11 E-11 2.5 3.1 5.1 E-11 E-1Q 4.3 M 1.000 E-10 2.8 E-10 1.000 1.3 E-10 8.5 E-11 5.6 4.6 E-11 E-11 Potassium K-40 1.28 E + 9 a F 1.000 1.000 E-8 2.4 1.7 E-8 2.5 4.5 7.5 E-9 E-9 E-9 E-9 K-42 12.4 2.1 h F 1.6 1.000 E-9
1.0 E-9 4.4 1.000 E-10 2.6 E-10 1.2 1.5 E-10 E-10 K-43 22.6 1.000 1.3 h F E-9 9.7 1.000 E-E-E-10 10 10 4.7 2.9 1.7 1.4 E-10 E-10 K-0.369 44 h F 1.000 1.000 1.4 2.2 E-10 E-10 E-11 4.0 E 6.5-11 2.0 2.4 E-11 E-11 K-0.333 45 h F 1.000 1.000 1.0 1.5 E-10 E-10 E-11 3.0 E 4.8-11 1.5 1.8 E-11 E-11 Calcium 10) Ca-41 1.40 E + 5 a 6.7 E-10 F 0.600 0.300 2.6 3.8 E-10 E-10 3.3 3.3 E-10 E-10 1.7 E-10 M 4.2 E-10 0.100 0.200 2.6 E-10 1.7 1.6 1.7 E-E-E-10 10 10 11 S 0.020 6.7 9.5 E-E-E-E-10 10 0.010 6.0 3.8 10 1.9 2.4 E-10 E-10 1.8 E-10 Ca-45 163 d F 0.600 5.7 3.0 E-9 1.4 0.300 E-9 E-9 1.0 E-9 4.6 7.6 E-10 E-10 M 8.8 0.100 0.200 1.2 E-8 E-9 3.9 5.3 E-9 E 9 3.5-E-9 E-9 S 0.020 1.5 2.7 E-8 1.2 E-8 0.010 5.1 7.2 E-9 E-9 3.7 4.6 E-9 E-9 Ca-47 4.53 d F 0.600 4.9 1.7 0.300 3.6 E-9 E-9 E-9 6.1 1.1 E-9 E-10 E-10 M 0.200 1.0 E 5.5-8 4.2 0.100 7.7 E-9 E-9 2.9 E-9 2.4 1.9 E-9 E-9 S 0.020 1.2 E-8 0.010 8.5 E-9 4.6 3.3 E-E-9 9 9 2.1 2.6 E-E-9 Scandium Sc-3.89 h S 0.001 9.3 43 E-10 1.0 E-4 6.7 10 2.2 3.3 E-10 E-E-E-E-10 10 10 Sc 1.4 1.1-1.6 0.001 3.93 44 h S E-9
1.0 E-4 E-9 1.2 3.6 2.3 5.6 E-10 E-10 E-10 1.8 E-10 Sc-44 m 1.0 1.1 0.001 2.44 d S E-8 E-4 E-9 8.4 4.2 E-9 2.8 E-9 1.4 1.7 E-9 E-9 Sc-0.001 S 2.8 E-8 d 46 83.8 1.0 1.4 2.3 E-4 E-8 E-8 8.4 9.8 E-9 E-9 E 6.8-9 Sc-3.35 47 d S 4.0 1.0 E-4 E-9 0.001 2.8 E-E-E-9 9 9 1.5 1.1 7.3 9.2 E-10 E-10 Sc-1.82 48 d S 0.001 7.8 E 9 1.0 E-4-5.9 E-9
3.1 2.0 E-9 E-9 1.4 1.1 E-9 E-9 Sc 49 0.956 h S 0.001 3.9-E-10 1.0 1.1 2.4 E-4 E-10 E-E-E-11 4.7 7.1 10 11 4.0 E-11 Titanium Ti-47.3 44 a F E 2.6-3.1 0.020 E-7 0.010 7 1.5 E-7 E-8 6.1 6.6 9.6 E-8 E-8 M 1.7 0.020 0.010 1.5 E-7 E-7 E-8 4.6 5.9 9.2 E-8 E-8 4.2 E-8 S 0.020 0.010 3.1 3.2 E-7 E-7 1.3 1.5 2.1 E-7 E-7 E-7 1.2 E-7 Ti-45 3.08 h F
0.010 3.2 0.020 4.4 E-10 E-10 1.5 5.1 9.1 E E-10-11 E-11 4.2 E-11 M 5.2 0.010 0.020 7.4 E-10 E-10 2.5 E-E-E-10 10 1.6 1.1 10 11 S 0.020 7.7 8.8 E-E-E-E-10 10 0.010 5.5 2.7 1.1 10 1.7 E-10 E-V-E-11 10 9.3 Vanadium 0.543 47 h F 0.020 0.010 1.2 1.8 E-10 E-10 3.5 5.6 E-11 E-11 1.7 2.1 E-11 E-11 M 2.8 E-10 0.010 1.9 0.020 E-10 8.6 5.5 E E-11-11 11 2.9 3.5 E-E-11 V-48 16.2 d F 0.010 6.4 0.020 8.4 E-9 E-9 E-9 E-9 1.3 3.3 2.1 1.1 E-9 E-9 M E-8 0.010 0.020 1.4 1.1 4.3 6.3 8 9 E-E-E-E-E-9 9 9 2.9 2.4 V-49 330 d F 1.6 2.0 E-10 0.020 0.010 E-7.7 4.3 E E-11 10-11 2.1 2.5 E-11 E-11 M 2.8 E-10 0.010 0.020 2.1 1.1 10 E-E-E-E 4.0-6.3 10 11 11 3.4 E-11 Chrome Cr-48 0.200 7.6 23.0 h F E-10 0.100 6.0 E-10 1.2 2.0 3.1 E-10 E-10 E-10 9.9 E-11 M 0.100 9.1 0.200 1.1 E-9 E-E-E-10 10 10 5.1 3.4 2.0 2.5 E-10 E-10 S 1.2 E-9 0.100 9.8 0.200 E-10 5.5 E-10 2.8 E-10 2.2 3.7 E-10 E-10 Cr-49 0.702 h F 0.200 1.9 0.100 1.3 E-10 E-10 6.0 E-11 3.7 E-11 E-11 1.9 2.2 E-11 M 0.100 2.0 3.0 0.200 E-10 E-10 E 9.5-11 E-3.3 6.1 4.0 E 11-11 E-11 S 0.200 3.1 2.1 0.100 E-10 E-E-E-11 11 10 9.9 6.4 4.2 E-11 3.5 E-11 Cr-51 0.200 1.7 27.7 d F E-10 0.100 1.3 E-10 E-11 4.0 E 6.3-2.0 2.4 E 11-11 E-11 M 2.6 E-10 0.100 0.200 1.9 1.0 E-10 E-E-E-11 11 10 6.4 3.9 3.2 E-11 S 0.200 0.100 2.1 2.6 E-10 E-10 1.0 E-10 E 6.6-3.7 4.5 E 11-11 E-11 Manganese Mn-0.770 51 h F 0.200 0.100 1.7 2.5 E-10 E-10 7.5 E-11 4.6 E-2.3 2.7 E 11-11 E-11 M 4.0 E-10 0.100 0.200 2.7 E-10 E 7.8-11 5.0 1.2 E-10 E-11 4.1 E-11 Mn-5.59 d F 0.200 7.0 E 52-9 5.5 0.100 E-9 2.9 E-9 1.1 1.8 E-9 E-9 E-10 M 0.200 8.6 9.4 E-9 3.7 0.100 6.8 E-9 E-9 2.4 E-9 1.4 1.7 E-9 E-9 Mn-52 m 0.352 h F 0.200 1.9 0.100 1.3 E-10 E-10 6.1 E-11 E-11 1.9 2.2 3.8 E-11 E-11 M 2.8 E-10 0.100 1.9 0.200 E-10 8.7 E-11 E-11 3.4 E 5.5-11 2.9 E-11 Mn-53 3.70 E + 6 a F 0.200 0.100 2.2 3.2 E-10 E-10 1.1 6.0 E-10 E-11 3.4 E-11 E-11 M 0.200 4.6 2.9 E-10 0.100 3.4 E-10 1.0 1.7 E-10 E-E-E-11 10 6.4 5.4 11 Mn-54 312 d F E-9 0.100 0.200 5.2 2.2 4.1 1.5 E E-E-9 9-9 9.9 E-10 8.5 E-10 M 6.2 0.100 0.200 7.5 E-9 E-9 3.8 E-9 2.4 1.9 E-9 E-9 E-9 Mn-56 2.58 1.5 h F 0.100 4.9 0.200 6.9 E-10 E-10 1.4 2.3 E-10 E-10 E 7.8-11 6.4 E-11 M 0.100 0.200 1.1 E-9
3.7 7.8 E-10 E-10 2.4 E-10 1.2 1.5 E-10 E-10 Iron 11 Fe-E-9 52 8.28 h F 0.600 5.2 1.5 0.100 3.6 E-9 E-9 4.9 8.9 E-10 E-10 3.9 E-10 M 0.100 4.1 0.200 5.8 E-9 E-9 1.9 E-9 1.2 E-9 7.4 6.0 E-10 E-10 S 0.020 6.0 E-9 0.010 2.0 4.2 E-9 E-9 1.3-7.7 E-9 E 10 E 6.3-10 Fe-2.70 55 a F 0.600 4.2 E-9 0.100 2.2 3.2 E-9 E-9 1.4 E-9 7.7 9.4 E-10 E-10 M 0.200
1.9 E-9 1.4 0.100 E-9 9.9 E-10 6.2 E-10 3.8 4.4 E-10 E-10 S 0.020 1.0 E 5.0 8.5-9 0.010 E-10 E-10 2.9 1.8 2.0 E-10 E-10 E-10 Fe-59 44.5 0.600 2.1 d F E-8 1.3 0.100 E-8 4.2 7.1 E-9 E-9 2.6 E-9 E-9 M 0.200 1.8 2.2 E-8 1.3 0.100 E-8 5.5 4.6 7.9 E-9 E-9 E-9 3.7 E-9 S 0.020 0.010 1.3 1.7 E-8 E-8 E 5.8-9 5.1 8.1 E-9 E-9 4.0 E-9 Fe-60 1.00 E + 5 a F 3.9 0.100 0.600 4.4 E-7 E-7 3.2 3.5 E-7 E-7 2.9 2.8 E-7 E-7 M 0.200 2.0 1.6 1.7 0.100 E-7 E-7 E-7 E-7 1.4 1.4 1.4 E-7 E-7 S 0.020 0.010 8.8 9.3 E-8 E-8 E-6.7 8 5.2 E-8 4.9 4.9 E-8 E-8 Cobalt 12 Co-55 17.5 h F 0.600 0.100 1.8 2.2 E-9 E 9 5.5-9.0 E-10 E-10 2.7 3.1 E-10 E-10 M E-9 0.200 4.1 1.5 0.100 3.1 E-9 E-9 9.8 5.0 6.1 E E-10-10 E-10 S 0.020 4.6 3.3 0.010 E-9 E-9 1.6 E-9 E-1.1 9 5.3 6.6 E-10 E-10 Co-56 78.7 d F 0.600 0.100 1.0 1.4 E-8 E-8 3.5 E 5.5 E-9-9-9 1.8 2.2 E E-9 M 0.200 0.100 2.1 2.5 E-8 E-8 1.1 E-8 E-9 4.8 5.8 7.4 E-9 E-9 S 0.020 2.9 E-8 0.010 1.5 2.5 E-8 E-8 1.0 E-8 8.0 E-9 6.7 E-9 Co-57 271 d F 0.600 1.5 0.100 1.1 E E-9-9-10-10 2.3 5.6 3.7 E E E-10
1.9 E-10 M 2.8 E-9 0.100 0.200 2.2 1.3 E-9 E-9 8.5 E-10 5.5 6.7 E-10 E-10 S 0.010 3.7 0.020 4.4 E-9 E-9 E-9 1.2 2.3 1.5 E-9 E-9 1.0 E-9 Co-70.8 58 d F 0.600 4.0 E-9 1.6 3.0 0.100 E-9 E-9 1.0 E-9 5.3 6.4 E-10 E-10 M 0.100 0.200 7.3 E-9 6.5 3.5 E-9 E-9 1.6 2.0 2.4 E-9 E-9 E-9 S 0.020 9.0 0.010 4.5 7.5 E-9 E-9 E-9 3.1 2.1 2.6 E-9 E-9 E-9
Co-58 m 9.15 0.600 4.8 h F E-11 0.100 3.6 E-11 1.7 E-11 1.1 E-11 5.9 E-12 5.2 E-12 M 0.100 7.6 0.200 1.1 E-10 E-11 3.8 E-2.4 E-11 11 11 1.3 1.6 E-E-11 S 0.010 9.0 0.020 1.3 E-10 E-11 E-4.5 2.0 3.0 E 11-11 E-11 1.7 E-11 Co-60 0.600 3.0 5.27 a F E-8 2.3 0.100 E-8 1.4 E-8 6.1 8.9 E-9 E-9 E-9 M 0.200 4.2 5.2 E-8 0.100 3.4 2.1 1.5 E E-E-8 8-8 1.2 1.0 E-8 E-8 S 0.020 9.2 E-8 0.010 4.0 5.9 8.6 E-8 E-8 E-8 3.1 3.4 E-8 E-8 Co-60 m 4.4 0.600 0.174 h F E-12 1.5 0.100 2.8 E-12 E-12 6.9 1.0 E-12 8.3 E-13 E-13 M 0.100 4.7 0.200 7.1 E-12 E-12 2.7 E-12 1.5 1.2 1.8 E-E-E-12 12 12 S 0.010 5.1 0.020 7.6 E-12 E-12 2.9 1.7 2.0 E-12 E-12 E-12 1.4 E-12 Co-1.65 0.600 2.1 h F E-10 61 0.100 6.0 E-11 3.8 1.4 E-10 E-11 2.2 E-11
E-11 M 4.0 1.9 0.200 0.100 2.7 E-10 E-10 1.2 E-10 E 8.2-11 E-5.7 11 4.7 4.3 E-10 E-11 S 0.020 0.010 2.8 E-10 1.3 E-10 8.8 E-11 6.1 E-11 5.1 E-11 Co-62 m 1.4 0.600 0.232 h F E-10 0.100 9.5 E-11 E-11 2.8 4.5 E-1.4 1.7 11 E-11 E-11 M 1.3 0.100 0.200 1.9 E-10 E-E-E-11 11 10 6.1 3.8 2.4 E-11 E-11 S 0.020 2.0 2.0 E-10 0.010 1.3 E-10 2.5 4.0 E 6.3 E-11-11 E-11 2.1 E-11
Nickel Ni-56 6.10 d F 0.100 3.3 2.8 E-9 E-9 0.050 9.3 1.5 E-9 E-10 5.8 E-10 E-10 M 4.9 4.9 0.100 E-9 0.050 4.1 2.3 1.5 E E-E-9 9-9 E-1.1 9 8.7 E-10 S 0.020 5.5 4.6 0.010 E E-9-9-9-9 1.3 2.7 1.8 E E E-9 1.0 E-9 Ni-1.50 57 d F E-9 0.050 1.8 2.2 0.100 E-9 5.5 8.9 E-10 E-10 2.5 3.1 E-10 E-10 M 0.100 3.6 2.8 E-9 E-9 0.050 1.5 E-9 E-10 6.2 E 9.5-10
5.0 E-10 S 0.020 0.010 3.0 3.9 E-9 E-9 1.0 1.5 E-9 E-9 5.3 6.6 E-10 E-10 Ni-59 7.50 E + 4 a F 0.050 8.1 0.100 9.6 E-10 E-10 2.8 4.5 E-10 E-10 1.9 1.8 E-10 E-10 M 6.2 0.050 0.100 7.9 E-10 E-10 2.1 3.4 E-10 E-10 1.3 1.4 E-10 E-10 S 0.010 1.5 0.020 1.7 E-9 E-9 9.5 E-10 4.6 5.9 4.4 E E-E-10 10-10 Ni-63 0.100 2.3 96.0 a F E-9 0.050 2.0 E-9 E-1.1 9 6.7 E-10 4.4 4.6 E-10 E-10 M 0.100 0.050 1.9 2.5 E-9 E-1.1 9 E-9 4.8 7.0 E-10 5.3 E-10 E-10 S 0.010 4.3 0.020 4.8 E-9 E-9 2.7 E-9 1.3 1.7 E-9 E-9 1.3 E-9 Ni-2.52 h F 65 0.050 3.0 0.100 4.4 E-10 E-10 8.5 E-11 4.9 1.4 E-10 E-11 4.1 E-11 M 5.2 0.050 0.100 7.7 E-10 E-10 1.6 E-10 1.0 2.4 E-10 E-10 8.5 E-11 S 0.020 0.010 5.5 8.1 E-10 E-10 1.7 2.6 E-10 E-10 1.1 E-10 9.0 E-11 Ni-2.27 d F 0.100 5.7 66 E-9 1.6 0.050 3.8 E-9 E-9 1.0 E-9 4.2 5.1 E-10 E-10 M 0.100 1.3 E-8 0.050 9.4 E-9 4.5 2.9 E-9 E-9 1.6 2.0 E-9 E-9 S 0.020 1.5 E-8 0.010 1.0 E 5.0 E-8-9-9-9 1.8 2.2 3.2 E E E-9 Copper Cu-60 0.387 h F 1.6 2.1 1.000 E-10 0.500 E-7.5 E 10-11 4.6 E-11 2.8 E-11 E-11 M 2.3 3.0 1.000 E-10 2.2 0.500 E-10 1.0 E-10 6.5 E-11 E-11 S 4.0 E-11 3.3 3.1 1.000 E-10 1.1 2.2 0.500 E-10 E-10 3.4 4.2 E E-6.7 11-11 E-11 Cu-3.1 3.41 61 h F 1.000 E-10 0.500 1.3 2.7 E-10 E-10 7.9 E-11 E-11 3.7 4.5 E-11 M 4.9 1.000 E-10 4.4 0.500 E-E-E-10 10 10 2.1 1.4 9.1 E-11 7.4 E-11 S 4.5 5.1 1.000 E-10 0.500 E-10 E 2.2-1.4 E 10-E-E-11 10 9.6 7.8 11 Cu-2.8 E-10 64 12.7 h F 1.000 2.7 E-10 1.2 0.500 E-10
7.6 E-11 4.2 E-11 3.5 E 5.5-11 M 1.000 E-10 0.500 2.7 E-10 1.9 5.4 E-10 E-E-E-10 10 1.4 1.1 10 S 1.000 5.8 5.7 0.500 E-10 E-10 2.9 E-10 2.0 E-10 1.2 1.3 E-10 E-10 Cu-67 2.58 d F 9.5 1.000 E-10 8.0 E-10 3.5 0.500 E-10 1.0 1.2 2.2 E-10 E-10 E-10 M 2.0 2.3 1.000 E-9 0.500 E-9 E-1.1 9 5.5 8.1 E-10 6.9 E-10 E-10 S 2.1 2.5 1.000 E-9 0.500 E-9 1.2 E-9 8.9 E-10
6.1 7.7 E-10 E-10 Zinc Zn-9.26 62 h F 1.7 1.000 E-9 7.7 0.500 1.7 E-9 E-10 4.6 E-10 2.0 2.5 E-10 E-10 M 0.100 3.5 4.5 0.200 E-9 E-9 1.6 E-9 1.0 E 5.0 6.0 E-10-9 E-10 S 0.020

5.1 0.010 3.4 E-E-9 9 9 1.1 1.8 E-E-E-E-10 5.5 6.6 9 10 63 0.635 Zn-h F 2.1 1.000 E-10 1.4 0.500 E 4.0 E-6.5-10 E-11 11 11 2.0 2.4 E-E-11 M 0.100 2.3 3.4 0.200 E-10 E-10 1.0 E-10 E-11 4.2 E 6.6-11 3.5 E-11 S 0.010 2.4 0.020 3.6 E-10 E-10 4.4 1.1 E-10 6.9 E-11 E-11 E 3.7-11 Zn-65 244 d F 0.500 1.0 1.5 1.000 E-8 E-8 2.5 E-5.7 9 3.8 E-9 E-9 2.2 E-9 M
0.200 8.5 E-9 6.5 0.100 E-9 3.7 E-9 2.4 1.9 E-9 E-9 1.6 E-9 S 0.010 6.7 0.020 7.6 E-9 E-9 4.4 E-9 2.9 E-9 2.0 2.4 E-9 E-9 Zn-0.950 69 h F 1.1 1.000 E-10 7.4 0.500 E-E-E-11 11 3.2 2.1 1.1 1.2 E 11-11 E-11 M 1.4 0.100 0.200 2.2 E-10 E-10 4.4 3.1 6.5 E-11 E-11 E-11 E-11 S 0.020 2.6 2.3 1.5 6.9 0.010 E-10 E-10 E-E-E-11 11 11 4.7 3.4 2.8 E-11 Zn-69 m 13.8 h
F 0.500 6.7 6.6 1.000 E-10 E-10 3.0 E-10 1.8 E-10 9.9 E-11 8.2 E-11 M 0.200 2.1 1.5 0.100 9 E-E-E-E-10 10 9 7.5 5.0 3.0 E-10 E-10 S 0.020 2.2 2.4 E-9 8.2 0.010 1.7 E-9 E-10 3.3 5.4 E-10 E-10 2.7 E-10 Zn-71 m 6.2 3.92 h F 1.000 E-10 5.5 0.500 E-10 1.6 2.6 E-10 E-10 9.1 E-11 7.4 E-11 M 0.200 1.3 E-9 0.100 9.4 E-10 2.9 4.6 E-10 E-E-E-10 10 10 1.9 1.5 S 0.020
0.010 1.0 1.4 E-9 E-9 3.1 4.9 E-10 E-10 1.6 2.0 E-10 E-10 Zn-72 1.94 d F 1.000 4.3 3.5 0.500 E-E-9 9 9 9 1.0 1.7 E-E-E-E-10 5.9 4.9 0.200 8.8 10 M E-9 6.5 0.100 E-9 2.3 3.4 E-9 E-9 1.2 1.5 E-9 E-9 S 0.020 9.7 0.010 7.0 E-E-9 9 9 2.4 E-9 1.6-3.6 E E-9 1.3 E-9 Gallium Ga-0.253 65 h F 0.010 1.1 7.3 E-11 3.4 0.001 E-10 E-11 2.1 1.1 1.3 E-11 E-11 E-11
 
 
M E-0.010 1.6 4.8 0.001 1.1 10 E-10 E-11 3.1 2.0 E-11 E-11 1.7 E-11 Ga-66 9.40 h F 2.8 E-9 0.001 0.010 2.0 E-9 E-10 9.2 5.7 3.0 2.5 E E-E-10 10-10 M 0.010 0.001 3.1 4.5 E-9 E-9 1.5 E-9 5.3 4.4 9.2 E-10 E-10 E-10 Ga-67 3.26 d F 0.010 6.4 4.6 E-10 2.2 0.001 E-10 E-E-E-11 10 10 1.4 7.7 6.4 E-11 M 1.4 0.010 E-9 1.0 E 5.0 0.001-9 E-10 3.0 3.6 E-10 E-10 2.4 E-10 Ga-68 0.010 2.9 1.13 h F E-0.001 1.9 8.8 E E-10 10-11 E-11 3.1 5.4 E-11 E 2.6-3.1 4.6 E-10 11 M 0.010 0.001 E-10 9.2 1.4 E-10 E-11 5.9 E-11 4.9 E-11 Ga-70 0.353 0.010 9.5 h F E-11 0.001 6.0 E-11 2.6 E-11 1.6 E-11 1.0 E-11 8.8 E-12 M 1.5 E-10 0.001 9.6 0.010 E-11 E-11 2.8 E-11 1.8 4.3 E-11 1.6 E-11 Ga-14.1 72 h F 2.2 2.9 E-9 0.010 0.001 E-9 1.0 E-9 6.4 E-10 3.6 2.9 E-10 E-10 M 0.001 3.3 4.5 0.010 E-9 E-9 1.6 E-9 1.0 E-9 6.5 E-10 5.3 E-10 Ga-73 4.91 0.010 6.7 h F E-10 0.001 4.5 2.0 E-10 E-10 1.2 E-10 6.4 E-11 5.4 E-11 M 1.2 E-9 0.001 8.4 0.010 E-10 4.0 E-10 1.4 1.7 E 2.6 E-10-10 E-10 Germanium Ge-2.27 66 h F 1.000 1.000 3.5 4.5 E-10 E-10 1.1 1.8 E-10 E-5.4 6.7 E 10-11 E-11 M 1.000 1.000 4.8 6.4 E-10 E-10 2.5 E-E-E-10 10 1.6 1.1 10 9.1 E-11 uploaded 1.000 1.7 67 0.312 h F E-10 1.1 1.000 E-10 E-11 3.1 4.9 E-11 1.5 1.8 E-11 E-11 M 1.6 1.000 1.000 2.5 E-10 E-E-E-11 11 10 7.3 4.6 2.9 2.5 E-11 E-11 Ge-68 288 d F 1.000 1.000 3.8 5.4 E-9 E-9 1.1 1.8 E-9 E-9 E 6.3-10 5.2 E-10 M 1.000 1.000 5.0 6.0 E-8 E-8 1.6 2.0 3.0 E-8 E-8 E-8 1.4 E-8 Ge-1.63 69 d F 1.2 1.000 E-9
9.0 1.000 E-10 4.6 E-10 2.8 E-10 1.3 1.7 E-10 E-10 M 1.000 1.000 E-9 1.4 1.8 E-9 4.9 7.4 E-10 E-10 3.6 2.9 E-10 E-10 Ge-11.8 71 d F 6.0 E-11 1.000 4.3 1.000 E-11 2.0 E-11 6.1 1.1 E-11 E-12 4.8 E-12 M 1.000 1.000 8.6 1.2 E-10 E-11 4.1 E-2.4 E-11 11-11 1.1 1.3 E E-11 Ge-1.38 h 75 F 1.6 1.000 E-10 1.0 E-10 4.3 1.000 E-11 2.8 E-11 1.7 E-11 E-11 M 1.000 2.9 1.5 E-10 1.9 1.000 E-10 E-11 6.1 8.9 4.4 3.6 E E-E-11 11-11 Ge 77 11.3 h F 1.000 1.3-E-E-E-10 9 1.000 9.5 4.7 10 2.9 1.7 1.4 E E-E-10 10-10 M 1.7 1.000 1.000 2.3 E-9 E-9 E-8.8 10 6.0 E-10 3.7 4.5 E-10 E-10 Ge-1.45 h 78 F 1.000 1.000 2.9 4.3 E-10 E-10 8.9 1.4 E-10 E-4.5 5.5 E 11-11 E-11 M 7.3 1.000 E-10 2.5 5.0 1.000 E-10 E-10 1.2 1.6 E-10 E-10 E 9.5-11 Arsenic As-69
2.1 0.253 h M 1.000 E-10 6.3 1.4 0.500 E-10 E-11 2.5 4.0 E-11 E-11 E 2.1-11 As-70 1.000 5.7 0.876 h M E-10 2.1 0.500 4.3 E-10 E-10 1.3 E-6.7 8.3 E 10-11 E-11 As-71 d 2.70 M 0.500 1.9 2.2 1.000 E-9 E-9 1.0 E 5.0 E E 6.8-10-9-10-10 As-72 1.08 4.0 E d M 5.9 1.000 E-9 5.7 0.500 E-9 2.7 1.1 1.7 E-9 E-9 E-9 73 80.3 9.0 E-10 As-d 1.000 E-9 0.500 5.4 4.0 E-9 E-9 1.2 2.3 1.5 E-9 E-9 1.0 E-9 As-74 d 17.8 M 1.1 1.000 E-8 8.4 0.500 E-9 4.7 E 3.3-9 E-9 2.1 2.6 E-9 E-9 As-1.10 d 76 M 5.1 1.000 E-9 4.6 0.500 E-9 1.4 2.2 E-9 E-9 7.4 8.8 E-10 E-10 As-1.62 d 77 M 2.2 1.000 E-9 1.7 0.500 E-9 E-8.9 10 6.2 E-10 5.0 3.9 E E-10-10 As-1.51 78 h 5.8 8.0 M 1.000 E-10 0.500 E-10 2.7 1.1 1.7 E-10 E-10 E-10 8.9 E-11 Selenium Se-70 0.683 h F 0.800 3.0 3.9 1.000 E-10 E-10 1.5 5.1 9.0 E E-10-11 E-11 4.2 E-11 M 0.200 0.100 4.7 6.5 E-10 E-10 1.4 2.3 E-10 E-E-E-11 7.3 8.9 10 11 S 0.020 6.8 E-10 0.010 4.8 2.3 1.5 E E-E-10 10-10 9.4 E-11 7.6 E-11 Se-7.15 73 h F 7.7 E-10 0.800 6.5 1.000 E-10 2.1 3.3 E-10 E-10 1.0 E-10 8.0 E-11 M 1.6 0.200 E-9 1.2 0.100 E-9 5.9 E-10 3.8 E-10 2.4 E-10 E-10 S 0.020 1.9 1.8 1.3 E-9 E-9 0.010 4.0 E 6.3 E-10-10-10 2.1 2.6 E E-10 Se-0.650 73 m h F 9.3 1.000 E-11 0.800 7.2 E-11 3.5 E-11 1.1 2.3 E-11 E-11 9.2 E-12 M 1.8 E-10 0.100 0.200 1.3 E-10 6.1 E-11 3.9 E-11 2.5 E-11 E-11 S 0.020 1.9 2.0 E-10 0.010 1.3 E-10 E-6.5 4.1 2.6 E E-11 11-11-11 Se-75 120 E 2.2 d F 7.8 1.000 E-9 0.800 6.0 E-9 3.4 E-9 2.5 E-9
E-9 1.2 1.0 E-9 M 0.200 0.100 4.5 5.4 E-9 E-9 1.3 1.7 2.5 E-9 E-9 E-1.1 9 E-9 S 0.010 4.7 0.020 5.6 E-9 E-9 2.9 E-9 1.6 2.0 E-9 E-9 1.3 E-9 Se-79 6.50 E + 4 a F 1.6 1.000 E-8 1.3 0.800 E-8 5.6 7.7 E-9 E-9 1.5 1.1 E-9 E-9 M 0.200 1.4 1.1 0.100 E-8 E-8 4.9 6.9 E-9 E-9 3.3 E-9 E-9 S 0.020 2.6 2.3 E-8 0.010 2.0 E-8 1.3 E-8 8.7 E-9
E 6.8-7.6 E-9 9 Se-E-11 0.308 81 h F 1.000 8.6 5.4 0.800 2.3 1.5 E E-E-11 11-11 9.2 8.0 E-12 E-12 M 0.200 1.3 E-10 8.5 E-11 3.8 0.100 E-11 1.6 1.4 2.5 E-11 E-11 E-11 S 0.010 8.9 0.020 1.4 E-10 E-11 3.9 E-11 E-11 1.7 E 2.6-11 1.5 E-11 Se-0.954 81 m h F 1.000 0.800 1.2 1.8 E-10 E-10 1.9 5.4 E-11 3.4 E-11 E-11 E-11 M 1.6 0.200 3.8 E-10 0.100 2.5 1.2 E-10 8.0 E-10 E-11 4.7 5.8 E-11 E-11 S 0.020 4.1 0.010 2.7 E-E-10 10 6.2 1.3 E-10 8.5 E-11 E-11 5.1 E-11 Se-0.375 83 h F 1.7 1.000 E-10 0.800 1.2 3.6 5.8 E 10-11 E-E-E-E-11 11 11 1.8 2.1 M 0.100 1.9 0.200 2.7 E-10 E-10 9.2 E-11 5.9 E-11 3.9 E-11 3.2 E-11 S 0.020 2.8 E-10 0.010 2.0 E-10 9.6 6.2 E E-11-11 11-11 E-4.1 3.4 E Bromine Br-0.422 74 h F 1.000 1.000 1.8 2.5 E-10 E-10 8.6 E-11 2.6 5.3 E-11 3.2 E-11 E-11 M 2.5 3.6 E-1.000 10 1.000 E-10 E-10 7.5 E 1.2-4.6 E 11-11 3.8 E-11 Br-74 m 4.0 E-10 0.691 h F 1.000 1.000 1.3 2.8 E-10 E-10 E 8.1-11 E 4.8-11 3.9 E-11 M 1.000 1.000 4.1 5.9 E-10 E-10 1.9 E-1.2 E-10 10 6.2 E 7.5 E-11-11 Br-1.63 h 75 F 1.000 1.000 2.1 2.9 E-10 E-10 9.7 E-11 E-2.9 5.9 3.5 E 11-11 E-11 M 1.000 1.000 3.1 4.5 E-10 E-10
9.7 1.5 E-10 E-11 6.5 E-11 E-11 Br-76 16.2 5.3 h F 2.2 1.000 E-9 1.7 1.000 E-9 8.4 E-10 5.1 E-10 3.0 E-10 2.4 E-10 M 1.000 1.000 2.3 3.0 E-9 E-9 1.2 E-9 7.5 E-10 5.0 E-10 4.1 E-10 Br-2.33 77 d F E-10 1.000 1.000 5.3 4.4 E-10 2.2 1.3 E-E-10 10 6.2 7.7 E-11 E-11 M 5.1 1.000 1.000 6.3 E-10 E-10 E-2.7 1.1 10 1.6 E-10 E-10 E-11 Br-80 0.290 8.4 h F 7.1 1.000 E-11 11 1.000 4.4 1.8 E-E-E-E-11 11 1.2 6.9 12 5.9 E-12 M 6.5 1.000 1.000 1.1 E-10 E-11 2.8 E-11 1.1 1.8 E-11 E-11 9.4 E-12 Br-80 m 4.42 h F 4.3 E-10 1.000 1.000 2.8 E-10 1.2 E-10 7.2 E-11 4.0 E-11 3.3 E-11 M 4.5 1.000 1.000 6.8 E-10 E-E-E-10 10 10 2.1 1.4 9.3 E-11 7.6 E-11 Br-82 1.47 d F 1.000 1.000 2.2 2.7 E-9 E-9 1.2 E-9 7.0 E-10 4.2 E-10 3.5 E-10 M 1.000
3.8 E-9 3.0 1.000 E-9 1.7 E-9 E-1.1 9 6.3 7.9 E-10 E-10 Br-2.39 83 h F 1.000 1.000 1.1 1.7 E-10 E-10 E-11 3.0 E 4.7-11 1.6 1.8 E-11 E-11 M 3.5 E-1.000 10 1.000 1.1 2.3 E-10 E-10 7.7 E-11 E-11 4.8 5.9 E-11 Br-0.530 84 h F 2.4 E-10 1.000 1.000 1.6 4.4 E 7.1 E-E-10 11-11 E 2.6-3.7-11 M 1.000 2.2 E 11 E-10 1.000 2.4 E-10 4.4 1.1 E-10 6.9 E-11 E-11 E 3.7-11 Rubidium
 
 
 
 
 
 
 
 
 
 
RB-79 0.382 h F 1.6 E-10 1.000 1.000 1.1 5.0 E-10 E-11 3.2 E-11 1.9 E-11 E-11 Rb-81 4.58 1.6 h F 1.000 1.000 2.5 3.2 E-10 E-10 4.2 7.1 1.2 E-10 E-11 E-11 3.4 E-11 Rb-81 m 6.2 E 0.533 h F 1.000-1.000 4.6 E 11-11 E 2.2-1.4 E 11-11 8.5 E-12 7.0 E-12 Rb-82 m 6.20 h F 1.000 1.000 7.3 8.6 E-10 E-E-E-10 10 10 3.9 1.4 1.1 2.3 E-10 E-10 Rb-86.2 83 d F 1.000 1.000 4.9 E-9
3.8 E-9 2.0 E-9 1.3 E-9 6.9 7.9 E-10 E-10 Rb-32.8 84 d F 1.000 1.000 6.4 8.6 E-9 E-9 1.2 2.0 3.1 E-9 E-9 E-9 1.0 E-9 Rb-18.7 86 d F 1.2 1.000 E-8 7.7 1.000 E-9 3.4 2.0 E-9 E-9 E-1.1 9 9.3 E-10 Rb-87 4.70 E + 10 a F 4.1 1.000 1.000 6.0 E-9 E-9 1.1 1.8 E-9 E-9 5.0 6.0 E-10 E-10 Rb-88 0.297 h F 1.000 1.000 1.2 1.9 E-10 E-10 5.2 3.2 E E-11-11
1.9 E-11 E-11 Rb-89 0.253 1.6 h F 1.000 1.000 9.3 1.4 E-10 E-E-E-11 11 4.3 2.7 1.6 1.4 E-E-11 11 11 13 Strontium Sr-80 0.600 7.8 1.67 h F E-10 0.300 2.4 5.4 E-10 E-E-E-11 10 10 1.4 7.9 7.1 E-11 M 0.100 9.0 0.200 1.4 E-9 E-10 4.1 1.5 2.5 E-10 E-10 E-10 E-10 S 0.020 1.5 1.3 E-9 4.3 0.010 9.4 E-10 E-10 1.4 1.6 2.7 E-10 E-10 E-10 Sr-81 0.600 2.1 0.425 h F E-10 0.300
6.7 4.1 1.5 E-10 E-11 E-11 2.1 2.4 E-11 E-11 M 0.100 2.2 3.3 0.200 E-10 E-10 1.0 E-10 E-11 4.2 E 6.6-11 E-11 S 0.020 3.5 3.4 2.3 0.010 E-10 E-10 4.4 1.1 E-10 6.9 E-11 E-11 3.7 E-11 Sr-82 25.0 0.600 2.8 E-8 0.300 1.5 d F E-8 3.2 4.6 6.6 E-9 E-9 E-9 2.1 E-9 M 5.5 0.200 E-8 0.100 4.0 E-8 1.0 1.4 2.1 E-8 E-8 E-8 E-9 S 0.020 6.1 8.9 E-8 0.010 4.6 E-8
1.7 2.5 E-8 E-8 1.1 1.2 E-8 E-8 Sr-83 1.35 d F E-9 1.4 1.1 0.300 0.600 E-9 E-10 3.4 E 5.5-2.0 1.6 E E-10 10-10 M 0.200 0.100 1.9 2.5 E-9 E-9 9.5 10 6.0 E-E-E-E-10 10 10 3.9 3.1 2.8 E-9 S 0.020 0.010 1.0 2.0 E-9 E-9 6.5 E-10 3.4 4.2 E-10 E-10 Sr-85 64.8 d F 0.600 4.4 1.1 2.3 0.300 E-9 E-9 E-9 9.6 8.3 E-10 E-10 3.8 E-10 M 0.100 3.1 0.200 4.3 E-9 E-9 1.2 1.8 E-9 E-9 6.4 8.8 E-10 E-10 S 0.010 3.7 0.020 4.4 E-9 E-9 E-9 1.3 2.2 1.0 E-9 E-9 8.1 E-10 Sr-85 m 2.4 E-11 0.300 1.16 h F 0.600 1.9 E-11 9.6 E-12 6.0 E-12 3.7 E-12 2.9 E-12 M 2.5 3.1 0.200 E-11 0.100 E-11 1.3 E-11 8.0 E-12 5.1 E-12-12 S 0.020 3.2 4.1 E E-E-E-11 11 0.010 2.6 1.3 11 5.4 8.3 E-12 E-12 4.3 E-12 Sr-87 m 2.80 h F E-11 0.300 0.600 9.7
2.3 3.8 7.8 E-11 E-11 E-11

1.1 1.3 E-11 E-11 M 0.200 0.100 1.2 1.6 E-10 E-10 E 5.9-11 3.8 E-11 2.5 E-11 E-11 S 0.020 1.7 2.0 E-10 10 6.2 0.010 1.2 E-E-E-E-11 11 11 2.1 2.6 4.0 E-11 Sr-89 50.5 0.600 1.5 d F E-8 0.300 7.3 E-9 3.2 2.3 E-E-9 9 9 1.0 1.7 E-E-9 M 3.3 0.200 E-8 2.4 0.100 E-8 1.3 E-8 7.3 9.1 E-9 E-9 6.1 E-9 S 0.020 0.010 3.0 3.9 E-8 E-8 1.7 E-8 1.2 E-8 9.3 E-9
7.9 E-9 Sr-90 29.1 a F 0.600 1.3 3.1 0.300 5.2 E-7 E-8 E-8 4.1 5.3 E-8 E-8 2.4 E-8 M 1.5 0.100 1.1 0.200 E-7 E-7 E-6.5 8 5.1 E-8 3.6 5.0 E-8 E-8 S 0.010 4.0 4.2 0.020 E-7 E-7 E-7 2.7 1.6 1.6 1.8 E-7 E-7 E-7 Sr-91 9.50 h F E-9 1.4 1.1 0.300 0.600 E-9 5.2 E-10 1.6 1.7 3.1 E-10 E-10 E-10 M 2.2 0.100 0.200 3.1 E-9 E-9 6.9 E-10 4.4 1.1 E-9 E-10 10 S 0.020 3.5 3.7 E-E-E-E-9 1.2 2.5 0.010 9 9 10 4.9 7.7 E-E-E-10 Sr-92 10 4.1 2.71 h F 7.1 0.300 0.600 9.0 E-10 E-10 1.0 2.0 3.3 E-10 E-10 E-10 E-11 M 0.200 9.8 1.9 E-9 1.4 0.100 E-9 6.5 E-10 4.1 2.5 E-10 E-10 2.1 2.2 E-9 E-10 S 0.020 0.010 7.0 1.5 E-9 E-10 4.5 2.3 2.7 E-10 E-10 E-10 Yttrium Y-86 h 14.7 M 0.001 3.7 E-9 1.0 E-4 E-9 2.9 1.5 E-9
5.6 9.3 E-10 E-10 4.5 E-10 S 0.001 3.8 E-9 1.0 1.5 3.0 E-4 E-9 E-9 4.7 5.8 9.6 E-10 E-10 E-10 Y-86 0.001 0.800 h M 2.2 1.0 1.7 E-10 E-4 E-10 11 5.6 8.7 E-E-E-E-11 11 11 3.4 0.001 S 2.3 2.7 E-10 4 1.8 1.0 E-E-E-E-11 10 9.0 5.7 2.8 3.5 E 11-11 E-11 Y-87 d 3.35 M 0.001 2.7 E-9 1.0 E-4 E-2.1 1.1 9 E-9 7.0 E-E-E-10 10 4.7 3.7 10 S 0.001 2.8 E-9
E-4 2.2 1.0 1.1 7.3 9 E-9 E-E-E-E-10 10 5.0 3.9 10 Y-88 107 d M 0.001 1.9 1.0 E-4 E-8 1.6 E-8 1.0 E-8 4.9 6.7 E-9 E-9 4.1 E-9 S 0.001 2.0 1.0 E-4 E-8 1.7 9.8 E-8 E-9 5.4 4.4 6.6 E-9 E-9 E-9 Y-90 d 2.67 M 1.3 1.0 E-4 E-8 0.001 8.4 E-9 4.0 E-9 1.4 1.7 E 2.6-9 E-9 E-9 S 0.001 1.3 1.0 E-4 E-8 8.8 E-9 2.7 1.8 4.2 E-9 E-9 E-9
1.5 E-9 Y-90 m 0.001 3.19 h M 7.2 5.7 1.0 E-10 E-4 E-10 2.8 E-10 1.1 1.8 E-10 E-9.5 E 10-11 S 0.001 7.5 E-10 1.0 E-4 6.0 E-E-E-10 10 10 2.9 1.9 1.0 1.2 E-10 E-10 Y-91 d M 0.001 3.9 58.5 E-8 3.0 1.0 E-4 E-8 1.6 E-8 1.1 E-8 7.1 8.4 E-9 E-9 S 0.001 1.0 E-4 3.4 4.3 E-8 E-8 1.3-1.9 1.0 E E E-8 8-8 8.9 E-9 Y-91 0.828 h M 1.0 7.0 0.001 E-11 E-4 5.5 2.9 1.8 E E-E-11 11-11 1.0 1.2 E-11 E-11 S 0.001 7.4 5.9 1.0 E-11 E-4 E-11 3.1 2.0 E-E-E-11 11 11 1.4 1.1 E-11 Y-92 0.001 1.8 1.0 3.54 h M E-9 E-4 1.2 E-9 2.0 3.3 5.3 E-10 E-10 E-10 1.7 1.9 0.001 S E-10 E-9 1.2 1.0 E-4 E-9 3.5 E 5.5 E-10-10-10 1.8 2.1 E E-10 Y-10.1 93 h M 0.001 4.4 E-9 1.3 1.0 E-4 2.9 E-9 E-9 8.1 4.7 E-10 4.0 E-10 E-10 S 0.001 4.6 E-9 1.0 3.0 E-4 E-9 1.4 E-9 5.0 8.5 E-10 E-10 4.2 E-10 Y-94 0.001 2.8 E-10 1.0 0.318 h M E-4 1.8 E-10 E 8.1-11 5.0 E-11 2.7 3.1 E-11 E-11 S 2.9 0.001 E-10 E-4 1.9 1.0 E-E-E-11 10 8.4 5.2 2.8 3.3 E 11-11 E-11 Y-0.178 95 h M 1.0 1.5 0.001 E-10 E-E-E-11 4 9.8 4.4 2.8 1.8 E-E-11 11 11 11 S 0.001 1.6 1.5 E-E-10 1.0 1.0 E-4 E-10 4.5 E-11 2.9 1.8 E-11 E-11 1.6 E-11 Zirconium Zr-16.5 h F E-9 86 0.020 2.4 1.9 0.002 E-9 9.5 E-10 5.9 E-10 3.4 2.7 E-10 E-10 M 0.020 3.4 E-9 0.002 2.6 E-9 1.3 E-9 4.2 5.2 8.4 E-10 E-10 E-10 S 0.020 0.002 2.7 3.5 E-9 E-9 1.4 8.7 E E-9-10-10 4.3 5.4 E E-10 Zr-83.4 d F 0.020 6.9 88 E-9 0.002 8.3 E-9 5.6 E-9 4.7 E-9 3.6 E-9 3.5 E-9 M 8.5 7.8 0.020 0.002 E-9 E-9 5.1 E-9 3.0 3.6 E-9 E-9 E-9 S 0.020 2.6 1.3 E-8 1.2 0.002 E-8 E-7.7 4.3 5.2 E 9-9 E-9 3.6 E-9 Zr-3.27 89 d F E 2.6-9 0.002 0.020 2.0 E-9 9.9 E-10 6.1 3.6 2.9 E E-E-10 10-10 M 2.8 E-0.002 0.020 3.7 E-9 9 9 9.6 1.5 E-E-E-E-10 10 10 6.5 5.2 S 0.020 0.002 2.9 3.9 E-9 E-9 1.0 1.5 E-9 E-9 E 6.8-10 5.5 E-10 Zr-93 1.53 E + 6 a F 0.020 3.5 E-9 4.8 0.002 E-9 5.3 1.8 9.7 E-9 E-9 E-8 2.5 E-8 M 3.3 3.1 0.020 0.002 E-9 E-9 E-9 4.1 2.8 E-9 7.5 E-9 1.0 E-8 S 0.020 0.002 6.4 7.0 E-9 E-9 3.3 4.5 E-9 E-9 3.3 3.3 E-9 E-9 Zr-95 1.2 0.020 64.0 d F E-8 1.1 0.002 E-8 6.4 4.2 E-9 E-9 2.5 2.8 E-9 E-9 M 1.6 2.0 E-8 0.020 0.002 E-8 9.7 E-9 4.8 5.9 E 6.8-9 E-9 E-9 S 0.020 0.002 2.4 E-8
1.9 E-8 1.2 E-8 E-8.3 5.9 7.3 9 E-9 E-9 Zr-97 16.9 0.020 5.0 h F E-9 0.002 3.4 1.5 E-9 E-9 4.8 9.1 E-10 E-10 3.9 E-10 M 0.020 7.8 E-9 0.002 5.3 2.8 E-E-9 9 9 1.1 1.8 E-E-E-10 S 0.020 8.2 9.2 9 E-9 2.9 0.002 5.6 E-9 E-9 1.9 E-9 1.2 E-9 E-8.9 10 Niobium Nb-88 0.238 0.020 1.8 E-10 0.010 1.3 h F E-10 E 6.3-11 3.9 E-2.4 1.9 E E-11 11-11 0.020 M 2.5 E-10 0.010 1.8 E-10 8.5 E-E-E-11 11 11 5.3 3.3 2.7 E-11 S 0.020 0.010 1.8 2.6 E-10 E-10 8.7 E-11 E-11 3.5 E 5.5-11 2.8 E-11 Nb-2.03 89 h F 0.020 7.0 E-10 0.010 4.8 E-10 2.2 1.3 E-10 7.4 E E-10-11 E-11 M 0.020 6.1 1.1 0.010 7.6 E-9 E-10 3.6 E-10 1.4 1.1 2.2 E-E-E-10 10 10 S 0.010 7.9 0.020 1.2 E-9 E-E-E-10 10 10 3.7 2.3 1.5 1.2 E-10 E-10 Nb-0.020 1.10 89 h F
4.0 E-10 0.010 1.4 2.9 E-10 E-E-E-11 11 10 8.3 4.8 3.9 E-11 M 6.2 E-10 0.010 4.3 0.020 E-10 2.1 E-10 1.3 E-10 E 8.2 S 0.020 6.4 6.8-11 E-11 E-10 2.1 0.010 4.4 E-10 E-10 1.4 8.6 7.1 E E-E-10 11-11 Nb-90 14.6 h F 0.010 2.7 3.5 0.020 E-9 E-9 1.3 E-9 4.7 8.2 E-10 E-10 3.8 E-10 M 5.1 0.020 0.010 3.9 E-E-9 9 9 1.3-1.9 E E-E-E 6.3-10 10 9 7.8 S 0.020 5.3 E-9
0.010 4.0 E-9 2.0 E-9 1.3 E-9 E 8.1-10 6.6 E-10 Nb-93 m 1.8 0.020 13.6 a F E-9 1.4 0.010 E-9 7.0 E-10 4.4 E-10 2.2 2.7 E-10 E-10 M 2.4 0.010 0.020 3.1 E-9 E-9 1.3 E-9 5.9 8.2 E-10 E-10 E-10 S 0.020 7.4 E 5.1-6.5 0.010 4.0 E-E-9 9 9 9 9 1.8 1.9 2.5 E-E-E-9 Nb-94 2.03 E + 4 E-8 0.010 2.7 3.1 0.020 a F E-8 1.5 1.0 E-8 E-8 6.7 5.8 E-9 E-9 M
0.020 4.3 E-8 0.010 3.7 E-8 2.3 E-8 1.1 1.3 1.6 E-8 E-8 E-8 S 0.020 0.010 1.2 1.2 E-7 E-7 E 5.8 8.3 E-8-8-8 4.9 5.2 E E-8 Nb-95 0.020 4.1 35.1 d F E-9 1.6 0.010 3.1 E-9 E-9 1.2 E-9 5.7 7.5 E-10 E-10 M 5.2 0.010 0.020 6.8 E-9 E-9 1.9 2.2 3.1 E-9 E-9 E-9 1.5 E-9 S 0.010 5.9 0.020 7.7 E-9 E-9 2.5 3.6 E-9 E-9 1.8 2.2 E-9 E-9 Nb-95 m 3.61 d
F 2.3 0.020 E-9 1.6 0.010 E-9 7.0 E-10 4.2 E-10 2.0 2.4 E-10 E-10 M 0.010 3.1 0.020 4.3 E-9 E-9 1.7 1.2 1.0 E E-E-9 9-9-10 S 0.020 4.6 7.9 E E-9 0.010 3.4 E-9 1.9 E-9 1.3 1.1 E-9 E-9 8.8 E-10 Nb-96 0.020 3.1 23.3 h F E-9 1.2 0.010 2.4 E-9 E-9 7.3 E-10 3.4 4.2 E-10 E-10 M 0.020 4.7 0.010 3.6 E-9 E-9 1.2 1.8 E-9 E-7.8 E 9-10 E 6.3-10 S 0.020
0.010 3.7 4.9 E-9 E-9 1.9 E-9 1.2 E-9 6.6 8.3 E-10 E-10 Nb-1.20 h F 97 0.010 1.5 2.2 0.020 E-10 E-10 E 6.8-11 4.2 E-11 E-11 2.1 2.5 E-11 M 2.5 0.010 0.020 3.7 E-10 E-10 1.2 E-10 E-7.7 4.3 5.2 E 11-11 E-11 S 0.020 0.010 2.6 3.8 E-10 E-10 5.5 8.1 1.2 E-10 E-11 E-11 E-11 Nb-98 0.858 4.5 h F 0.020 0.010 2.4 3.4 E-10 E-10 6.9 1.1 E-10 E-11 4.1 E-11 3.3 E-11 M
0.020 5.2 E-10 0.010 3.6 E-10 1.7 E-10 E 6.8-11 5.6 1.1 E-10 E-11 S 0.010 3.7 0.020 5.3 E-10 E-10 1.1 1.8 E-10 E-E-E 5.8-11 11 10 7.1 Molybdenum Mo-90 5.67 h F E-9 0.800 1.1 1.2 1.000 E-9 5.3 1.9 3.2 E-10 E-10 E-10 1.5 E-10 M 2.0 0.100 0.200 2.6 E-9 E-9 6.5 9.9 E-10 E-10 3.4 4.2 E-10 E-10 S 0.020 2.8 E-9 0.010 2.1 1.1 E-9 E-9 6.9 E-10 4.5 E-10 3.6 E-10 Mo-93 3.50 E + 3 a F E 2.6-3.1 1.000 E-9 0.800 9 1.7 E-9 1.3 1.1 1.0 E E-E-9 9-9 M-9 0.100 1.8 2.2 0.200 E E-E-E-1.1 9 9 7.9 10 5.9 6.6 E-10 E-10 S 0.010 5.8 0.020 6.0 E-9 E-9 4.0 E-9 2.8 E-9 2.3 2.4 E-9 E-9 Mo-93 m 1.000 7.3 6.85 h F E-10 3.3 0.800 6.4 E-10 E-10 1.2 2.0 E-10 E-10 9.6 E-11 M 1.2 E-9 0.100 9.7 0.200 E-10 5.0 E-E-E-10 10 10 3.2 2.0 1.6 E-10 S 0.020 1.3 E-9 0.010 1.0 E-9 5.2 3.4 2.1 E E-E-10 10-10-10 Mo-99 2.75 1.7 E d F 2.3 1.000 E-9 7.7 0.800 1.7 E-9 E-10 2.6 E-10 2.2 4.7 E-10 E-10 M 0.200 6.0 E-9 0.100 4.4 E-9 2.2 1.1 1.56 E-9 E-9 E-9 E-8.9 10 S 0.020 6.9 4.8 0.010 E E-9-9-9-9 1.2 2.4 1.7 E E E-9 9.9 E-10 Mo-0.244 1.000 1.4 h F E 101-10 0.800 9.7 E-11 E-11 4.4 2.8 E-11 1.7 E-11
1.4 E-11 M 2.2 0.200 E-10 7.0 1.5 0.100 E-10 E-11 3.0 2.5 4.5 E-11 E-11 E-11 S 0.020 0.010 1.6 2.3 E-10 E-10 3.1 7.2 E-11 4.7 E-11 E-11 2.6 E-11 Technetium Tc-2.75 93 h F 0.800 2.1 2.4 1.000 E-10 E-E-E-10 10 1.1 6.7 11 4.0 E-11 3.2 E-11 M 0.200 0.100 2.3 2.7 E-10 E-10 1.2 E-10 4.4 3.5-7.5 E 11 E-11 E-11 S 0.020 2.8 E-10 0.010 1.2 2.3 E-10 E-10 7.6 E-11 E-11 3.5 4.5 E-11 Tc-93 m 1.2 0.725 h F 1.000 E-E-E-11 10 0.800 9.8 4.9 11 2.9 1.8 E-11 E-11 E-11 M 1.4 1.4 1.1 10 0.100 0.200 E-E-E-E-11 10 5.4 3.4 1.7 2.1 E 11-11 E-11 S 0.020 1.4 1.1 0.010 E-10 E-10 5.4 E-11 E-3.4 1.7 2.1 E 11-11 E-11 Tc-4.88 94 h F 8.9 1.000 E-10 0.800 7.5 E-10 3.9 E-10 1.4 1.1 2.3 E-10 E-10 E-10 M 0.100 8.1 0.200 9.8 E-10 E-10 2.6 4.2 E-10 E-10 1.6 E-10
1.2 E-10 S 0.020 9.9 E-10 4.3 8.2 0.010 E-10 E-10 1.3 2.7 1.6 E-10 E-10 E-10 Tc-94 m 0.867 0.800 3.4 4.8 h F 1.000 E-10 E-E-E-10 10 1.6 8.6 5.2 E 11-11-11 M 0.200 4.4 4.1 E E-E-E-10 10 0.100 3.0 1.4 8.8 10 E-4.5 5.5 E 11-11 E-11 S 0.010 3.0 0.020 4.3 E-10 E-E-E-10 10 1.4 8.8 5.6 4.6 E E-11 11-11 Tc-20.0 95 h F 7.5 E-10 0.800 6.3 1.000 E-10 1.2 2.0 3.3 E-10 E-10 E-10 9.6 8.3 E-10 E-11 M 0.200 0.100 6.9 E-10 3.6 E-10 2.2 1.3 1.0 E E-E-10 10-10 S 0.010 7.0 0.020 8.5 E-10 E-10 3.6 2.3 10 E-E-E-E-10 10 1.4 1.1 10 Tc-95 m 2.4 61.0 d F 1.000 E-9 9.3 0.800 1.8 E-9 E-10 5.7 3.6 2.9 E E-E-10 10-10 M 4.9 0.200 0.100 4.0 E E-9-9-9-9 1.1 2.3 1.5 E E E-9 E-8.8 10 S 0.020 0.010 5.0 6.0 E-9 E-9 2.7 E-9 1.2 1.5 1.8 E-9 E-9 E-9 Tc-96 4.28 d F E-9 0.800 3.4 4.2 1.000 E-9 1.1 1.8 E-9 E-9 7.0 E-10 5.7 E-10 M 0.200 4.7 3.9 2.1 0.100 E-9 E-9 E-9 1.3 E-9 8.6 E-10 E-10 S 0.020 4.8 E 6.8-9 0.010 3.9 2.1 E-9 E-9 1.4 E-9 E-8.9 10 7.0 E-10 Tc-0.858 96 h F 4.1 5.3 1.000 E-11 0.800 E-11 E 2.1-11 1.3 E-11 7.7 E-12 6.2 E-12 M 5.6 0.200 E-11 0.100 4.4 E-11 2.3 E-11 1.4 E-11 9.3 E-12
7.4 E-12 S 0.020 5.7 0.010 4.4 E-11 E-11 E-2.3 1.5 E 11-11 9.5 E-12 7.5 E-12 Tc-97 2.60 E + 6 a F 5.2 E-10 0.800 3.7 1.000 E-10 1.7 E-10 9.4 E-11 E-11 4.3 5.6 E-11 M 0.100 1.0 1.2 0.200 E-9 E-9 E-5.7 3.6 2.8 E-E-10 10 10 2.2 E-10 S 0.020 5.0 E-9 4.8 0.010 E-9 2.2 3.3 E-9 E-9 1.9 1.8 E-9 E-9 Tc-97 m 87.0 d F 2.3 3.4 E-9 0.800 1.000 E-9 5.6 9.8 E-10 E-10 3.0 E-10 E-10 M 0.200 1.3 2.7 E-8 0.100 1.0 E-8 6.1 E-9 4.4 4.1 E-9 E-9 1.6-3.2 E 9 S 0.020 E-8 1.3 E-8 0.010 7.8 E 9-5.7 5.2 E E-9-9-9 Tc-98 4.20 4.1 E E + 6 a F 1.000 1.0 E-8 0.800

3.2 E 6.8 E-9-9-9-9 1.2 E 9.7 1.9 E E-10 M 0.200 0.100 2.9 3.5 E-8 E-8 1.7 1.2 1.0 E E-E-8 8-8 8.3 E-9 S 0.020 0.010 1.1 1.1 E-7 E-7 E-7.6 8 4.8 4.5 5.4 E-8 E-8 E-8 Tc-99 2.13 E + 5 a F 2.5 4.0 E-9 0.800 1.000 E-9 1.0 E-9 3.6 2.9 5.9 E-10 E-10 E-10 M E-8 1.3 1.7 0.200 0.100 E-8 8.0 E-9 E-5.7 9 5.0 E-9 E-9 S 0.020 4.1 4.0 E-8 0.010
3.7 E-8 E-8 2.4 1.7 1.3 1.5 E-8 E-8 E-8 1.2 6.02 Tc-99 m h F 1.000 E-E-E-11 10 0.800 8.7 4.1 1.5 E 2.4 E-11 11-11-11 M 0.200 1.3 1.2 E E-E-E-11 10 0.100 9.9 5.1 3.4 E 11-11-11 1.9 2.4 E E-11 S 0.020 1.3 1.0 E-10 E-10 0.010 5.2 E-11 3.5 2.5 2.0 E E-E-11 11-11 Tc-101 h F 1.000 8.5 E-11 0.800 0.237 5.6 1.6 2.5 E-11 E-11 E-11 8.2 9.7 E-12 E-12 M 1.1 0.200 E-10
0.100 2.1 7.1 E-11 3.2 E-11 E-11 1.2 1.4 E-11 E-11 S 0.020 1.1 7.3 0.010 E E-10-11 11-2.2 3.3 E E-E-E-11 1.2 1.4 11 11 Tc 104 0.303 h F 1.000 2.7-E-10 0.800 1.8 E-10 8.0 E-11 4.6 E-11 E-11 M 2.8 E-11 2.3 0.200 0.100 1.9 2.9 E-10 E-10 8.6 5.4 E-11 E-11 3.3 2.8 E-11 E-11 S 0.020 2.9 E-10 0.010 1.9 5.4 E 8.7 E-E-10 11-11 3.4 E-11 2.9 E-11 Ruthenium Ru-0.863 94 h F 0.100
0.050 1.9 2.5 E-10 E-E-E-11 10 9.0 5.4 2.5 3.1 E 11-11 E-11 M 0.100 3.8 2.8 E-10 E-10 0.050 8.4 1.3 E-10 E-11 E-11 4.2 5.2 E-11 S 0.020 4.0 E-10 0.010 1.4 2.9 E-10 E-10 4.4 5.4 8.7 E-11 E-11 E-11 Ru-97 0.100 5.5 2.90 d F E-10 0.050 4.4 E-10 2.2 1.3 E-E-10 10 6.2 7.7 E-11 E-11 M 0.050 6.1 0.100 7.7 E-10 E-10 1.3 3.1 2.0 E-10 E-10 E-10 1.0 E-10 S 0.020 8.1 E-10
3.3 0.010 6.3 E-10 E-10 2.1 1.1 1.4 E-10 E-10 E-10 Ru-103 4.2 0.100 39.3 d F E-9 1.5 E 3.0 0.050 E-9-9 4.8 5.6 9.3 E-10 E-10 E-10 M E-8 0.050 8.4 0.100 1.1 5.0 E-E-9 9 9 3.0 3.5 E-E-9 2.4 E-9 S 0.020 1.3 E-8 0.010 6.0 1.0 E-8 E-9 3.7 4.2 E-9 E-9 3.0 E-9 Ru-105 0.100 4.44 h F 7.1 5.1 0.050 E E-10-10-10 1.4 2.3 E E-E-E-11 11 10 7.9 6.5 M 1.3 0.100 E-9 0.050 9.2 E-10 4.5 2.0 3.0 E-10 E-10 E-10 E-10 S 0.020 1.4 1.7 E-9 4.8 0.010 9.8 E-10 E-10 1.8 2.2 3.2 E-10 E-10 E-10 Ru-106 0.100 7.2 1.01 a F E-8 0.050 5.4 E-8 1.6 2.6 E-8 E-8 9.2 E-9 7.9 E-9 M 0.100 1.4 1.1 0.050 E-7 E-7 6.4 E-8 4.1 2.8 3.1 E-8 E-8 E-8 S 0.020 2.6 2.3 E-7 1.4 0.010 E-7 E-7 E-8 6.6 7.1 9.1 E-8 E-8 Rhodium Rh-99 16.0 d F
0.100 0.050 2.0 E 2.6 E-9-9-10 10 6.2 E 3.8 9.9 E-E-E-10 M 10 3.2 0.100 0.050 3.5 4.5 E-9 E-9 2.0 E-9 1.3 E-9 7.7 9.6 E-10 E-10 S 0.050 3.8 0.100 4.9 E-9 E-9 2.2 1.1 1.3 E-9 E-9 E-9 8.7 E-10 Rh-99 m 2.4 0.100 4.70 h F E-10 1.0 2.0 E-10 E-10 0.050 6.1 E-11 E-11 2.8 3.5 E-11 M 0.100 0.050 2.5 3.1 E-10 E-10 4.9 8.0 E 1.3 E-10-11 E-11 3.9 E-11 S 3.2 0.100 E-10 0.050 2.6 8.2 1.3 E-10 E-10 E-11 5.1 4.0 E-11 E-11 Rh-100 20.8 0.050 1.8 2.1 0.100 h F E-9 E-9 3.3 5.6 9.1 E-10 E-10 E-10 0.100 2.7 2.6 E-10 M E-9 0.050 1.1 2.2 E-9 E-9 3.4 4.3 7.1 E-10 E-10 E-10 S 0.100 2.8 E-9 1.2 2.2 0.050 E-9 E-9 7.3 E-10 4.4 3.5 E-10 E-10 Rh-0.100 7.4 101 3.20 a F E-9 3.5 0.050 6.1 E-9 E-9 2.3 E-9 1.4 1.5 E-9 E-9 M 0.100
9.8 0.050 4.9 8.0 E-9 E-9 E-9 2.8 E-9 2.3 3.4 E-9 E-9 S 0.100 0.050 1.7 1.9 E-8 E-8 7.4 6.2 1.1 E-8 E-9 E-9 E-5.4 9 Rh-101 m 0.100 8.4 4.34 d F E-10 0.050 6.6 2.0 3.3 E-10 E-10 E-10 1.2 E-10 9.7 E-11 M 1.3 E-9 0.050 9.8 0.100 E-10 5.2 E-10 2.5 3.5 E-10 E-10 1.9 E-10 S 0.100 1.3 E-9 1.0 E-9 5.5 0.050 E-10 3.7 E-10 2.1 2.7 E-10 E-10 Rh-2.90 a F 102
0.050 0.100 3.3 2.8 E-8 E-8 1.7 E-8 1.1 7.3 7.9 E-8 E-9 E-9 M 0.050 2.5 3.0 0.100 E-8 E-8 1.5 1.0 E-8 E-8 7.9 E-9 6.9 E-9 S 5.4 0.100 E-8 0.050 5.0 3.5 E-8 E-8 2.4 1.7 2.0 E-8 E-8 E-8 Rh-102 207 d F E-8 1.2 0.050 8.7 0.100 E-9 4.4 E-9 1.5 2.7 E-9 1.7 E-9 E-9 M 1.6 2.0 E-8 0.100 0.050 E-8 9.0 E-9 6.0 E-9 4.7 4.0 E-9 E-9 S 3.0 0.100 E-8 0.050 1.0 1.5 2.5 E-8 E-8 E-8 7.1 8.2 E-9 E-9 Rh-103 m 0.935 0.050 5.9 8.6 0.100 h F E-12 E-12 2.7 1.6 E-E-12 12-13 M 1.0 E-12 8.6 E 0.100 1.9 E-11 0.050 1.2 E-11 6.3 E-12 3.0 2.5 4.0 E-E-E-12 12 12 S 0.100 2.0 E-11 0.050 1.3 E-11 4.3 6.7 E-12 E-12 3.2 E-12 2.7 E-12 Rh-105 1.47 0.050 6.9 1.0 E d F 0.100-9 E-10 3.0 E-10 1.8 E-10 9.6 E-11 8.2 E-11 M 0.100
0.050 1.6 2.2 E-9 E-E-E-10 10 9 7.4 5.2 3.2 4.1 E-10 E-10 S 0.100 2.4 1.7 0.050 E-9 E-9 8.0 E-10 3.5 4.5 5.6 E-10 E-10 E-10 Rh-106 m 5.7 0.100 2.20 h F E-10 2.2 0.050 4.5 E-10 E-10 1.4 8.0 E-10 E-11 6.5 E-11 M 6.3 0.050 0.100 8.2 E-10 E-E-E-10 10 10 3.2 2.0 1.3 1.1 10 E-E-E-10 8.5 6.5 0.050 0.100 10 S E-E-E-10 10 10 3.3 2.1 1.1 1.4 E-10 E-10 Rh-0.362 107 h F
8.9 0.100 E-11 0.050 5.9 E-11 2.6 E-11 E-11 1.0 1.7 E-11 9.0 E-12 M 1.4 0.100 0.050 9.3 E E-10-11-11 2.8 E-11 1.9 4.2 E E-11 E-11 S 1.6 1.5 0.100 0.050 9.7 E E-10-11 E-4.4 E-11 2.9 1.7 1.9 E 11-11 E-11 Palladium Pd-100 3.63 d F 3.9 0.050 E-9 0.005 1.5 3.0 E-9 E-9 4.7 5.8 9.7 E-10 E-10 E-10 M E-9 0.005 0.050 5.2 2.2 4.0 E-9 E-9 1.4 E-9 9.9 8.0 E-10 E-10 S 0.050
9 0.005 4.1 5.3 E-E-E-E-9 9 9 1.5 2.2 1.0 E-9 8.5 E-10 Pd-101 8.27 0.050 3.6 h F E-10 1.4 2.9 0.005 E-10 E-E-E-11 11 10 8.6 4.9 3.9 E-11 M 0.005 3.8 0.050 4.8 E-10 E-10 1.2 1.9 E-10 E-10 7.5 E-11 5.9 E-11 S 0.050 5.0 3.9 0.005 E-E-10 10 10 1.2 2.0 E-E-E-E-11 10 7.8 6.2 11 Pd-103 0.050 9.7 17.0 d F E-10 0.005 6.5 E-10 E-10 1.9 3.0 E-E-E-10 8.9 1.1 10 11 M
0.050 0.005 1.6 2.3 E-9 E-9 5.9 9.0 E-10 E-E-E-10 10 10 4.5 3.8 S 2.5 E-9 0.005 0.050 1.8 1.0 E-9 E-9 E 6.8-10 4.5 5.3 E-10 E-10 Pd-107 6.50 E + 6 a F 0.050 2.6 8.2 0.005 1.8 E-10 E-10 E-11 5.2 E-11 2.5 3.1 E-11 E-11 M 6.5 0.050 0.005 5.0 E-E-10 10 10 10 1.0 1.5 2.6 E-E-E-E-11 10 8.5 S 0.050 0.005 2.0 2.2 E-9 E-9 1.3 E-7.8 E 9-E-10 10 6.2 5.9 E-10 Pd-109
13.4 0.050 1.5 h F E-9 0.005 4.2 9.9 E-10 E-10 1.2 1.4 2.6 E-10 E-10 E-10 M E-9 0.005 0.050 2.6 1.8 E-9 4.3 8.8 E-10 5.9 E-10 E-10 0.050 2.7 3.4 E-10 S E-9 0.005 9.3 1.9 E-9 E-10 E 6.3-10 4.6 E-10 3.7 E-10 Silver Ag-102 0.215 0.100 1.2 h F E-E-E-11 10 0.050 8.6 4.2 11 2.6 1.3 1.5 E E-11-11 E-11 M 1.6 E-10 0.050 1.1 0.100 E-10 E 5.5-11 3.4 1.7 2.1 E E-11-11 E-11 S 0.020 0.010 1.2 1.6 E-10 E-10 3.5 5.6 E-11 E-11 1.8 2.2 E-11 E-11 Ag-1.09 103 h F 0.100 0.050 1.0 1.4 E-10 E-10 E-11 3.0 E 4.9-11 1.4 1.8 E-11 E-11 M 0.100 0.050 1.6 2.2 E-10 E-10 7.6 E-11 E-11 2.6 3.2 4.8 E-11 E-11 S 0.020 0.010 1.6 2.3 E-10 E-E-E-11 11 10 7.9 5.1 3.3 E-11 2.7 E-11 Ag-1.15 104 h F 2.3 0.100 E-10 E-10 9.8 1.9 0.050 E-11 5.9 E-11 3.5 E-11
0.100 2.9 2.8 E-11 M E-10 0.050 1.2 2.3 10 E-E-E-E-11 11 10 7.4 4.5 3.6 2.9 E-10 E-11 S 0.020 0.010 2.4 E-10 E-11 4.6 7.6 1.2 E-10 E-11 3.7 E-11 Ag-104 m 0.558 h F 1.6 E-10 0.050 1.1 0.100 E-10 E 5.5-11 3.4 2.0 1.6 E E-E-11 11-11 M 0.100 0.050 1.6 2.3 E-10 E-10 7.7 E-11 E-11 2.5 3.0 E 4.8-11 E-11 S 0.020 2.4 1.7 E-10 E-10 0.010 8.0 E-11 5.0 E-11 3.1 E-11 2.6 E-11
AG-41.0 105 d F 3.9 0.100 0.050 3.4 E-E-9 9 9 1.0 1.7 E-E-E-E-10 10 9 6.4 5.4 M 0.100 0.050 3.5 4.5 E-9 E-9 2.0 E-9 1.3 E-9 7.3 9.0 E-10 E-10 S 0.020 4.5 0.010 3.6 E 2.1-9 E-9 E-9 1.3 E-9 1.0 E-9 8.1 E-10 Ag-106 0.399 h F 0.100 9.4 E-E-E-11 11 0.050 6.4 2.9 1.8 E 11-11 1.1 E-11 9.1 E-12 M 1.4 0.100 0.050 9.5 E-10 E-11 4.4 2.8 E-E-E-11 11 11 1.8 1.5 E-11 S 0.010 9.9 0.020 1.5 E-10 E-11 E-4.5 2.9 E 11-11 1.9 E-11 E-11 Ag-106 8.41 1.6 d F E-9 0.050 0.100 7.7 3.2 6.1 E-9 E-9 2.1 1.1 1.3 E-9 E-9 E-9 M 7.2 0.100 E-9 0.050 5.8 3.2 E E-9-9-9-9 1.4 1.1 2.1 E E E-9 S 0.010 5.7 0.020 7.0 E-9 E-9 E-9 1.4-3.2 E 9 2.1 1.1 E-9 E-9 Ag-127 108 m a F 0.100 0.050 2.8 3.5 E-8 E-8 1.6 E-8 6.9 1.0 E-8 E-9
0.100 3.3 6.1 E-9 M E-8 0.050 2.7 E-8 1.7 E-8 1.1 E-8 8.6 E-9 E-9 S 0.020 8.9 7.4 E-8 0.010 6.2 E 8.7 E-8-8-8-8 3.7 4.4 E 3.9 E E-8 Ag-110 m 250 d F 0.050 2.8 3.5 0.100 E-8 E-8 1.5 E-8 9.7 E 6.3 E-9-9-9 M 3.5 E 5.5 0.100 E-8 0.050 2.8 E-8 1.7 E-8 1.2 E-8 9.2 E-9 E-9 S 0.020 4.6 7.6 E-8 0.010 4.1 2.6 E-8 E-8 1.5 1.2 1.8 E-8 E-8 E-8
AG-7.45 111 d F E E-9 4.8 0.100 0.050 3.2-9 1.4 E-9 4.8 8.8 E-10 E-10 9.2 4.0 E-10 M 0.100 0.050 6.6 E-E-9 9 9 2.4 3.5 E-E-E-E-9 9 9 1.9 1.5 S 0.010 7.1 0.020 9.9 E-9 E-9 3.8 2.7 E-E-9 9 9 1.7 2.1 E-E-9 Ag-3.12 h F 0.100 9.8 112 E-10 0.050 2.8 E-10 1.7 6.4 E-10 E-10 9.1 E-11 7.6 E-11 M 1.7 0.100 E-9 E-1.1 9 5.1 0.050 E-E-E-10 10 10 3.2 2.0 1.6 E-10 S 0.020 0.010 1.2 1.8 E-9 E-9 5.4 E-10 3.4 1.7 2.1 E-10 E-10 E-10 Ag-115 0.100 1.6 0.333 h F E-10 1.0 E-10 0.050 4.6 2.9 1.7 E E-E-11 11-11 E-11 M 1.5 0.100 0.050 1.7 2.5 E-10 E-E-E-11 11 10 7.6 4.9 3.2 E-11 E-11 S 0.020 2.7 2.7 E-10 8.0 E-0.010 1.7 E-10 11 5.2 3.4 E-11 E-11 2.9 E-11 Cadmium Cd-0.961 104 h F 0.100 0.050 1.7 2.0 E-10 E-10 E-11 5.2 E 8.7-11 3.1 E-11 E-11 M 0.100 2.6 2.4 E-10 0.050 2.1 1.1 10 E-E-E-E-11 11 10 6.9 3.4 4.2 E-11 S 0.050 2.2 2.7 0.100 E-10 E-10 4.4 1.1 E-10 7.0 E-11 E-11 3.5 E-11 Cd-6.49 107 h F 2.3 E-10 0.050 0.100 1.7 E-10 7.4 E-11 E-11 2.1 2.5 4.6 E-11 E-11 M 5.2 E-10 0.050 3.7 0.100 E-10 2.0 1.3 E-10 E-10 8.8 E-11 E-11 S 8.3 0.100 5.5 E-10 0.050 3.9 2.1 E-10 E-10 1.4 E-10 E-11 7.7 9.7 E-11 Cd-109 1.27 a F 0.100 0.050 3.7 4.5 E-8 E-8 1.4 2.1 E-8 E-8 8.1 9.3 E-9 E-9 M 2.3 0.050 0.100 3.0 E-8 E-8 1.4 E-8 9.5 E-6.6 7.8 E 9-9 E-9 S 0.100 0.050 2.1 2.7 E-8 E-8 1.3 E-8 7.6 8.9 E-9 E-9 6.2 E-9 Cd-9.30 113 E + 15 a F E-7 2.4 2.6 0.100 0.050 E-7 1.4 1.7 E-7 E-7 E-7 1.2 1.2 1.2 E-7 E-7 M 0.100 0.050 1.0 E-7 E-8 6.1 7.6 E-8
5.5 5.7 E-8 E-8 S 0.050 5.8 0.100 7.8 E-8 E-8 4.1 E-8 3.0 E-8 2.7 2.6 E-8 E-8 Cd-3.0 E-7 113m 13.6 a F 0.100 0.050 2.7 1.8 E-7 E-7 1.1 1.1 1.3 E-7 E-7 E-7 M 0.050 1.2 1.4 0.100 E-7 E-7 E 8.1-8 6.0 E-8 5.3 E-8 5.2 E-8 S 0.050 8.4 0.100 1.1 E-7 E-8 E 5.5-8 3.9 3.3 3.1 E E-E-8 8-8 Cd-2.23 115 d F 0.100 4.0 E-9 1.2 0.050 2.6 E-9 E-9 7.5 E-10 4.3 3.5 E-10 E-10 M 0.100 6.7 E-9 4.8 0.050 E-9 2.4 1.7 E-9 E-9 1.2 E-9 9.8 E-10 S 0.050 5.1 0.100 7.2 E-9 E-9 2.6 E-9 1.3 1.1 1.8 E-E-E-9 9 9 Cd-44.6 115 m d F 0.100 0.050 3.2 4.6 E-8 E-8 1.5 1.0 E-E-8 8 9 5.3 6.4 E-E-9 M 0.100 4.0 E-8 1.4 2.5 0.050 E-8 E-8 9.4 E-9 E-7.3 9 6.2 E-9 S 0.100 0.050 3.0 3.9 E-8 E-8 1.7 E-8 1.1 E-8 8.9 E-9 7.7 E-9 Cd-2.49 h F 0.100 7.4 117 E-10 0.050 5.2 E-10

2.4 E-10 1.5 8.1 6.7 E E-E-11 10-11 M 0.050 9.3 0.100 1.3 E-9 E-10 2.0 4.5 2.9 E-10 E-10 E-10 E-10 S 0.100 1.4 1.6 E-9 4.8-9.8 0.050 E 10 E-10 1.7 3.1 2.1 E-10 E-10 E-10 Cd-117 m 0.100 8.9 3.36 h F E-10 0.050 2.0 3.3 6.7 E-10 E-10 E-10 1.1 9.4 E E-10-11 M 1.5 0.100 0.050 1.1 E-9 E-9 E-10 3.6 E 5.5-2.0 2.4 E-10 10 E-10 S 1.5 0.100 E-9 5.7 0.050 1.1 E-9 E-10
2.1 2.6 3.8 E-10 E-10 E-10 Indium In-4.20 109 h F E-10 0.020 2.1 2.6 0.040 E-10 1.0 E-10 6.3 3.6 2.9 E E-E-11 11-11 M 3.3 0.040 E-10 0.020 2.6 1.3 E-10 E-E-E-11 11 10 8.4 5.3 4.2 E-11 In-110 0.040 8.2 4.90 h F E-10 E 7.1-10 3.7 0.020 E-10 2.3 1.3 1.1 E E-E-10 10-10 M E-10 0.020 8.3 0.040 9.9 E-10 4.4 E-10 1.3 2.7 1.6 E-10 E-10 E-10 In-1.15 h F 0.040 3.0 E 110-10
0.020 6.0 9.9 2.1 E-10 E-11 E-11 2.8 3.5 E-11 E-11 M 0.040 0.020 3.1 4.5 E-10 E-10 9.2 1.5 E-10 E-11 4.7 5.8 E-11 E-11 In-2.83 111 d F E-9 1.2 0.020 8.6 0.040 E-E-E-10 10 10 4.2 2.6 1.3 1.5 E-10 E-10 M 1.5 0.040 E-9 1.2 0.020 E-9 6.2 E-10 4.1 2.3 2.9 E-10 E-10 E-10 In-0.040 4.4 E 112 0.240 h F-11 0.020 3.0 E-11 1.3 E-11 5.4 8.7 E-12 E-12 E-12 M 0.040 4.7 6.5 E-11 0.020 4.4 E-11 2.0 1.3 E-11 E-11 8.7 E-12 7.4 E-12 In-1.66 h F 0.040 1.0 E-10 113m 0.020 7.0 2.0 E E E-11 3.2-11-11 1.2 E-11 9.7 E-12 M 1.6 0.040 E-0.020 1.1 10 E-10 E-11 3.6 E 5.5-2.0 2.4 E 11-11 E-11 In-114 m 1.2 0.040 49.5 d F E-7 E-8 0.020 7.7 3.4 E-8 1.1 1.9 E-8 E-8 9.3 E-9 M 3.3 0.020 0.040 4.8 E-8 E-8 1.6 E-8 1.0 E-8 7.8 E-9 6.1 E-9 In-115 5.10 E + 15 a F 0.040 8.3 E-7 0.020 7.8 E-7 E-7 E 5.5-7 5.0 3.9 4.2 E-7 E-7 M 0.040 3.0 2.8 E-7 E-7 0.020 2.1 1.7 1.9 E-7 E-7 E-7 E-7 In 1.6-115 4.49 h F 2.8 E-10 0.020 1.9 0.040 E-10 8.4 E-E-E-11 11 11 5.1 2.8 2.4 E-11 M 3.3 0.020 0.040 4.7 E-10 E-10 1.0 E-10 7.2 1.6 E-10 E-11 5.9 E-11 In-116 m 0.902 0.040 2.5 h F E-10 9.2 0.020 1.9 E-10 E-11 5.7 E-11
3.4 E-11 E-11 M 0.040 3.6 2.8 E-10 0.020 1.3 2.7 E-10 E-10 8.5 E-11 5.6 E-11 E-11 In-117 0.730 4.5 h F E E-10 0.020 9.7 0.040 1.4-2.8 4.5 E 11-11 E-11 1.7 E-11 1.5 E-11 M 0.040 0.020 1.6 2.3 E-10 E-10 E-7.5 3.5 5.0 E 11-11 E-11 2.9 E-11 In-1.94 117 m h F 2.3 3.4 E-10 0.040 0.020 E-10 10 6.2 1.0 E-E-E-E-11 2.9 3.5 11 11 M 0.040 6.0 E-10 0.020 4.0 1.9 E-10 1.3 E-10 E-10 8.7 E-11 E-11 In-119 0.300 7.2 h F 1.2 E-10 0.020 7.3 0.040 E-11 3.1 1.2 2.0 E-11 E-11 E-11 1.0 E-11 M 0.020 1.1 1.8 0.040 E-10 E-10 4.9 E-11 3.2 E-11 E-11 1.7 2.0 E-11 Tin Sn-4.00 h F 0.040 1.0 E-9 110 0.020 7.6 3.6 E-E-10 10 10 1.2 2.2 E-E-E-11 M 10 9.9 0.040 1.5 5.1 0.020 1.1 E-9 E-9 E-E-E-10 10 10 3.2 1.9 1.6 E-10 Sn-0.040 7.7 E 111 0.588 h F-11 0.020
5.4 E-11 2.6 E-11 1.6 E-11 9.4 E-12 7.8 E-12 M 1.1 0.040 0.020 8.0 E-10 E-E-E-11 11 11 3.8 2.5 1.3 1.6 E-11 E-11 Sn-113 115 d F E-9 0.020 3.7 0.040 5.1 E-9 1.1 1.8 E-9 E-9 5.4 6.4 E-10 E-10 M 0.040 1.3 E-8 0.020 1.0 E-8 5.8 3.2 4.0 E-9 E-9 E-9 2.7 E-9 Sn-117 m 3.3 0.040 13.6 d F E-0.020 2.2 1.0 E-E-9 9 9 6.1 E-10 3.4 E-10 1.0 2.8 E-10 M 0.040 E-8
4.6-7.7 0.020 E 9 E-9 3.1 3.4 E-9 E-9 2.4 E-9 Sn-119 293 0.040 3.0 d F E-0.020 2.2 1.0 E-E-9 9 9 6.0 E-10 3.4 E-10 1.0 2.8 E-10 M 0.040 E-8 4.7 0.020 7.9 E-9 E-9 3.1 E 2.6-9 E-9 E-9 Sn-121 1.13 2.2 d F 0.040 7.7 E-10 5.0 E-10 0.020 2.2 1.3 E-10 E-10 7.0 E-11 6.0 E-11 M 1.5 1.1 0.040 0.020 E-9 E-9 5.1 3.6 2.9 E E-E-10 10-10 2.3 E-10 Sn-121 m 55.0 a
F 0.040 0.020 5.4 6.9 E-9 E-9 1.6 2.8 E-9 E-9 8.0 9.4 E-10 E-10 M 1.5 0.020 0.040 1.9 E-8 E-8 9.2 E-9 6.4 E-9 5.5 4.5 E-9 E-9 Sn-123 129 d F 9.9 0.020 0.040 1.4 E-8 E-9 4.5 E-9 1.2 1.4 2.6 E-9 E-9 E-9 M 4.0 E-8 0.020 3.1 0.040 E-8 1.2 1.8 E-8 E-8 8.1 9.5 E-9 E-9 Sn-123 m 0.040 1.4 0.668 h F E-0.020 8.9 10 E-11 3.9 E-11 2.5 1.3 1.5 E E-11-11 E-11 M 2.3 0.040 E-10 7.0 1.5 0.020 E-10 E-11 3.2 4.6 E-11 E-11 2.7 E-11 Sn-1.2 0.040 9.64 125 d F E-8 0.020 8.0 2.0 3.5 E-9 E-9 E-9 E-1.1 9 8.9 E-10 M 1.5 2.1 0.040 E-8 0.020 E-8 7.6 5.0 E-E-9 9 9 3.1 3.6 E-E-9 Sn-126 1.00 E + 5 a F 0.020 5.9 0.040 7.3 E-8 E-8 3.2 E-8 2.0 1.3 1.1 E E-E-8 8-8 M 0.020 1.0 1.2 0.040 E-7 E-7 6.2 E-8 4.1 E-8
3.3 2.8 E-8 E-8 Sn-2.10 127 h F E 6.6-4.7 0.040 0.020 10 E-10 2.3 E-10 1.4 E-10 7.9 E-11 E-11 M 0.040 1.0 E 6.5-7.4 0.020 9 E-10 3.7 E-10 2.4 E-10 1.3 1.6 E-10 E-10 Sn-0.040 5.1 128 0.985 h F E-0.020 3.6 E-10 10 10 1.0 1.7 E-E-E-E-11 11 10 6.1 5.0 M 5.5 0.020 0.040 8.0 E-10 E-10 2.7 1.1 1.7 E-10 E-10 E-10 9.2 E-11 Antimony Sb-0.530 115 h F E 8.1-11 0.100 5.9 0.200 E-11 2.8 E-11 1.0 1.7 E-11 E-11 8.5 E-12 M 1.2 E-10 0.010 8.3 0.020 E-11 2.5 4.0 E-11 E-11 1.3 1.6 E-11 E-11 S 0.010 8.6 0.020 1.2 E-10 E-11 4.1 2.6 E E-11-11 11 1.4 1.7 E-E-11 Sb-116 0.263 0.200 8.4 h F E-11 0.100 6.2 E-11 E-11 1.9 3.0 E-11 1.1 E-11 9.1 E-12 M 8.2 0.010 0.020 1.1 E-10 E-11 2.5 4.0 E-11 E-11 1.5 E-11 E-11 S 0.020 1.2 1.3 E-10 8.5 E-11 0.010 4.1 E-11 2.6 1.3 1.6 E E-11-11 E-11 Sb-116 m 1.00 0.200 2.6 h F E-10 0.100 2.1 1.1 E-10 E-10 E-11 E-11 3.2 4.0 6.6 E-11 M 0.020 3.6 2.8 E-10 E-10 0.010 9.1 1.5 E-10 E-11 5.9 4.7 E-11 E-11 S 0.020 3.7 E-10 0.010 2.9 1.5 E-10 E-10 9.4 E-11 6.1 E-11 E-11 Sb-117 2.80 4.9 h F 6.0 E-0.100 0.200 7.7 E-11 11 2.9 1.8 1.0 E E-E-11 11-11 8.5 E-12 M 1.2 0.020 0.010 9.1 E E-10-11
2.0 3.0 E 4.6 E-11-11 E-11 11 S 0.020 1.3 1.6 E-E-E-E-11 10 0.010 9.5 4.8 3.1 E 11-11 E 2.2-1.7 E 11-11 Sb-5.00 h F 118 m 0.100 6.2 0.200 7.3 E-10 E-10 1.2 2.0 3.3 E-10 E-10 E-9.3 E 10-11 M 0.010 7.6 0.020 9.3 E-10 E-10 2.5 4.0 E-10 E-10 1.2 1.5 E-10 E-10 S 0.010 7.8 0.020 9.5 E-10 E-10 4.1 1.5 2.5 E-10 E-10 E-10 1.2 E-10 Sb-1.59 119 d F 2.0 2.7 E-10 0.200 0.100 E-10 9.4 E-11 E-11 2.9 E 5.5-11 2.3 E-11 M 4.0 E-10 0.010 0.020 2.8 E-10 1.3 E-10 4.4 3.5 E 7.9-11 E-11 E-11 S 0.020 4.1 1.4 2.9 0.010 E-10 E-10 E-E-E-11 8.2 4.5 10 11 3.6 E-11 Sb-120 0.200 4.1 5.76 d F E 0.100 3.3-9 E-9 E-9 1.1 1.8 E-9 5.5 6.7 E-10 E-10 M 6.3 0.020 0.010 5.0 E-9 E-9 2.8 E-9 1.3 1.0 1.8 E-9 E-9 E-9 S 0.020 0.010 5.3 6.6 E-9 E-9 2.9 E-9 1.9 E-9 1.4 1.1 E-9 E-9 Sb-0.265 120 h F E-11 0.100 3.1 4.6 0.200 E-11 1.4 E-11 8.9 E-12 5.4 4.6 E-12 E-12 M 0.010 4.4 6.6 0.020 E-11 E-11 2.0 1.3 E-11 E-11 8.3 E-12 E-12 S 0.020 6.8 7.0 E-11 0.010 4.6 E-11 E 2.1-11 1.4 E-11 7.3 8.7 E-12 E-12 Sb-122 0.200 4.2 2.70 d F E-9 1.4 0.100 2.8 E-9 E-9 8.4 4.4 3.6 E E-E-10 10-10 M E-9 0.010 5.7 0.020 8.3 E-9
2.8 E-9 1.3 1.0 1.8 E-9 E-9 E-9 S 0.010 6.1 0.020 8.8 E-9 E-9 19-9 2.0 3.0 E-9 1.4 1.1 E-9 E-9 Sb-124 60.2 0.200 1.2 d F E-8 9 4.3 8.8 0.100 E-E-E-E-9 1.6 9 9 2.6 1.3 3.1 0.020 M E-9 E-8 0.010 2.4 E-8 1.4 E-8 9.6 E-9 7.7 E-9 E-9 S 0.020 3.9 6.4 E-8 0.010 1.8 3.1 E-8 E-8 1.3 1.0 E-8 E-8 8.6 E-9 Sb-124 m 0.337 0.200 2.7 E-11 0.100 1.9 h F E-11 5.6 12 9.0 E-E-E-E 2.8-12 12 12 3.4 M 0.020 4.3 E-11 0.010 3.1 E-11 E-11 9.6 1.5 E-E-E-12 12 6.5 5.4 4.6 E-12 S 0.020 0.010 3.3 E 11-11 1.6 E-11 E-11 7.2 1.0 E-12 5.9 E-12 Sb-125 2.77 0.100 6.8 8.7 0.200 E a F-9 E-9 2.3 3.7 E-9 E-9 1.4 1.5 E-9 E-9 M 1.6 2.0 0.020 18-8 0.010 E-8 1.0 E-8 E 6.8-9 E 5.8-9 E-9 S 0.020 4.2 4.8 E-8 0.010 3.8 E-8 2.4 E-8 1.2 1.4 1.6 E-8 E-8 E-8 Sb-126 0.200 8.8 12.4 d F E-9 3.3 0.100 6.6 E-9 E-9 2.1 E-9 1.2 1.0 E-9 E-9 M 8 0.010 1.3 1.7 0.020 E-E-E-E-9 9 8 7.4 5.1 2.8 3.5 E-9 E-9 S 0.020 1.9 E-8 0.010 1.5 E-8 5.0 4.0 8.2 E-E-E-9 9 9 3.2 E-9 Sb-126 m 1.2 0.200 0.317 h F E-10 0.100 8.2 E-11 3.8 E-11 2.4 E-11 E-11 1.2 1.5 E-11 M 1.7 E-10 0.010 0.020 1.2 E-10
3.5 E 5.5-11 E-11 1.9 2.3 E-11 E-11 S 0.020 0.010 1.2 1.8 E-10 E-E-E-5.7 10 11 11 11 2.0 2.4 E-3.7 E-11 Sb-127 0.200 5.1 3.85 d F E-9 1.6 0.100 3.5 E-9 E-9 5.2 9.7 E-10 E-10 4.3 E-10 M 1.0 E-8 0.010 7.3 0.020 E-9 3.9 2.1 2.7 E-9 E-9 E-9 E-9 S 0.020 1.1 1.7 E-8 0.010 7.9 4.2 E-E-9 9 9 9 E-2.3 1.9 3.0 E-E-9 Sb-128 9.01 0.100 1.7 2.1 0.200 h F E-9 E-9 5.1 8.3 E-10 E-10 2.9 E-10 E-10 M 2.3 3.3 0.020 0.010 2.5 E-9 E-9 1.2 E-9 5.0 4.0 7.9 E-E-E-10 10 10 S 0.020 3.4 E-9 E-9 1.3 E-9 0.010 2.6 8.3 E-10 4.2 5.2 E-10 E-10 Sb-0.173 128 h F E 9.8-11 0.100 6.9 0.200 E-11 3.2 E-11 2.0 1.0 1.2 E E-11-11 E-11 M 0.020 1.3 E-10 9.2 0.010 E-11 4.3 E-11 2.7 E-1.4 1.7 11 E-11 E-11 S 0.010 9.4 0.020 1.4 E-10 E-11 4.4 E-11 2.8 E-11 1.8 1.5 E E-11-11 Sb-129 0.200 1.1 4.32 h F E-9 0.100 2.3 3.8 8.2 E-10 E-10 E-10 1.3 E-10 1.0 E-10 M 0.020 2.0 E-9 1.4 0.010 E-9 E-10 4.4 E 6.8-10 2.9 E-10 E-10 S 0.020 2.3 2.1 1.5 0.010 E-9 E-9 E-10 7.2 4.6 E-10 2.5 3.0 E-10 E-10 Sb-130 0.667 0.200 3.0 h F E-10 0.100 1.1 2.2 E-10 E-10 E 6.6-11 4.0 E-11 E-11 M 3.3 4.5 E-10 0.010 3.2 0.020 E-10
9.8 1.6 E-10 E-11 E-11 5.1 E 6.3-11 S 0.010 3.3 0.020 4.6 E-10 E-10 1.0 E-10 6.5 1.6 E-10 E-11 E-11 Sb-131 0.383 5.3 h 3.5 E-10 F 0.200 0.100 2.8 E-E-E-10 10 1.4 7.7 4.6 E 11-11-11 M 0.020 3.9 3.5 E E-E-E-10 10 0.010 2.6 1.3 10 8.0 5.3 4.4 E E-E-11 11-11 S 0.020 0.010 2.6 3.8 E-10 E-10 7.9 1.2 E-10 E-11 5.3 4.4 E E-11-11 To-0.600 5.3 Tellurium 116 2.49 h F E-10 0.300
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E 1.1-7.2 9 E-10 5.1 E-10 To 4.1 E-10-121 m 154 d F 0.600 0.300 1.0 1.4 E-8 E-8 5.3 E 3.3-9 E-9 1.8 2.1 E-9 E-9 M 0.200 1.9 8.8 1.5 0.100 E-8 E-8 E-9 5.1 6.1 E-9 E-9 E-9 S 0.020 2.3 4.2 E-8 0.010 1.9 E-8 1.2 E-8 6.9 8.1 E-9 E-9 To-123 E-5.7 9 1.00 E + 13 a F 0.300 9.1 0.600 1.1 E-8 E-9 4.8 6.2 E-9 E-9 4.0 E-9 3.9 E-9 M 5.6 0.200 E-9
0.100 4.4 E-9 3.0 E-9 2.3 1.9 2.0 E-9 E-9 E-9 S 0.020 0.010 5.0 5.3 E-9 E 9 3.5-E-9 2.0 2.1 2.4 E-9 E-9 E-9 To-0.600 9.8 120 123 m d F E-9 0.300 3.4 E 6.8 E-9-9-9-9 9.5 1.1 1.9 E E E-10 M 0.200 1.8 E-8 1.3 0.100 E-8 8.0 E-9 E-5.7 9 5.0 4.0 E-9 E-9 S 0.020 0.010 1.6 2.0 E-8 E-8 9.8 E 7.1 6.3 E E-9-9-9-9-125 m 58.0 5.1 E d F 0.600 6.2 E-9 0.300 2.0 4.2 E-9 E-9 6.1 1.1 E-9 E-10

5.1 E-10 M 1.5 0.100 1.1 0.200 E-8 E-8 E-9 4.8 E 6.6-4.3 9 E-9 E-9 S 0.020 3.4 1.7 E-8 1.3 E-8 0.010 7.8 E 5.8-9 E-9 5.3 E-9 4.2 E-9 To-0.600 4.3 9.35 127 h F E-10 1.4 0.300 3.2 E-10 E-10 8.5 E-11 4.5 E-11 E-11 M 0.200 3.9 1.0 E-9 0.100 7.3 E-10 3.6 E-10 2.4 E-10 1.6 E-10 E-10 S 0.020 1.2 1.3 E-9 3.9 0.010 7.9 E-10 E-10 2.6 E-10 1.4 1.7 E-10 E-10
To-0.600 2.1 127 m 109 d F E-8 1.4 0.300 E-8 E-9 6.5 3.5 1.5 2.0 E-9 E-9 E-9 M 3.5 0.200 E-8 1.5 0.100 2.6 E-8 E-8 1.1 E-8 9.2 E-9 E-9 S 0.020 4.1 7.4 E-8 0.010 2.0 3.3 E-8 E-8 1.2 1.4 E-8 E-8 To 9-1.16 9.8 E-129 h F 0.600 0.300 1.2 1.8 E-10 E-E-E-11 11 10 5.1 3.2 1.9 E-11 1.6 E-11 M 2.2 3.3 0.200 E-10 0.100 9.9 E E-10-11 E-11 4.4 E 6.5-11 3.7 E-11 S 0.010 2.3 0.020 3.5 E-10 E-10 6.9 1.0 E-10 E-11 E-4.7 3.9 E-11 To 11-129 m 2.0 0.600 33.6 d F E-8 1.3 0.300 E-8 1.7 3.1 5.8 E-9 E-9 E-9 1.3 E-9 M 3.5 0.200 E-8 0.100 2.6 E-8 1.4 E-8 8.0 6.6 9.8 E-E-E-9 9 9 8 0.010 2.9 3.8 S 0.020 E-E-E-E-8 8 8 1.7 1.2 9.6 E-9 To 9-131 0.417 7.9 E-h F 0.300 2.0 2.3 0.600 E-10 E-10 9.9 E-11 5.3 E-11 3.3 E-11
E-11 M 0.200 2.6 2.3 E-10 0.100 1.7 E-10 E 8.1-11 E-5.2 2.8 3.5 E 11-11 E-11 S 0.010 1.6 0.020 2.4 E-10 E-10 7.4 E-11 4.9 E-11 3.3 2.8 E-11 E-11 To-0.600 8.7 131 m 1.25 d F E-9 3.9 0.300 7.6 E-9 E-9 1.2 2.0 E-9 E-9 8.6 E-10 M 0.100 5.8 0.200 7.9 E-9 E-9 1.9 3.0 E-9 E-9 1.2 E-9 9.4 E-10 S 0.010 5.1 7.0 0.020 E-9 E-2.6 1.8 E-E-9 9 9 9 9.1 1.1 E-E-10
132 3.26 d F to-0.600 0.300 1.8 2.2 E-8 E-8 8.5 E-9 2.6 1.8 4.2 E-E-E-9 9 9 M 1.6 0.200 E-8 1.3 E-8 6.4 0.100 E-9 4.0 E-9 2.6 E-9 E-9 S 0.020 1.5 2.0 E-8 0.010 1.1 E-8 E 5.8-9 2.0 2.5 3.8 E-9 E-9 E-9 To-0.600 2.4 0.207 133 h F E-E-E-10 10 0.300 2.1 9.6 4.6 E 11-11 2.8 E-11 1.9 2.0 E-10 E-11 M 0.200 0.100 1.3 E-10 6.1 E-11 3.8 E-11 E-11 2.0 2.4 E-11 S 0.010 1.2 0.020 1.7 E-10 E-10 5.4 E-11 E-11 1.9 2.2 3.5 E-11 E-11 To-0.600 1.0 0.923 133 m h F E-9 4.1 0.300 8.9 E-10 E-10 1.2 2.0 E-10 E-10 E 8.1-11 M 8.5 E-10 0.100 5.8 0.200 E-10 2.8 E-10 1.7 E-E-E-10 8.7 1.1 10 11 S 0.010 5.1 0.020 7.4 E-10 E-10 1.6 E-10 1.0 2.5 E-10 E-10 To 11-134 0.696 E-8.4 h F 0.300 3.7 0.600 4.7 E-10 E-10 1.0 1.8 E-10 E-10 6.0 E-11
4.7 E-11 M 5.5 E-10 0.100 3.9 0.200 E-10 1.9 E-10 1.2 E-10 E 8.1-11 E 6.6-11 S 0.020 5.6 0.010 4.0 1.9 E-10 E-10 E-10 1.3 E-E-E-11 6.8 10 8.4 11 Iodine I-1.35 120 h F 1.000 1.000 E-9 1.3 1.0 E-9 4.8 2.3 E-10 E-10 1.0 1.4 E-10 E-10 M 0.200 1.1 7.3 0.100 E-9 E-10 2.1 3.4 E-10 E-10 1.3 E-10 1.0 E-10 S 0.020 0.010 6.9 1.0 E-9 E-E-E-10 10 10 3.2 2.0 1.0 1.2 E-10 E-10 I-120 m h F 0.883 6.9 1.000 1.000 8.6 E-10 E-10 E 3.3-1.1 1.8 E-10 10 E-10 E 8.2-11 M 8.2 0.200 E-10 2.9 5.9 0.100 E-10 E-10 1.1 1.8 E-10 E-10 8.7 E-11 S 0.010 5.8 0.020 8.2 E-10 E-10 2.8 E-10 1.1 1.8 E-10 E-10 8.8 E-11 I-2.12 121 h F 2.3 E-10 1.000 1.000 2.1 1.1 E-10 6.0 E-10 E-11 3.8 E-11 E-11 M 0.200 2.1 2.7 E-10 1.5 0.100 E-10 E 7.8-11 4.9 E-11 3.2 E-11
11 S 0.020 1.9 2.5 E-E-E-E-10 10 0.010 1.4 7.0 4.5 E 11-11 E-11 2.4 E 3.0-11 I-13.2 123 h F 1.000 1.000 7.9 8.7 E-10 E-10 1.1 1.8 3.8 E-10 E-10 E-10 7.4 E-11 M 0.200 0.100 3.9 5.3 E-10 E-10 1.2 2.0 E-10 E-10 E-11 E-11 8.2 6.4 S 0.010 3.2 0.020 4.3 E-10 E-10 1.7 E-E-E-10 7.6 1.1 10 11 6.0 E-11 I-124 4.18 d F 1.000 1.000 4.5 4.7 E-8 E-8 1.1 2.2 E-8 E-8 6.7 E-9 1.4 0.200 4.4 E-9 M E-8 4.6 0.100 9.3 E-9 E-9 1.6 E-9 1.2 2.5 E-9 E-9 S 0.010 4.4 0.020 6.2 E-9 E-9 1.4 2.2 E-9 E-9 7.7 9.4 E-10 E-10 I-125 60.1 d F 2.0 E-8 2.3 1.000 1.000 E-8 1.5 1.1 E-8 E-8 7.2 E-9 E-9 M 5.1 0.200 0.100 5.6 6.9 E-9 E-9 3.6 2.6 E-9 E-9 1.4 1.8 E-9 E-9 S 0.020 2.4 E-9 0.010 1.8 1.0 E-9 E-9 4.8 6.7 E-10 E-10 3.8 E-10 I-126 13.0 d F 1.000 1.000 8.3 8.1 E-8 E-8 4.5 E-8 2.4 E-8 1.5 E-8 9.8 E-9 M 2.4 1.7 0.200 0.100 E-8 E-8 E 9 5.5 E-9 3.8-9.5 E-9 2.7 E-9 S 0.020 8.3 5.9 0.010 E-E-9 9 9 2.2 3.3 E-E-9 1.4 1.8 E-9 E-9 I-0.416 128 h F 1.5 1.1 10 1.000 1.000 E-E-E-E-11 10 4.7 2.7 1.6 E 11-11 1.3 E-11 M 1.2 0.100 0.200 1.9 E-10 E-10 5.3 E-11 E-11 2.2 3.4 E-11
E-11 S 0.020 1.9 1.9 5.4 0.010 1.2 E-10 E-10 E-11 E-3.5 2.0 2.3 E 11-11 E-11 I-129 7 E + a F 1.57 7.2 1.000 E-8 8.6 1.000 E-8 6.7 6.1 E-8 E-8 4.6 E-8 3.6 E-8 M 3.3 0.100 0.200 3.6 E-8 E-8 2.4 1.9 2.4 E-8 E-8 E-8 1.5 E-8 S 0.020 2.9 E 2.6-8 0.010 E-8 1.3 1.1 1.8 E-8 E-8 E-8 9.8 E-9 I-12.4 130 h F 1.000 1.000 7.4 8.2 E-9 E-9 3.5 E-9 1.6 E-9 1.0 E-9 6.7 E-10 M E-9 0.200 4.3 1.5 0.100 3.1 E-9 E-9 5.8 9.2 E-10 E-10 E-10 S 0.020 3.3 4.5 E-9 1.2 0.010 2.4 E-9 E-9 5.1 7.9 E-10 E-10 4.1 E-10 I-131 8.04 d F 1.000 1.000 7.2 7.2 E-8 E-8 3.7 E-8 1.1 1.9 E-8 E-8 7.4 E-9 M 1.5 0.100 0.200 2.2 E-8 E-8 E 8.2 4.7-9 E-9 2.4 3.4 E-9 E-9 S 0.010 6.2 0.020 8.8 E-9 E-9 2.0 2.4 3.5 E-9 E-9 E-9 1.6 E-9 I-2.30 h F 1.000 1.1 132 E-9 9.6 1.000 E-E-E-10 10 10 4.5 2.2 1.3 E-9.4 E 10-11 M 0.100 7.3 0.200 9.9 E-10 E-10 3.6 E-10 1.4 1.1 2.2 E-E-E-10 10 10 S 0.010 6.8 0.020 9.3 E-10 E-10 10 2.1 3.4 E-E-E-E-10 10 1.4 1.1 10 I-1.39 132 m h F 9.6 8.4 1.000 1.000 E-10 E-10 E 4.0 1.9-10 E-10 E-11 M 1.2 E-10 7.9 7.2 0.200 E-10 0.100 2.6 5.3 E-10 E-10 1.6 E-10
8.7 1.1 E-10 E-11 S 0.020 6.6 E-10 0.010 2.4 E-10 1.6 4.8 E-10 E-10 1.1 E-10 8.5 E-11 I-133 20.8 h F 1.000 1.000 1.8 1.9 E-8 E-8 3.8 8.3 E-9 E-9 1.5 2.2 E-9 E-9 M 0.200 0.100 4.4 6.6 E-9 E-9 1.2-2.1 E 9 5.5 7.4 E-9 E-10 E-10 S 0.020 0.010 2.9 3.8 E-9 E-9 1.4 E-9 5.3 9.0 E-10 E-10 4.3 E-10 I-134 0.876 h F 1.000 1.000 3.7 4.6 E-10 E-10 9.7 1.8 E-10 E-11 5.9 E-11 E-11 M 4.5 0.200 0.100 3.4 4.8 E-10 E-10 1.0 1.7 E-10 E-5.4 6.7 E 10-11 E-11 S 0.020 0.010 3.4 4.8 E-10 E-10 1.1 1.7 E-10 E-10 E 6.8-11 E-11 I-135 6.61 5.5 h F 4.1 1.000 E-9 3.7 1.000 E-9 4.8 7.9 1.7 E-9 E-10 E-10 0.200 2.2 3.2 E-10 M E-9 1.6 0.100 7.8 E 9-E-E-E-10 10 10 4.7 3.0 2.4 E-10 S 0.020 1.8 E-9 1.3 E-9 6.5 0.010 E-10 2.7 4.2 E-10 E-10 2.2 E-10 Caesium Cs-0.750 125 h F 1.000 1.000 8.3 1.2 E-10 E-11 3.9 E-2.4 E-11 11 11 1.2 1.4 E-E-11 M 2.0 E-10 0.100 1.4 0.200 E-10 E-11 4.2 E 6.5-11 2.7 2.2 E-11 E-11 S 0.010 1.4 0.020 2.1 E-10 E-10 E 6.8-11 4.4 2.8 E-11 E-11 2.3 E-11 Cs-6.25 127 h F 1.000 1.000 1.3 1.6 E-10 E-10 6.9 E-11 E-11 2.5 2.0 4.2 E-11 E-11 M 2.8 E-10 0.100 0.200 2.2 1.1 7.3 E-10 E-10 E-11 4.6 E-11 E-11 S 0.020 3.0 3.6 E-10 0.010 1.2 2.3 E-10 E-10 7.6 E-11 4.8 E-11 3.8 E-11 Cs-1.34 129 d F 2.8 E 1.000 1.000 3.4 E-10-10 1.4 E-10 E-11 E-11 4.2 5.2 8.7 E-11 M 5.7 0.200 0.100 4.6 E-10 E-10 2.4 E-10 7.3 9.1 1.5 E-10 E-11 E-11 S 0.010 4.9 0.020 6.3 E-10 E-10 2.5 E-E-E-10 10 1.6 9.7 7.7 E-11 Cs-130 0.498 11 h F 5.6 1.000 1.000 8.3 E-11 E-11 2.5 E-11
1.6 E-11 9.4 E-12 7.8 E-12 M 1.3 E-10 0.100 8.7 0.200 E-11 2.5 4.0 E-11 E-11 1.4 1.6 E-11 E-11 S 0.010 9.0 0.020 1.4 E-10 E-11 4.1 2.6 E E-11-11 11 1.4 1.7 E-E-11 Cs-131 9.69 d F E-2.4 1.7 10 1.000 1.000 E-E-E-11 11 10 8.4 5.3 3.2 E-11 2.7 E-11 M 3.5 E-10 0.100 0.200 2.6 E-10 1.4 E-10 8.5 E-11 E 5.5-11 E-11 S 0.020 4.4 3.8 2.8 E-10 E-10 0.010 9.1 1.4 E-10 E-11
5.9 4.7 E-11 E-11 Cs-132 6.48 1.000 1.000 E-9 1.2 1.5 d F E-E-E-10 10 9 6.4 4.1 2.3 2.7 E-10 E-10 M 1.5 0.100 0.200 1.9 E-9 E-9 5.4 3.7 8.4 E-10 E-10 E-10 2.9 E-10 S 0.010 1.6 2.0 0.020 E-9 E-9 5.6 8.7 E-10 E-10 3.8 E-10 3.0 E-10 Cs-134 2.06 a F 1.1 7.3 1.000 1.000 E-8 E-9 5.2 E-9 5.3 6.6 6.3 E-9 E-9 E-9 M 0.200 0.100 2.6 3.2 E-8 E-8 1.2 1.6 E-8 E-8 1.1 E-8 9.1 E-9 S 0.020 7.0 E-8 0.010 6.3 E-8 4.1 2.8 E-8 E-8 2.3 E-8 2.0 E-8 Cs-134 m 1.000 1.3 2.90 h F E-10 8.6 1.000 E-11 3.8 E-11 2.5 E-11 1.4 1.6 E-11 E-11 M 3.3 0.200 E-10 1.2 2.3 0.100 E-10 E-10 8.3 E-11 E-11 5.4 E 6.6-11 S 0.020 0.010 2.5 3.6 E-10 E-10 9.2 1.3 E-10 E-11 7.4 E-11 E-11 Cs-135 2.30 6.0 E + 6 a F 9.9 1.000 1.000 1.7 E-9 E-10
E-10 6.2 6.1 6.9 6.8 E-10 E-10 E-10 M 0.200 0.100 9.3 1.2 E-8 E-9 E-5.7 9 4.1 E-9 3.8 3.1 E-9 E-9 S 0.020 0.010 2.4 2.7 E-8 E-8 1.6 E-8 1.1 E-8 9.5 E-9 8.6 E-9 Cs-135 0.883 h F 1.000 1.000 7.8 9.2 E-11 E-11 4.1 1.5 E 2.4 E-E-11 11-11-11 M 0.200 1.2 1.2 E E-E-E-11 10 0.100 9.9 5.2 3.2 E 11-11 1.9 E-11 E-11 S 0.020 1.2 1.5 E-10 1.0 E-10 5.3 0.010 E-11
1.6 2.0 3.3 E-11 E-11 E-11 Cs-13.1 136 d F 1.000 1.000 5.2 E-7.3 E-9 9 9 2.0 E-9 1.4 2.9 E-E-E-9 1.2 1.3 1.0-8 E 9 M 0.200 0.100 E-8 6.0 E-9 3.1 3.7 E-9 E-9 E-9 S 0.020 1.5 2.5 E-8 0.010 1.1 E-8 E-5.7 9 4.1 2.8 3.5 E-9 E-9 E-9 Cs-137 8.8 30.0 a F 1.000 E-9 1.000 5.4 3.7 3.6 E-9 E-9 E-9 4.4 4.6 E-9 E-9 M 0.200 3.6 E-8 0.100 2.9 1.8 E-8 E-8 1.1 1.3 E-8 E-8 9.7 E-9 S 0.010 0.020 1.1 1.0 7.0 E-7 E-7 E-8 4.2 4.8 E-8 E-8 E-8 Cs-138 0.536 3.9 h F 1.000 1.000 1.8 2.6 E-10 E-10 E 8.1-11 5.0 E-11 2.9 E-11 2.4 E-11 M 4.0 E-10 0.200 0.100 1.3 2.7 E-10 E-10 E 7.8-11 4.9 E-11 4.1 E-11 S 0.020 4.2 E-10 0.010 2.8 E 8.2 1.3 E-10 10-E-E-E-11 4.3 5.1 11 11 14 Ba-Barium 0.600 6.7 126 1.61 h F E-10 0.200
5.2 E-10 2.4 E-E-E-11 10 10 1.4 6.9 7.4 E-11 M 0.200 1.0 7.0 E-10 3.2 0.100 E-9 E-10 1.0 1.2 2.0 E-10 E-10 E-10 S 0.010 7.2 0.020 1.1 E-9 E-10 3.3 E-10 2.1 1.1 1.3 E-10 E-10 E-10 Ba-E-9 128 2.43 d F 0.600 5.9 5.4 0.200 E-9 1.4 2.5 E-9 E-9 7.6 7.4 E-10 E-10 M 1.1 0.200 E-8 0.100 7.8 E 9 3.7-E-9 2.4 E-9 1.3 1.5 E-9 E-9 S 0.020 1.2 E-8 0.010 8.3 E-9
4.0 E-9 1.4 1.6 2.6 E-9 E-9 E-9 Ba-11.8 131 d F E-9 1.4 0.200 0.600 2.1 7.1 E-9 E-10 2.2 4.7 E-10 3.1 E-10 E-10 M 0.100 3.1 0.200 3.7 E-9 E-9 1.6 E-9 E-1.1 9 9.7 E-10 7.6 E-10 S 0.020 4.0 E-9 0.010 3.0 E-9 1.3 1.1 1.8 E-E-E-9 9 9 0.243 8.7 E-10 Ba-131 m h F E-11 0.200 2.1 2.7 0.600 E-11 1.0 E-11 4.7 6.7 E-12 E-12 4.0 E-12 M 3.3 0.100 0.200 4.8 E-11 E-11 1.7 1.2 E-11 E-11 7.4 9.0 E-12 E-12 S 0.020 0.010 3.5 5.0 E-11 E-11 1.2 1.8 E-11 E-11 9.5 E-12 7.8 E-12 Ba-133 0.600 1.1 10.7 a F E-8 0.200 3.7 4.5 2.6 E-9 E-9 E-9 6.0 E-9 E-9 M 1.5 1.5 0.100 0.200 1.0 E-8 E-8 6.4 5.1 E-9 E-9 5.5 E-9 E-9 S 0.020 3.1 3.2 E-8 0.010 2.9 E-8 2.0 E-8 1.3 1.1 1.0 E E-E-8 8-8 Ba-133 m 1.4 0.600 1.62 d F E-9 0.200
3.1 4.9 1.1 E-9 E-10 E-10 1.5 E 3.0 0.200 1.8 E-10 M-10 E-9 0.100 2.2 1.0 E-9 E-9 6.9 E-10

4.2 5.2 E-10 E-10 S 0.020 3.1 0.010 2.4 E-E-9 9 9 7.6 5.8 1.1 E-E-E-10 10 4.6 E-10 Ba-135 1.20 d F E-9 1.0 1.1 0.600 0.200 4.6 E-10 E-9 1.2 1.4 2.5 E-10 E-10 E-10 M 2.4 E-9 0.100 0.200 1.8 E-9 5.4 8.9 E-10 E-10 3.3 4.1 E-10 E-10 S 0.010 1.9 0.020 2.7 E-9 E-9 5.9 8.6 E-10 E-10 4.5 E-10 3.6 E-10 Ba-139 1.38 0.600 3.3 h F E-10 0.200 2.4 E-10 1.1 6.0 E-10 E-11 3.1 3.4 E-11 E-11 M 3.5 0.100 0.200 5.4 E-10 E-10 1.6 E-10 1.0 E-10 E 6.6-11 E-11 S 0.020 5.6 5.7 3.6 E-10 E-10 0.010 1.1 1.6 E-10 E-10 7.0 E-11 5.9 E-11 Ba-12.7 d F 0.600 1.4 140 E-8 3.6 7.8 0.200 E-9 E-9 1.6 2.4 E-9 E-9 1.0 E-9 M 0.200 0.100 2.0 2.7 E-8 E-8 7.6 6.2 1.1 E-8 E-9 E-9 5.1 E-9 S 0.020 0.010 2.2 2.9 E-8 E-8 1.2 E-8 7.1 8.6 E-9 E-9 E 5.8-9 Ba-141 0.600 1.9 0.305 h F E-E-E-10 10 0.200 1.4 6.4 3.8 E 11-11 2.1 2.1 E-11 E-11 M 0.200 0.100 2.0 3.0 E-10 E-E-E-11 10 9.3 5.9 3.8 3.2 E E-11 11-11 S 0.010 2.1 0.020 3.2 E-10 E-10 9.7 E-11 E-11 4.0 E-11 3.4 6.2 E-11 Ba-142 0.177 0.600 1.3 h F E-10 0.200 9.6 E-11 E-11 2.7 E 4.5-1.5 1.6 E 11-11 E-11 M 1.8 E-10 0.100 0.200 1.3 E-10 6.1 E-11 3.9 E-11
2.1 2.5 E-11 E-11 S 0.020 1.9 0.010 1.3 E-E-10 10 6.2 E 2.6 E 4.0 E-11-11-11-11 Lanthanum La-131 0.983 2.2 E h F 0.005 5.0 1.2 E-10 E-4 E-11 4.2 E 8.7-11 2.6 1.3 1.5 E E-11-11 E-11 M 5.0 0.005 1.8 E-10 E-4 1.3 E-10 6.4 E-11 E-4.1 2.8 E 11-11 2.3 E-11 La-132 0.005 1.0 E 5.0 4.80 h F-9 E-4 E 7.7-3.7 10 E-10 1.0 1.2 2.2 E-10 E-10 E-10 M 1.5 E-9 0.005 5.0 E-4
E-1.1 9 5.4 2.0 E-10 3.4 E-10 E-10 1.6 E-10 La-19.5 135 h F 1.0 5.0 E-4 E-10 0.005 7.7 E-11 E-11 2.3 3.8 1.3 1.0 E E-E-11 11-11 M 0.005 1.3 1.0 5.0 E-10 E-4 E-10 4.9 1.7 E 3.0 E E-11-11-11 1.4 E-11 La-6.00 137 E + 4 a F 0.005 2.5 5.0 E-4 E-8 2.3 1.5 1.1 E E-E-8 8-8-9-9 M 8.9 E 8.7 E 5.0 E-4 E-9 0.005 8.6 8.1 E-E-E-9 9 9 5.6 4.0 3.6 E-9
3.6 E-9 La-138 1.35 E + 11 a F 0.005 5.0 3.5 3.7 E-7 E-4 E-7 2.4 E-7 1.5 1.6 1.8 E-7 E-7 E-7 M 5.0 0.005 1.3 E-7 E-4 9.1 1.2 E-7 E-8 6.8 6.4 6.4 E E-E-8 8-8 La-140 5.0 5.8 0.005 1.68 d F E-9 E-4 E-9 1.2 2.0 4.2 E-9 E-9 E-5.7 6.9 E-10 10 M 5.0 E-4 E-9 0.005 8.8 6.3 E-9 E-9 1.3 3.1 2.0 E-9 E-9 E-1.1 9 La-0.005 8.6 141 3.93 h F E-10 5.0 5.5 E-4 E-10 2.3 E-10 7.5 E-11 6.3 1.4 E-10 E-11 M 5.0 E-4 E-9 1.4 0.005 9.3 E-10 1.8 4.3 E-10 2.8 E-10 E-10 1.5 E-10 La-1.54 142 h F 5.0 5.3 0.005 E-10 E-4 E 3.8-1.8 E-10 1.1 10 E-10 E-11 5.2 E 6.3-8.1 0.005 E-10 11 M 5.0 E-4 E-5.7 10 2.7 1.1 1.7 E-10 E-10 E-10 8.9 E-11 La-0.005 1.4 0.237 143 h F E-10 5.0 E-E-E-11 4 8.6 3.7 11 2.3 E-11 1.4 E-11 0.005 2.1 1.2 E-11 M E-10 5.0 6.0 E-4 1.3 E-10 E-11 3.9 2.1 2.5 E-11 E-11 E-11 Cerium Ce-134 3.00 d F E-4 E-9 0.005 7.6 5.0 5.3 E-9 1.4 2.3 E-9 E-9 E-5.7 7.7 E-10 10 M 0.005 1.1 5.0 E-8 E-4 E-9 3.7 7.6 E-9 2.4 E-9 1.3-1.5 E 9 0.005 1.2 E-9 S E-8 8.0 E-9 3.8 5.0 E-4 E-9 1.6 2.5 E-9 E-9 1.3 E-9 Ce-17.6 135 h F 2.3 E-9 0.005 5.0 E-4
1.7 E-9 5.3 8.5 E-10 E-10 3.0 E-10 2.4 E-10 M 3.6 5.0 E-4 E-9 0.005 2.7 E-9 1.4 E-9 4.8 5.9 8.9 E-10 E-10 E-10 S 5.0 E-4 E-9 0.005 3.7 2.8 E-9 1.4 E-9 9.4 E-10 E 6.3-10 E-10 Ce 5.0-7.5 E 137 9.00 h F 0.005-11 5.0 E-4 E-11 5.6 1.6 2.7 E-11 E-11 8.7 E-12 7.0 E-12 M 0.005 1.1 5.0 E-10 E-4 E-11 3.6 E 7.6-11 1.2 2.2 E-11 E-11 9.8 E-12 S 0.005 1.1 E-10 5.0 E-4 E 7.8-11 3.7 E-11 2.3 1.3 1.0 E E-E-11 11-11 Ce-1.43 137 m d F 1.6 0.005 E-9 E-4 1.1 5.0 E-9 4.6 E-10 2.8 E-10 1.2 1.5 E-10 E-10 M 5.0 E-0.005 3.1 E-9 4 2.2 1.1 9 E-E-E-E-10 10 9 6.7 5.1 4.1 E-10 S E 3.3-9 0.005 5.0 E-4 E-9 1.0 E 2.3-5.6 7.3 9 E-10 E-10 4.4 E-10 Ce-139 138 d F 0.005 1.1 5.0 E-8 E-4 4.5 8.5 E-9 E-9 2.8 1.8 E-9 E-9 1.5 E-9 M 5.0 E-4 E-9 0.005 7.5 6.1 3.6 E E-9-9-9-9 1.7 2.1 2.5 E E E-9 S 7.8 E 9 0.005 5.0-6.3 E-4 E-3.9 2.7 E-E-9 9 9 9 1.9 2.4 E-E-9 Ce-141 32.5 0.005 1.1 5.0 E-8 d F E-4 E-7.3 9 3.5 E-9 1.2 2.0 E-9 E 9 0.005 1.4-9.3 E-10 M E-8 1.1 5.0 E-4 E-8 4.1 4.6 E 6.3-9 E-9 E 9 0.005 1.6-3.2 E-9 S E-8 1.2 5.0 E-4 E-8 7.1 E-9
5.3 E-9 4.8 E-9 E-9 Ce 143 1.38 3.8 d F 5.0 E-4 E-9 0.005 3.6 2.3 E-9 1.0 E-9 3.3 6.2 E-10 E-10 2.7 E-10 M E-4 E-9 0.005 5.6 5.0 3.9 E-9 1.3-1.9 E 9 E-9.3 E-10 9 7.5 E-10 S E-4 E-9 0.005 5.9 5.0 2.1 4.1 E-9 E-9 1.4 E-9 1.0 E-9 8.3 E-10 Ce-144 284 d 3.6 5.0 E-7 E F 0.005-4 1.4 2.7 E-7 E-7 7.8 E-8 4.8 E-8 E-8 M 4.0 1.9 0.005 E-7
1.6 5.0 E-4 E-7 E-8 5.5 8.8 E-8 3.6 4.1 E-8 E-8 S 5.0 2.1 0.005 E-7 E-4 E-7 1.1 7.3 1.8 E-7 E-8 5.3 5.8 E-8 E-8 Praseodymium Pr-136 0.218 0.005 1.3 h M E-10 5.0 E-4 E-11 4.2 E 8.8-11 2.6 1.3 1.6 E E-11-11 E-11 S 0.005 5.0 9.0 1.3 E-10 E-4 E-11 4.3 E-11 E-11 E-11 1.4 1.7 2.7 E-11 Pr-0.005 1.8 E-10 137 1.28 h M 5.0 E-4 1.3 E-E-E-11 11 10 6.1 3.9 2.4 E-11 E-11 S 0.005 1.9 2.0 E-10 5.0 E-4 1.3 E-10 6.4 E-11 E-11 2.5 4.0 E-11 2.1 E-11 Pr 138m 0.005 5.9 2.10 h M E-10 4.5 5.0 E-4 E-10 1.4 2.3 E-10 E-E-E-11 10 9.0 7.2 11 S 5.0 6.0 E-10 E-4 0.005 4.7 1.5 2.4 E-10 E-10 E-10 9.3 E-11 E-11 Pr-139 7.4 4.51 h M 0.005 1.5 1.1 5.0 E-10 E-4 E-3.5 E 5.5 E 10-11-11 2.3 E-11 E-11 S 0.005 1.6 1.8 E-10 5.0 E-4 1.2 E-E-E-5.7 10 11 11 11 2.0 2.4 E-3.7 E-11 Pr-142 h 19.1 M 5.0 5.3 0.005 E-9 E-4 E-9 1.6 3.5 1.0 E-E-9 9 10 10 6.2 E-5.2 E-S E 5.5-5.0 E 9 0.005-3.7 4 E-9 1.7 E-9 E-1.1 9 5.5 6.6 E-10 E-10 Pr-0.243 h M 142m 0.005 6.7 4.5 5.0 E-11 E-4 E-11 2.0 1.3 E-11 E-11 7.9 E-12 E-12 S 7.0 6.6 0.005 E 5.0 4.7-11 E-4 E-11 E 2.2-1.4 E 11-11 8.4 E-12 7.0 E-12 Pr-143
13.6 0.005 M d 5.0 1.2 E-8 E-4 4.6 8.4 E-9 E-9 3.2 2.2 2.7 E-9 E-9 E-9 S 5.0 E-4 E-8 1.3 0.005 9.2 E-9 5.1 E-9 3.0 3.6 E-9 E-9 2.4 E-9 Pr-144 0.288 h M 5.0 0.005 1.9 E-10 E-4 E-5.0 1.2 E-10 11 3.2 E-11 E-11 1.8 2.1 E-11 S 5.0 0.005 1.9 E-10 E-4 1.2-5.2 3.4 E E E-11 10-11 1.8 2.1 E-11 E-11 Pr-5.98 145 h M 1.6 0.005 E-9 1.0 5.0 E-4 E-9
4.7 1.9 3.0 E-10 E-10 E-10 E-10 S 0.005 1.6 1.6 E-9 E-4 1.1 5.0 E-9 4.9 E-10 3.2 E-10 1.7 2.0 E-10 E-10 Pr-147 0.227 h M 0.005 1.5 1.0 5.0 E-10 E-4 E-E-E-11 10 4.8 3.1 2.1 E 11-11 E-11 S 0.005 1.6 1.8 E-10 1.1 5.0 5.0 E-4 E-10 E-11 2.2 3.3 E-11 E-11 1.8 E-11 Neodymium Nd-0.005 4.6 E-10 136 0.844 h M 5.0 E-4 E-10 1.6 3.2 E-10 9.8 E-11 E-11 5.1 E 6.3-11 S
5.0 0.005 4.8 E-10 E-4 E 3.3-1.0 1.6 10 E-10 E-10 E 6.6-11 E-11 Nd-138 5.04 5.4 h M 5.0 E-4 E-9 0.005 2.3 1.7 E-9 4.8 7.7 E-10 E-10 2.8 E-10 0.005 2.4 2.3 E-10 S E-9 5.0 E-4 1.8 E-9 8.0 E-10 5.0 E-10 2.5 3.0 E-10 E-10 Nd-0.495 139 h M 5.0 9.0 0.005 E-11 E-4 E 6.2-11 E-11 1.9 3.0 E-11 1.2 E-11 9.9 E-12 S 0.005 9.4 E-11 5.0 E-4 E-11 E-11 2.0 3.1 6.4 E-11 1.3 1.0 E-11 E-11 Nd-5.50 h M 139m 0.005 1.1 5.0 E-9 E-4 E-8.8 10 4.5 2.9 1.8 E E-E-10 10-10-10 S 0.005 1.2 1.5 E E-9 5.0 E-4 4.6 9.1 E-10 E-10 1.9 3.0 E-10 E-10 E-10 Nd-141 2.49 1.5 h M 5.0 E-4 E 0.005 4.1-11 3.1 E-11 1.5 E-11 9.6 E-12 6.0 E-12 4.8 E-12 S 4.3 0.005 E-11 E-4 3.2 5.0 E-11 1.6 E-11 E-1.0 5.0 6.2 E 11-12 E-12 Nd-11.0 147 d 0.005 M
1.1 5.0 E-4 E-8 8.0 E-9 2.6 3.2 4.5 E-9 E-9 E-9 1.2-2.1 E 9 0.005 S E-8 E-4 4.9 5.0 8.6 E-9 E-9 3.0 3.5 E-9 E-9 2.4 E-9 Nd-1.73 149 h M 5.0 0.005 6.8 E-10 E-4 4.6 E-10 1.0 1.5 2.2 E-10 E-10 E-0.005 7.1 8.4 E 10-11 S E-10 5.0 E-4.8 2.3 E 4 E-10-10 1.5 1.1 10 E-E-E-11 Nd-151 0.207 8.9 10 h M 5.0 1.5 0.005 E-10 E-E-E-11 4 9.9 4.6 3.0 E 11-11
1.7 2.0 E-11 E-11 S 0.005 1.5 1.0 5.0 E-10 E-4 E-E-E-11 10 4.8 3.1 2.1 E 11-11 1.7 E-11 Promethium Pm-141 0.348 h M 1.4 0.005 E-10 5.0 E-4 E-11 4.3 9.4 E-11 2.7 E-1.4 1.7 11 E-11 E-11 S 0.005 5.0 1.5 E-10 E-4 E-11 4.4 2.8 E-11 9.7 E-11 1.5 1.8 E-11 E-11 Pm-143 265 d 5.0 E-0.005 M 6.2 E-9 4 2.2 3.3 5.4 E-9 E-9 E-9 1.7 E-9 0.005 5.5 1.5 E-9 S E-9 5.0 E-4 E-9 4.8 3.1 2.1 E E-9-9-9 1.4 1.7 E E-9 Pm-144 363 d M 0.005 3.1 2.8 5.0 E-8 E-4 E-8 1.2 1.8 E-8 E-8 9.3 E-9 0.005 2.6 8.2 E-9 S E-8 2.4 5.0 E-4 E-8 1.6 E-8 1.1 E-8 8.9 E-9 7.5 E-9 Pm-145 17.7 0.005 1.1 5.0 E-8 a M E-4 E-9 4.3 6.4 9.8 E-9 E-9 3.7 3.6 E-9 E-9 S 5.0 E-4 E-9 0.005 7.1 6.5 E-9 2.9 4.3 E-9 E-9 2.3 2.4 E-9 E-9 Pm-146 0.005 6.4 5.53 a M E-8 5.0 3.9 5.9 E-4 E-8 E-8 2.1 2.2 2.6 E-8 E-8 E-8 S 0.005 5.3 E-8 E-4 4.9 5.0 E-8 2.2 3.3 E-8 E-8 1.7 1.9 E-8 E-8 Pm-147 0.005 2.1 2.62 a M E-8 1.8 E-8 1.1 5.0 E-4 E-8 7.0 E-9 E-5.7 9 5.0 E-9 S 5.0 E-4 E-0.005 1.9 8 1.6 E-8 1.0 E-8 E 5.8-9 4.9 6.8 E-9 E-9 Pm-148 5.37 d 5.0 1.5 0.005 M E-8 E-4
1.0 E-8 5.2 3.4 E-E-9 9 9 2.0 2.4 E-E-9 S 0.005 1.5 1.1 5.0 E-8 E-4 E-8 E 9 5.5 3.7-E-9 2.6 E-9 2.2 E-9 Pm-148 m 41.3 d M 5.0 E-4 E-8 0.005 2.4 1.9 E-8 1.1 E-8 7.7 E-9 E-9 S E 6.3-9 5.1 0.005 2.5 2.0 5.0 E-8 E-4 E-8 1.2 E-8 7.1 8.3 E-9 E-5.7 9 E-9 Pm-2.21 149 d M 5.0 5.0 E-4 E-9 0.005 3.5 E-9 1.7 E-9 E-1.1 9 6.7 8.3 E-10 E-10
 
 
S 5.0 5.3 0.005 E-9 E-4 3.6 E-9 1.2 1.8 E-9 E-9 7.3 9.0 E-10 E-10 Pm-2.68 150 h M 5.0 1.2 0.005 E-9 E-4 E 7.9-10 3.8 E-10 2.4 E-10 1.2 1.5 E-10 E-10 S 1.2 E-9 0.005 5.0 3.9 8.2 E-4 E-10 E-10 2.5 1.3 1.6 E-10 E-10 E-10 Pm-1.18 151 d M 3.3 0.005 E-9 1.2 2.5 5.0 E-4 E-9 E-9 5.3 8.3 E-10 E-10 0.005 3.4 4.3 E-10 S E-9 5.0 E-4 E 2.6-9 1.3 E-9
4.6 7.9 5.7 E-10 E-10 E-10 Samarium Sm-141 0.170 0.005 M 1.5 h E-10 1.0 5.0 E-4 E-E-E-11 11 10 4.7 2.9 1.5 1.8 E-11 E-11 Sm-141 m 0.377 h M 5.0 E-4 E-10 0.005 3.0 2.1 9.7 E E-10-11-11-11 3.2 6.1 E 3.9 E E-11 Sm-142 1.21 0.005 7.5 h M E-10 5.0 E-4 E 4.8-10 2.2 E-10 1.4 E-10 8.5 E-11 145 340 7.1 E-11 Sm-d M E-4 E-9 0.005 8.1 5.0 4.0 E 6.8-9 E-9 1.9 2.5 E-9 E-9 1.6 E-9 Sm-108 a M 146 1.03 0.005 2.7 E-5 E-4 2.6 5.0 E-5 E-5 1.7 1.2 1.1 1.1 E-5 E-5 E-5 Sm-147 1.06 0.005 2.5 5.0 1011 a M E-5 E-4 1.6 2.3 E-5 E-5 9.6 1.1 E-5 E-6 E-6 Sm-151 90.0 a 9.6 M 0.005 1.1 1.0 E 5.0 E-8 E-4-4.5 6.7 8 E-9 E-9 4.0 4.0 E-9 E-9 Sm-153 1.95 d M 5.0 E-4 E-9 0.005 4.2 2.9 E-9 1.0 1.5 E-9 E-9 6.3 7.9 E-10 E-10 Sm-155 0.368 0.005 M 1.5 h E-10 5.0 E-4 9.9 E-11 4.4 E-11 2.9 1.7 2.0 E-11 E-11 E-11 Sm-156 9.40 h M 1.6 0.005 E-9 E-4 E-1.1 5.0 5.8 3.5 E E-10 9-10 2.2 2.7 E-10 E-10 Europium Eu 5.94 145 d 3.6 5.0 E-4 E-9 0.005 2.9 E-9 1.6 E-9 1.0 E-9 E 6.8-10 5.5 E-10 Eu-4.61 146 d 5.0 5.5 0.005 M E-9 E-4 E 4.4-2.4 E-9 9 9 9 1.0 1.5 8.0 E-E-E-10 Eu 147 24.0 d M

0.005 4.9 5.0 E-E-9 4 2.2 3.7 E-9 E-9 1.6 E-9 1.3 1.1 E-9 E-9 Eu 54.5 148 d M 5.0 E-4 E-8 0.005 1.4 1.2 E-8 3.2 4.6 E 6.8-9 E-9 E-9 E-9 Eu-149 93.1 d 2.6 M 1.6 0.005 5.0 E-4 E-9 1.3 E-9 7.3 4.7 E-10 E-2.9 3.5 E-10 10 E-10 Eu-150 0.005 1.1 5.0 34.2 a M E-7 E-4 E-7 1.1 7.8 E-8 E-5.7 5.3 5.3 E-E-8 8 8 Eu 12.6 150 h M 1.6 0.005 5.0 E-9 E-4 E-1.1 9 5.2 3.4 2.3 E E-E-10 10-10-10 Eu-152 13.3 1.9 E a M 0.005 1.1 1.0 E 5.0 E-7 E-4-7 7.0 E-8 4.9 4.3 4.2 E E-E-8 8-8 Eu 152m 0.005 1.9 9.32 h M E-9 1.3 5.0 E-4 E-9 4.2 6.6 E-10 E-10 2.2 2.4 E-10 E-10 Eu-154 0.005 1.6 8.80 a M E-7 E-4 1.5 E-7 9.7 5.0 E-8 6.5 5.6 5.3 E E-E-8 8-8 Eu-155 0.005 2.6 4.96 a M E-8 2.3 5.0 E-4 E-8 1.4 E-8 9.2 7.6 E E-9-9-9 Eu-156 15.2 6.9 E d M 0.005 1.9 E-8 E-4 1.4 5.0 E-8 7.7 E-9 5.3 E-9 3.4 4.2 E-9 E-9 Eu-157 0.005 2.5 5.0 E-9 15.1 h M E-4 E 1.9-5.9 8.9 E-10 9 E-10 2.8 3.5 E-10 E-10 Eu-0.765 158 h 4.3 0.005 M E-10 5.0 E-4 1.3 2.9 E-10 E-10 8.5 E-11 5.6 E-11 4.7 E-11 Gadolinium Gd-0.005 1.3 E-10 145 0.382 h F 5.0 E-4 E-11 4.7 9.6 E-11 2.9 E-11
1.4 1.7 E-11 E-11 M 5.0 E-4 E-0.005 1.8 1.3 E-10 10 6.2 E-11 3.9 E-11 E-11 2.0 2.4 E-11 Gd-0.005 2.9 146 48.3 d F E-8 E-5.0 1.2 2.3 E 4-8 E-8 5.1 7.8 E-9 E-9 4.4 E-9 0.005 M 2.8 E-8 1.3 2.2 5.0 E-4 E-8 E-8 6.4 7.9 9.3 E-9 E-9 E-9 147 1.59 d F Gd-0.005 5.0 E-4 1.7 2.1 E-9 E-9 5.3 8.4 E-10 E-10 E 2.6-3.1 E-10 10 M 2.8 E-9 0.005 5.0 E-4
E-9 1.1 2.2 7.5 E-9 E-10 5.1 4.0 E-10 E-10 Gd-0.005 8.3 148 93.0 a F E-5 E-4 5.0 4.7 7.6 E-5 E-5 2.6 2.6 3.2 E-5 E-5 E-5 M 5.0 0.005 3.2 E-5 E-4 E-5 2.9 1.9 E-5 E-5 1.2 1.3 1.1 E-5 E-5 Gd-0.005 2.6 149 9.40 d F E-9 2.0 5.0 E-4 E-9 3.1 8.0 E-10 5.1 E-10 E-10 2.6 E-10 M 3.6 5.0 E-4 E-9 0.005 3.0 E-9 E-9 1.5 1.1 7.3 9.2 E-9 E-10 E-10
GD-0.005 6.3 151 120 d F E-9 E-4 4.9 5.0 E-9 1.5 2.5 E-9 E-9 7.8 9.2 E-10 E-10 M 4.5 5.0 E-4 E-9 0.005 3.5 2.0 E-9 E-9 1.3 E-9 1.0 E-9 1014 8.6 E-10 Gd-152 1.08 a F 0.005 5.9 5.4 5.0 E-5 E-4 E-5 2.4 3.4 E-5 E-5 1.9 1.9 E-5 E-5 M 5.0 E-5 E-0.005 2.1 4 1.3 1.9 E-5 E-5 7.9 8.9 E-6 E-6 8.0 E-6 Gd-153 242 0.005 1.5 d F E-8 5.0 E-4
1.2 E-8 E-9 6.5 3.9 2.1 2.4 E-9 E-9 E-9 M 5.0 E-4 E-9 0.005 9.9 7.9 E-9 4.8 E-9 3.1 2.1 2.5 E-9 E-9 E-9 Gd-18.6 159 h F 1.2 E-9 0.005 5.0 E-4 E-8.9 10 1.2 2.3 3.8 E-10 E-10 E-10 1.0 E 5.0 0.005 2.2-10 M E-9 E-4 1.5 E-9 4.9 7.3 E-10 E-10 3.4 2.7 E-10 E-10 Terbium Tb-h 1.65 M 0.005 6.7 147 E-10 5.0 E-4 E-4.8 2.3 1.5 E-E-10 10 10 9.3 E-11 7.6 E-11 Tb-4.15 149 h M 5.0 2.1 0.005 E-8 E-4 1.5 E-8 6.6 9.6 E-9 E-9 E 5.8-9 E-9 Tb-150 3.27 4.9 h M 1.0 E 5.0 E-0.005-9 4 2.2-3.5 7.4 E-10 E 10 E-10 1.1 1.3 E-10 E-10 Tb-17.6 151 h M 1.6 0.005 5.0 E-4 E-9 1.2 E-9 E 6.3-10 2.8 E-10 2.3 4.2 E-10 E-10 Tb-153 0.005 M 2.34 d 5.0 E-E-9 1.4 4 5.4 9 1.0 E-E-E-E-10 10 10 3.6 2.3 1.9 E-10 Tb-21.4 h 154
2.7 E-9 0.005 m 5.0 2.1 1.1 9 E-4 E-E-E-E-10 7.1 4.5 9 10 155 5.32 d 3.6 E-10 Tb-M 1.4 0.005 E-9 1.0 5.0 E-4 E-9 3.4 5.6 E-10 E-10 2.2 2.7 E-10 E-10 Tb-0.005 7.0 E-9 156 5.34 d M 5.0 E-4 5.4 2.0 3.0 E-9 E-9 E-9 1.2 1.5 E-9 E-9 Tb-156m 1.02 d M 1.1 5.0 E-4 E-9 0.005 9.4 E-10 3.3 4.7 E-10 E-10 2.1 2.7 E-10 E-10 Tb-5.00 h M 156m 0.005 6.2 E-10
4.5 5.0 E-4 E-10 E-2.4 1.7 1.2 E-E-10 10 10 9.6 E-11 Tb-0.005 3.2 157 150 a M E-9 5.0 E-4 2.0 3.0 E-9 E-9 1.4 E-9 1.2 1.2 E-9 E-9 Tb-0.005 1.1 158 150 a M E-7 1.0 5.0 E-4 E-7 E-8 5.1 7.0 E-8 4.7 E-8 4.6 E-8 Tb-72.3 d 160 M 0.005 3.2 E-8 2.5 5.0 E-4 E-8 1.5 1.0 E-8 E-8 8.6 E-9 7.0 E-9 Tb-0.005 M 161 6.91 d 5.0 4.7 6.6 E-9 E-4 E-9
2.6 E-9 1.6 1.9 E-9 E-9 1.3 E-9 Dysprosium Dy-0.005 5.6 155 10.0 h M E-10 5.0 E-4 E-10 4.4 E-10 2.3 1.5 E-10 9.6 E-11 7.7 E-11 Dy-8.10 157 h M 5.0 E-0.005 2.4 E-10 4 9.9 1.9 E-10 E-11 E-11 3.8 6.2 E-11 3.0 E-11 Dy-159 144 d 5.0 2.1 0.005 M E-9 E-4 E-9 9.6 1.7 E-10 6.0 E-10 4.4 E-10 3.7 E-10 Dy-2.33 165 h M 5.0 E-4 E-10 0.005 5.2 3.4 E-10 1.1 1.6 E-10 E-10 7.2 6.0 E-11 E-11 Dy-3.40 166 d 5.0 1.2 0.005 M E-8 E-4 E-9 8.3 4.4 E-9 2.3 1.9 3.0 E-E-E-9 9 9 Holmium Ho-155 0.005 1.7 0.800 h M E-10 5.0 E-4 E-11 3.7 5.8 1.2 E-10 E-11 2.0 2.4 E-11 E-11 157 0.210 h M 3.4 E Ho-0.005-11 2.5 5.0 E-4 E-11 1.3 E-11 8.0 E-12 5.1 E-12 4.2 E-12 Ho-0.005 4.6 E-11 159 0.550 h M 5.0 E-4 E-11 1.7 E 3.3-1.1 E 11-11 7.5 E-12
6.1 E-12 Ho-0.005 5.7 E-11 161 2.50 h M 5.0 4.0 E-4 E-11 1.2 2.0 E-11 E-11 7.5 E-12 6.0 E-12 Ho-0.005 162 0.250 h M 5.0 1.5 2.1 E-11 E-4 E-11 7.2 E-12 3.4 4.8 E-12 E-12 2.8 E-12 Ho-1.13 162 m h M 5.0 E-4 E-0.005 1.5 1.1 10 E-10 E 5.8-11 E-2.1 2.6 3.8 E-11 11 E-11 0.483 164 h M E Ho-0.005 6.8-11 E-4 4.5 5.0 2.1 E E-11-11-11 9.9 1.4 E E-12 8.4 E-12 Ho-164 0.625 h M 5.0 E-4 E-11 0.005 9.1 5.9 E-11 E-11 2.0 3.0 E-11 1.2 1.3 E-11 E-11 Ho-166 1.12 d 6.0 E-9 0.005 M 5.0 4.0 1.9 E-9 E-4 E-9 1.2 E-9 6.5 7.9 E-10 E-10 Ho-103 a M 1.20 0.005 2.6 166m E-7 E-4 1.8 2.5 5.0 E-7 E-7 1.2 1.2 1.3 E-7 E-7 E-7 Ho-0.005 5.2 E-10 167 3.10 h M E-4 3.6 5.0 E-10 1.2 1.8 E-10 E-E-E-11 11 10 8.7 7.1 Erbium Er-3.24 161 h M
0.005 2.9 3.8 5.0 E-10 E-4 E-10 1.5 E-10 9.5 E-11 6.0 E-11 4.8 E-11 There-0.005 7.2 10.4 165 h M E-11 5.0 E-4 E 2.6 5.3 E-11-11-11 9.6 1.6 E E-12 7.9 E-12 There-9.30 169 d 5.0 4.7 0.005 M E-9 E-4 1.5 2.0 3.5 E-9 E-9 E-9 1.3 E-9 1.0 E-9 Er-0.005 1.8 E-9 171 7.52 h M 5.0 E-4 E-9 1.2 5.9 E-10 3.9 2.7 2.2 E E-E-10 10-10-172 2.05 d M 6.6 0.005 5.0 E-9 E-4 E 4.7-9 1.4 1.7 2.5 E-9 E-9 E-9 E-1.1 9 Thulium Tm-0.362 h M 162 0.005 1.3 E-10 5.0 E-4 E-11 4.7 9.6 E-11 1.9 3.0 E-11 E-11 Tm E-11-166 7.70 h 1.6 M 1.3 E-9 0.005 5.0 E-E-E-10 10 4 9.9 5.2 2.2 3.3 E-10 E-10 E-10 Tm-167 9.24 d 1.7 M 5.0 E-4 E-9 0.005 5.6 4.1 2.3 E E-9-9-9 1.4 1.7 E E-9 E-1.1 9 Tm-170 129 d 3.6 5.0 E-4 E-8 0.005 2.8 E-8
1.1-1.6 E 8 E-8 8.5 E-9 1.92 7.0 E-9 Tm-171 a M E 6.8-9 0.005 5.0 E-4 E-5.7 9 3.4 E-9 1.4 1.6 2.0 E-9 E-9 E-9 Tm-0.005 8.4 E-9 172 2.65 d M 5.0 5.8 E-4 E-9 1.4 2.9 E-9 1.9 E-9 E-9 E-1.1 9 Tm-173 8.24 0.005 M 1.5 h E-9 1.0 5.0 5.0 E-4 E-9 E-10 2.2 3.3 E-10 E-10 1.8 E-10 Tm 175 0.253 h M 0.005 1.6-E-10 5.0 E-4 E-1.1 5.0 E 10-11 3.3 E-11
1.8 2.2 E-11 E-11 Ytterbium Yb-0.315 162 h M 1.1 5.0 E-4 E-10 0.005 7.9 E-E-E-11 11 11 3.9 2.5 1.3 1.6 E-11 E-11 S 0.005 5.0 1.2 E-10 E-4 E 4.0 8.2 E-11-11 11-11 1.4 1.7 E 2.6 E-E-11 Yb-166 2.36 d 5.0 4.7 0.005 M E-9 E-4 3.5 E-9 1.3-1.9 E 9 E-9 7.2 9.0 E-10 E-10 S 4.9 5.0 E-4 E-9 0.005 3.7 E-9 2.0 E-9 1.3 E-9 7.7 9.6 E-10 E-10 Yb-0.005 0.292 167 h M
4.4 3.1 5.0 E-11 E-4 E-E-E-11 11 11 1.6 1.1 7.9 E-12 6.5 E-12 S 0.005 4.6 E-11 5.0 E-4 3.2 E-11 1.7 E-11 1.1 E-11 8.4 E-12 6.9 E-12 Yb-169 d 32.0 M 5.0 E-4 E-8 1.2 0.005 8.7 3.7 5.1 E-E-9 9 9 9 E-E-E-9 S 2.5 3.2 0.005 1.3 E-8 E-4 9.8 5.0 E-9 5.9 E-9 4.2 E-9 E-9 3.0 E 3.7-9 Yb-175 d 4.19 M 5.0 3.5 E 0.005-9 E-4 E-9 1.4 2.5 E-9 9.8 E-10
6.5 8.3 E-10 E-10 S E-4 E-9 0.005 3.7 5.0 1.5 2.7 E-9 E-9 1.1 7.3 9.2 E-9 E-10 E-10 Yb-177 0.005 5.0 5.0 1.90 h M E-10 E-4 E 3.3-1.1 10 1.6 E-10 E-10 E 7.8-11 E-11 S 0.005 5.3 6.4 E-10 3.5 5.0 E-4 E-E-E-10 10 10 1.7 1.2 8.4 E-11 6.9 E-11 Yb-0.005 5.9 178 1.23 h M E-10 5.0 3.9 E-4 E-10 1.2 1.8 E-10 E-10 8.5 E-11 E-11 S 7.0 6.2 0.005 E-10 5.0 E-4
1.9 4.1 E-10 E-10 1.3 E-10 E-11 7.5 E 9.1-11 Lutetium Lu-1.42 169 d M 5.0 E-4 E-9 0.005 2.3 1.8 E-9 9.5 E-10 6.3 4.4 3.5 E E-E-10 10-10 S 5.0 E-4 E-9 0.005 2.4 1.9 1.0 E-9 E-9 4.8 6.7 E-10 E-10 3.8 E-10 Lu-170 d 2.00 M 5.0 E-4 E-9 0.005 4.3 3.4 E-9 1.2 1.8 E-9 E-7.8 E 9-10 E 6.3-10 S 0.005 5.0 3.5 4.5 E-9 E-4 E-9 1.2 1.8 E-9 E-9 6.6 8.2 E-10 E-10 Lu-8.22 171 d M 5.0 5.0 E-4 E-9 0.005 3.7 E-9 E-9 1.2 E 2.1-8.0 E-9.8 9 E-10 10 S 0.005 4.7 3.9 5.0 E-9 E-4 E-9 2.0 E-9 1.4 1.1 E-9 E-9 8.8 E-10 Lu-6.70 d 172 M 5.0 E-4 E-9 0.005 8.7 6.7 E 2.6 3.8-9 E-9 E-9 1.4 1.8 E-9 E-9 S E-4 E-9 0.005 9.3 5.0 4.0 E 7.1 E-9-9-9-9 1.6 2.8 2.0 E E E-9 Lu-173 1.0 E 5.0 0.005 1.37 a M-8 E-4
8.5 E-9 2.5 3.2 5.1 E-9 E-9 E-9 E-9 S 2.2 1.0 E 5.0 E-0.005-8 4 5.4 9 8.7 E-E-E-E-9 9 9 3.6 2.9 2.4 E-9 Lu-174 0.005 1.7 3.31 a M E-8 5.0 1.5 E-4 E-8 4.7 5.8 9.1 E-9 E-9 E-9 0.005 4.2 E-9 S 5.0 E-4 1.4 1.6 E-8 E-8 5.9 8.9 E-9 E-9 4.2 4.9 E-9 E-9 142 174 d 1.9 Lu-0.005 M E-8 E-4 1.4 5.0 E-8 8.6 5.4 9 E-E-E-E-9 9 9 4.3 3.7
 
 
S 0.005 2.0 5.0 E-8 E-4 1.5 E-8 9.2 E-9 6.1 E-9 5.0 E-9 4.2 E-9 1010 a M Lu-176 3.60 0.005 1.8 E-7 1.1 5.0 E-4 1.7 E-7 E-7 7.8 E-8 7.0 7.1 E-8 E-8 S 0.005 5.0 E-4 1.4 1.5 E-7 E-7 9.4 E-8 6.5 5.6 5.9 E-8 E-8 E-8 Lu-0.005 8.9 3.68 cash consideration of 176 m h M E-10 5.0 E-4 2.8 E-10 1.9 5.9 E-10 E-10 1.1 1.2 E-10 E-10 S 5.0 0.005 9.3 E-10 E-4 3.0 6.2 E-10 E-10 1.2 1.2 2.0 E-10 E-10 E-10 Lu-177 6.71 d 5.0 5.3 0.005 M E-9 E-4 E-9 1.6 2.2 3.8 E-9 E-9 1.4 1.1 E-9 E-9 S 5.0 E-4 E-5.7 9 0.005 4.1 E-9 2.4 1.7 E E-9-9-9 1.2 1.5 E E-9 Lu-177 m 161 d 5.0 5.8 0.005 M E-8 E-4 4.6 E-8 1.6 2.8 E-8 1.9 E-8 E-8 1.3 E-8 S 0.005 5.0 5.3 6.5 E-8 E-4 E-8 3.2 E-8 2.3 E-8 1.6 2.0 E-8 E-8 Lu-178 0.473 h
0.005 m 2.3 1.5 5.0 E-10 E-4 E-10 E 6.6-4.3 E 11-11 2.9 E-11 E-11 S 0.005 2.4 2.4 E-10 5.0 E-4 4.5 1.5 6.9 E E-10-11 E-11 3.0 E-11 E-11 Lu-178 m 0.378 h 2.6 M 5.0 E-4 E-10 0.005 2.6 1.8 E-10 8.3 E-11 5.6 E-11 3.8 3.2 E-11 E-11 S 5.0 E-0.005 2.7 E-10 4 5.8 1.9 E-10 E-8.7 11 E-11 4.0 E-11 3.3 E-11 Lu-0.005 9.9 179 4.59 h M E-10 5.0 E-4 3.0 E 6.5 E-10-10
1.1 1.2 2.0 E-10 E-10 E-10 S 1.0 5.0 E-4 E-9 0.005 6.8 E-E-E-10 10 10 3.2 2.1 1.2 1.3 E-10 E-10 Hafnium Hf-16.0 170 h F E-9 1.4 1.1 0.002 0.020 E-9 5.4 E-10 3.4 2.0 1.6 E E-E-10 10-10 M 2.2 0.020 0.002 1.7 E-9 E-9 3.9 8.7 E-E-E-10 10 10 5.8 3.2 E-10 Hf-172 1.87 0.020 1.5 a F E-7 1.3 E-7 7.8 0.002 E-8 4.9 E-8 3.2 3.5 E-8 E-8 M 0.002 6.9 0.020 8.1 E-8 E-8 4.3 E-8 2.3 2.8 E-8 E-8 2.0 E-8 Hf-0.020 6.6 173 24.0 h F E-10 0.002 1.5 2.5 5.0 E-10 E-10 E-E-E-11 7.4 8.9 10 11 M 1.1 0.020 E-9 4.3 8.2 0.002 E-10 E-10 1.6 2.0 E-2.9 E-10 10 E-10 Hf-70.0 175 d F 0.020 5.4 4.0 E-9 2.1 0.002 E-9 E-9 1.3 E-9 7.2 8.5 E-10 E-10 M 4.5 0.002 0.020 5.8 E-9 E-9 1.4 1.8 2.6 E-9 E-9 E-9 1.2 E-9 Hf-177 m 0.020 0.856 h F
3.9 E-10 0.002 2.8 E-10 1.3 E-10 8.5 E-11 5.2 E-11 4.4 E-11 M 10 0.002 4.7 6.5 0.020 E-E-E-E-10 10 10 2.3 1.5

9.0 1.1 E-10 E-11 Hf-178 m 31.0 6.2 5.8 0.002 0.020 a F E-7 E-7 2.7 3.1 4.0 E-7 E-7 E-7 2.6 2.6 E-7 E-7 M 0.020 0.002 2.4 1.7 1.3 E-7 E-7 E-7 1.2 1.2 E-7 E-7 Hf-0.020 9.7 179m 25.1 d F E-9 0.002 2.1 3.4 E 6.8 E-9-9-9-9 1.1 1.2 E E E-9 M 0.002 1.3 1.7 0.020 E-8 E-8 E 9 5.5 E-7.6-9 4.8 E-9 3.8 E-9 Hf-180 5.50 0.020 5.4 h F E-10 0.002 4.1 E-10
2.0 E-10 7.2 1.3 E-10 E-11 5.9 E-11 M 10 0.002 6.8 0.020 9.1 E-E-E-E-10 10 10 3.6 2.4 1.7 1.3 E-10 E-10 Hf-42.4 181 d F 0.020 1.3 E-8 0.002 9.6 E-9 4.8 E-9 2.8 E-9 1.4 1.7 E-9 E-9 M 2.2 0.020 E-8 9.9 0.002 1.7 E-8 E-9 7.1 6.3 E E-9-9-9 Hf-182 9.00 106 5.0 E a F 0.020 6.5 6.2 E-7 E-7 0.002 3.6 4.4 E-7 E-7 3.1 3.1 E-7 E-7 2.4 E-7 0.002 0.020 M
2.3 1.3 1.7 E-7 E-7 E-7 1.3 1.3 E-7 E-7 Hf-182 m 0.020 1.9 1.02 h F E-10 0.002 1.4 E-10 E 6.6-2.6-4.2 E 11 E 11-11 E 2.1-11 M E-10 0.002 0.020 3.2 2.3 E-10 1.2 E-10 7.8 E-11 5.6 4.6 E-11 E-11 Hf-183 1.07 0.020 2.5 h F E-10 0.002 4.9 1.7 E-10 7.9 E-11 E-11 2.8 2.4 E-11 E-11 M 0.020 4.4 E-10 0.002 1.5 3.0 E-10 E-10 9.8 E-11 E-11 5.7 7.0 E-11 Hf-4.12 184 h F
0.002 9.6 0.020 1.4 E-9 E-10 4.3 E-10 2.7 E-10 1.2 1.4 E-10 E-10 M 0.002 1.8 2.6 0.020 E-9 E-9 4.0 5.9 8.9 E-10 E-10 E-10 3.3 E-10 Tantalum Ta-0.613 h M 0.010 2.8 E-10 172 0.001 9.3 1.9 E-10 E-11 6.0 E-11 4.0 E-11 3.3 E-11 S 0.010 2.9 E-10 0.001 2.0 E-10 9.8 E-11 E-11 4.2 E 6.3-11 3.5 E-11 Ta-0.010 8.8 173 3.65 h M E-10 10 6.2 E 0.001-2.0 3.0 E-10 E-10 1.1 1.3 E-10 E-10 S 0.010 0.001 6.5 9.2 E-10 E-E-E-10 10 10 3.2 2.1 1.1 1.4 E-10 E-10 Ta-1.20 h 174 M 0.010 3.2 2.2 1.1 E-10 0.001 7.1 E E-E-10 10-11 5.0 E-11 4.1 E-11 S 0.010 3.4 0.001 1.1 2.3 E-10 E-10 E-10 E-11 5.3 7.5 E-11 E-11 Ta-175 10.5 h 4.3 M 0.010 9.1 3.7 0.001 7.0 E-10 E-10 E-10 2.4 E-10 1.2 1.5 E-10 E-10 S 0.010 9.5 E-10 0.001 3.8 7.3 E-10 E-10 1.6 2.5 E-10 E-10
1.3 E-10 Ta-8.08 176 h M E-9 1.4 1.1 0.001 0.010 E-9 E-5.7 10 1.9 2.4 E-10 3.7 E-10 E-10 S 0.010 1.4 1.1 0.001 E-9 E-9 5.9 E-10 3.8 E-10 2.5 2.0 E-10 E-10 Ta-2.36 177 d M E-10 0.001 4.7 6.5 0.010 E-10 1.2 1.5 2.5 E-10 E-10 E-10 9.6 E-11 S 0.010 6.9 0.001 5.0 E-10 E-10 2.7 E-10 E-1.7 1.3 1.1 10 E-10 E-10 Ta-h 2.20 M 0.010 4.4 E-10 178 0.001 1.7 3.3 E-10 E-10
8.0 E-11 6.5 1.1 E-10 E-11 S 0.010 3.4 0.001 4.6 E-10 E-10 1.2 1.8 E-10 E-10 8.5 E-11 E 6.8-11 Ta-1.82 179 a M E-9 1.2 0.001 9.6 0.010 E-10 3.5 E 5.5 E-10-10 2.6 E-10 E-10 S 0.010 2.2 2.4 2.1 0.001 E-9 E-9 1.3 E-9 6.4 8.3 E-10 E-10 5.6 E-10 Ta-180 1013 a 1.00 M 2.2 2.7 E-8 0.010 0.001 E-8 1.3 E-8 9.2 E-9 6.4 7.9 E-9 E-9 S 0.010 0.001 6.5 7.0 E-8 E-8
3.1 4.5 E-8 E-8 2.6 2.8 E-8 E-8 Ta-180 m 0.010 3.1 8.10 h M E-10 0.001 1.1 2.2 E-10 E-10 4.4 4.8 7.4 E-11 E-11 E-11 S 0.010 0.001 2.3 3.3 E-10 E-10 1.2 E-10 7.9 E-11 E-11 4.2 5.2 E-11 Ta-182 115 d M 0.001 2.6 3.2 0.010 E-8 E-8 1.5 1.1 E-8 E-8 9.5 E-9 7.6 E-9 S 0.010 4.2 E-8 0.001 3.4 2.1 1.5 E E-E-8 8-8 1.3 1.0 E-8 E-8 Ta-182 m 0.264 h M 0.010
0.001 1.1 1.6 E-10 E-10 E-2.4 4.9 3.4 E 11-11 E-11 11 S 0.010 1.6 2.0 E-E-E-E-5.2 0.001 1.1 10 10 11 11 11 2.1 2.5 3.6 E-E-E-11 Ta-183 d 5.10 M 1.0 E-8 0.010 0.001 4.1 7.4 E-9 E-9 2.9 E-9 1.9 2.4 E-9 E-9 S 0.010 1.1 E-8 0.001 8.0 3.2 4.5 E-9 E-9 E-9 2.1 2.7 E-9 E-9 Ta-E-9 184 8.70 h M 0.010 3.2 2.3 0.001 E-9 E-1.1 5.0 E-10 10 9 7.5 E-4.1 E-10 S
0.010 3.4 0.001 2.4 E-9 E-9 1.2 E-9 7.9 5.4 E-10 E-10 E-10 Ta-185 0.816 h 4.3 M 2.5 0.001 0.010 3.8 E-10 E-10 1.2 E-10 7.7 E-11 E-11 4.5 5.4 E-11 S 0.010 4.0 E-10 0.001 2.6 8.2 E 1.2 E-E-10 10-11 E 5.7-11 E-11 Ta-186 0.175 h 4.8 M 0.010 1.6 4.8 0.001 1.1 E-10 E-10 E-11 3.1 2.0 E-E-11 11 11 S 0.010 1.6 1.7 E-E-E-E-10 10 0.001 1.1 5.0 2.1 3.2 E 11-11 E-11 1.8 E-11
Tungsten W-2.30 h F 0.600 3.3 E-10 176 0.300 2.7 E-E-E-11 10 10 1.4 8.6 5.0 E-11 4.1 E-11 W-177 2.25 h F 1.6 2.0 E-10 0.600 0.300 E-10 E 8.2-11 E-11 3.0 E 5.1-11 2.4 E-11 W-178 0.600 7.2 21.7 d F E-10 0.300 5.4 2.5 E-E-E-10 10 10 1.6 8.7 E-11 E-11 W-179 0.625 7.2 h F 0.300 6.8 0.600 9.3 E-12 E-12 1.2 2.0 3.3 E-12 E-12 E-12 9.2 E-13 W-181 121 d F 0.600 2.5 E-10
9.2 0.300 1.9 E-10 E-E-E-11 11 11 5.7 3.2 2.7 E-11 W-185 d F 0.600 75.1 0.300 1.0 1.4 E-9 E-9 1.4 4.4 E-10 2.7 E-10 E-10 E-10 W 1.2-2.0 E-9 187 23.9 h F 0.600 0.300 7.0 E-10 4.3 1.5 E-9 E-10 1.9 2.3 E-10 E-10 W-188 0.600 7.1 69.4 d F E-9 0.300 5.0 E-9 1.3 2.2 6.8 E E-E-9 9-10 E-5.7 10 Rhenium Re-0.233 177 h F 1.000 9.4 6.7 0.800 E E-11-11 11-11 E-3.2 1.9 E
9.7 1.2 E-11 E-12 M 1.1 1.000 E-E-E-11 10 0.800 7.9 3.9 11 2.5 E-E-E-1.4 1.7 11 11 11 Re-178 0.220 h F 9.9 1.000 E-11 0.800 6.8 E-11 E-11 1.9 3.1 1.2 1.0 E E-E-11 11-11 M 1.000 1.3 E-10 8.5 E-11 3.9 0.800 E-11 2.6 E-11 E-1.4 1.7 11 E-11 Re-20.0 181 h F 2.0 E-9 1.4 0.800 1.000 E-9 2.3 3.8 6.7 E-10 E-10 E-10 E-10 M 1.8 2.1 1.000 E-9 0.800 1.5 7.4 E-10 4.6 E-9 E-10 2.5 3.1 E-10 E-10 Re-2.67 182 d F 1.000 E-9 6.5 2.2 4.7 0.800 E-9 E-9 1.3 E-9 8.0 E-10 6.4 E-10 M 1.000 8.7 6.3 0.800 E-E-9 9 9 2.2 3.4 E-E-E-E-9 1.2 1.5 9 9 Re-E-9 182 12.7 h F 1.000 1.3 1.0 E-9 0.800 4.9 1.7 E 2.8 E-E-10 10-10 E-10 M 1.4 1.4 1.1 0.800 1.000 E-9 E-5.7 3.6 E E-10 9-10 2.0 2.5 E-10 E-10 Re-38.0 184 d F 4.1 1.000 E-9 2.9 0.800 E-9 1.4 E-9 8.6 5.4 4.4 E E-E-10 10-10 M E-9 0.800 6.8 9.1 1.000 E-9 4.0 E-9 2.8 2.4 1.9 E E-E-9 9-9 Re-184 m 165 d F 0.800 4.6 6.6 1.000 E-9 E-9 1.2 2.0 E-9 E-9 5.9 7.3 E-10 E-10 M 1.000 0.800 2.2 2.9 E-8 E-8 1.3 E-8 E 9 6.5-9.3 8.1 E-9 E-9 Re-3.78 186 d F 1.000 7.3 4.7 0.800 E-9 E-9 E-6.6 2.0 E-1.1 9 9 E-10 5.2 E-10 M 8.7 1.000 E-9 0.800
5.7 E-9 2.8 E-9 1.4 1.1 1.8 E-9 E-9 E-9 Re-2.00 105 186 m a F 1.2 1.000 E-8 0.800 7.0 E-9 2.9 1.7 E-9 E-9 1.0 E-9 8.3 5.9 1.000 E-10 M E-8 0.800 4.6 E-8 2.7 E-8 1.2 1.4 1.8 E-8 E-8 E-8 Re-1010 a F 1.000 2.6 E 5.00 187-11 0.800 1.6 E 6.8-11 E-12 2.3 3.8 E-12 E-12 1.8 E-12 M 5.7 1.000 E-11 0.800 4.1 E-11 E-11 1.2 2.0 E-11 7.5 E-12 6.3 E-12 Re-188
1.000 6.5 17.0 h F E-9 0.800 4.4 E-9 1.9 1.0 E-9 E-9 6.1 4.6 E-10 E-10 M 1.000 6.0 E-9 0.800 1.8 1.0 4.0 E-E-E-9 9 9 E 6.8-10 5.4 E-10 Re-188 m 1.4 0.310 h F 1.000 E-10 0.800 9.1 E-11 E-11 2.1 4.0 E-11 1.3 E-11 E-11 M 1.000 1.3 1.0 E-E-E-11 10 0.800 8.6 4.0 1.6 2.7 E 11-11 E-11 1.3 E-11 Re-1.01 189 d F 3.7 1.000 E-9 0.800 2.5 E-9 E-1.1 9 5.8 3.5 E-10 E-10 1.000 3.9 2.7 E-10 M E-9 1.2 0.800 2.6 E-9 E-9 5.5 4.3 7.6 E-10 E-10 E-10 Os-0.020 Osmium 0.366 180 h F 7.1 E-11 E 2.6 5.3 0.010 E-11-11 11 1.0 E-11 8.2 1.6 E-E-12 M 1.1 E-10 0.010 7.9 0.020 E-11 3.9 E-11 2.5 E-1.4 1.7 11 E-11 E-11 S 0.010 8.2 0.020 1.1 E-10 E-11 4.1 2.6 1.8 E E-E-11 11-11 E-11 Os 1.5-1.75 181 h F 2.3 3.0 E-10 0.020 0.010 E-10 7.0 1.1 E-10 E-11 4.1 E-11 E-11 M 3.3 4.5 0.020 0.010 3.4 E-10 E-10 1.8 E-10 10 6.2 1.1 E-7.6 E-11 E-11 S 0.010 3.6 0.020 4.7 E-10 E-10 1.2 1.8 E-10 E-10 E 8.1-11 E-11 Os-182 22.0 6.5 h F 1.6 0.020 E-9 1.2 0.010 E-9 6.0 E-10 1.7 2.1 3.7 E-10 E-10 E-10 M 0.010 1.9 2.5 0.020 E-9 E-9 1.0 4.5 6.6 E-10 E-9 E-10 E-10 S 0.020 3.6 2.6 E-9 0.010 2.0 1.0 E-9 E-9 4.8 6.9 E-10 E-10 3.8 E-10 Os-94.0 185 d F 0.020 7.2 E-9 E-9 3.1 5.8 0.010 E-9 1.9 E-9 1.2 1.1 E-9 E-9 M 5.4 0.010 0.020 6.6 E-9 E-9 2.9 1.5 2.0 E-9 E-9 E-9 1.3 E-9 S 0.010 5.8 0.020 7.0 E-9 E-9 2.4 1.9 3.6 E-9 E-9 E-9 1.6 E-9 Os-189 m 6.00 h F 3.8 2.8 E-E-11 0.010 0.020 11 1.2 E-11 7.0 E-3.5 2.5 E-E-12 12 12 6.5 0.020 M E-11 0.010 4.1 E-11 E-11 1.1 1.8 E-11
5.0 6.0 E-12 E-12 S 0.020 0.010 4.3 E 6.8 E-11-11 11-11 E-1.9 1.2 E 6.3 E-12 5.3 E-12 Os-15.4 d F 2.8 E-9 191 0.020 0.010 8.5 E-10 5.3 1.9 E-9 E-10 2.5 3.0 E-10 E-10 M 0.020 0.010 5.8 8.0 E-9 E-9 3.4 E-9 2.4 1.7 2.0 E-9 E-9 E-9 S 0.020 0.010 6.5 9.0 E-9 E-3.9 2.7 E-E-9 9 9 9 9 1.9 2.3 E-E-Os-191m 3.0 0.020 13.0 h F E-10 0.010 2.0 E-10 E 8.8-11 5.4 E-11 2.9 E-11 2.4 E-11 M 5.4 0.010 0.020 7.8 E-10 E-10 1.7 3.1 2.1 E-10 E-10 E-10 1.4 E-10 S 0.020 8.5 E-10 0.010 6.0 E-10 2.4 3.4 E-10 E-10 1.6 2.0 E-10 E-10 Os-1.25 d F 0.020 1.9 193 E-9 1.2 0.010 E-9 5.2 3.2 E E-10-10-10 M 1.6 1.8 E-10 E 0.020 0.010 2.6 3.8 E-9 E-9 1.3 E-9 4.8 5.9 8.4 E-10 E-10 E-10 S 0.010 0.020 4.0 E-9 1.3 2.7 E-9 E-9 6.4 9.0 E-10 E-10 5.2 E-10 Os-194 6.00 a F E-8 0.010 6.8 8.7 0.020 E-8 2.1 3.4 E-8 E-8 1.1 1.3 E-8 E-8 M 8 0.010 8.3 0.020 9.9 E-E-E-E-8 8 8 4.8 3.1 2.1 2.4 E-8 E-8 S 0.020 2.6 E-7 2.4 E-7 E-1.6 0.010 7 1.1 8.8 E-7 E-8 8.5 E-8 Iridium Ir 0.250 h F 0.020 1.4 182 E-10 0.010 9.8 E-11 E-11 2.8 4.5 E-1.4 1.7 11 E-11 E-11 M 1.4 0.010 0.020 2.1 E-10 E-6.7 E 10-11 4.3 E-11 2.8 E-11 11 S 0.020 2.2 2.3 E-E-E-E-10 10 0.010 1.5 6.9 4.4 E 11-11 2.9 E-11 2.4 E-11 Ir-0.020 5.7 3.02 184 h F E-10 2.1 0.010 4.4 E-10 E-10 10 6.2 1.3 E-7.6 E-11 E-11 M 0.010 6.4 0.020 8.6 E-10 E-E-E-10 10 10 3.2 2.1 1.1 1.4 E-10 E-10 S 0.010 6.6 0.020 8.9 E-10 E-10 10 2.2 3.4 E-E-E-E-10 10 1.4 1.2 10 Ir-0.020 8.0 14.0 185 h F E-10 2.9 0.010 6.1 E-10 E-10
8.2 1.0 1.8 E-10 E-10 E-11 M 0.020 0.010 9.7 1.3 E-9 E-10 4.9 E-10 2.2 3.2 E-10 E-10 E-10 S 0.020 1.4 1.8 E-9 0.010 1.0 E-9 5.2 3.4 2.3 E E-E-10 10-10-10 Ir-186 15.8 1.9 E h F E-9 1.2 1.5 0.020 0.010 E-9 3.6 E 2.1 5.9 E-10-10 E-10 1.7 E-10 M 2.2 0.020 0.010 1.7 E-9 E-9 E-8.8 10 3.8 3.1 5.8 E-E-E-10 10 10 S 0.020 2.3 E-9 0.010 1.8 E-9 E-10 9.2 6.0 E-10
3.2 4.0 E-10 E-10 Ir-1.75 186 h F 1.6 2.1 0.020 E-10 0.010 7.7 E E-10-11 E-4.8 2.3 E 2.8 E-11 11-11 M 3.3 0.020 0.010 2.4 E-10 E-10 1.2 E-10 7.7 E-11 5.1 E-11 E-11 S 0.020 3.4 4.2 E-10 0.010 1.2 2.5 E-10 E-10 8.1 4.4 5.4 E E-11-11 E-11 Ir-10.5 h F 0.020 3.6 E-10 187 0.010 2.8 E 8.2 1.4-10 E-10 E-11 4.6 E-11 E-11 M 3.7 5.8 4.3 0.020 0.010 E-10 E-10 1.4 2.2 E-10 E-10 9.2 E-11 7.4 E-11 S 0.020 6.0 E-10 4.5 0.010 E-10 2.3 1.5 E-10 E-10 9.7 E-11 E-7.9 11 Ir-1.73 188 d F 1.6 2.0 E-9 0.020 0.010 E-9 8.0 E-10 5.0 E-10 2.9 E-10 E-10 M 2.4 2.7 E-0.020 0.010 2.1 1.1 E-E-9 9 9 7.5 E-10 5.0 4.0 E-10 E-10 S 0.020 2.8 E-9 1.2 2.2 0.010 E-9 E-7.8 E 9-10 4.2 5.2 E-10 E-10 Ir-13.3 189 d F E-9 1.2 0.010 8.2 0.020 E-10 3.8 E-10
2.4 E-10 1.1 1.3 E-10 E-10 M 0.010 0.020 2.7 E-9

1.9 E-9 E-1.1 9 6.4 7.7 E-10 E-10 5.2 E-10 S 0.020 3.0 E-9 1.3 2.2 0.010 E-9 E-9 8.7 E-10 7.3 E-10 6.0 E-10 Ir-12.1 d 190 F 0.020 6.2 E-9 0.010 4.7 1.5 2.4 E-9 E-9 E-9 9.1 7.7 E-10 M E-10 E-8 0.010 8.6 E 0.020 1.1-4.4 3.1 E-E-9 9 9 9 2.1 2.7 E-E-9 S 0.020 1.1 E-8 0.010 9.4 E-9 4.8 E-9 3.0 3.5 E-9 E-9 2.4 E-9 Ir-190 m 3.10 0.020 4.2 E h F-10
0.010 3.4 E-10 1.0 1.7 E-10 E-10 6.0 E-11 E-11 M 4.9 0.020 6.0 E-10 0.010 4.7 1.5 2.4 E-10 E-10 E-10 9.9 E-11 E-11 S 0.020 6.2 E 7.9-10 0.010 1.6 4.8 E-10 2.5 E-10 E-10 1 .0E-10 8.3 E-11 Ir-190 m 1.20 h F E E-11 0.010 2.4-3.2 0.020 11 1.2 E-11 3.6 4.3 7.2 E-12 E-12 E-12 M 5.7 0.020 E-11 0.010 4.2 E-11 2 .0E-11 1.2 1.4 E-11 E-11 9.3 E-12 S 0.020 0.010 4.5 5.5 E-11 E-11 1.6 2.2 1.3 E E-E-11 11-11-11 Ir-192 74.0 1.0 E d F E-8 0.010 0.020 1.5 1.1 E-8 3.3 5.7 E-9 E-9 1.8 2.1 E-9 E-9 M 2.3 0.020 E-8 0.010 1.1 1.8 E-8 E-8 6.4 7.6 E-9 E-9 E-9 S 0.020 5.2 2.8 E-8 0.010 2.2 1.3 E-8 E-8 9.5 E-9 8.1 E-9 6.6 E-9 Ir-192 m 241 a F 2.3 2.7 E-8 0.010 0.020 E-8 1.4 E-8 8.2 E-9 4.8 5.4 E-9 E-9 M 2.3 0.020 E-8 0.010
2.1 E-8 1.3 E-8 6.6 8.4 E-9 E-9 E-9 S 0.020 9.2 5.8 E-8 0.010 9.1 4.5 6.5 8 E-E-8 E-8 4.0 E-8 3.9 E-8 Ir-193 m 11.9 d F E-9 1.2 0.010 8.4 0.020 E-E-E-10 10 10 3.7 2.2 1.0 1.2 E-10 E-10 M E-9 4.8 0.020 0.010 2.1 3.5 E-9 E-9 E-9 1.4 1.5 1.1 E-9 E-9 S 0.010 0.020 5.4 4.0 E-9 E-9 2.4 E-9 1.6 1.8 E-9 E-9 1.3 E-9 Ir-19.1 194 h F 0.020 2.9 E-9
8.1 0.010 1.9 E-9 E-10 4.9 E-10 2.1 2.5 E-10 E-10 M 5.3 0.020 E-9 1.6 0.010 3.5 E-9 E-9 1.0 E-9 5.2 E 6.3 E-10-10 S 0.010 3.7 0.020 5.5 E-9 E-9 1.7 E-9 E-1.1 9 5.6 6.7 E-10 E-10 Ir-171 194 m d F E-8 0.010 0.020 3.4 2.7 E-8 1.4 E-8 E-9 6.2 E 9.5-9 E-9 M 5.4 3.9 0.020 E-8 0.010 1.9 3.2 E-8 E-8 1.3 1.1 E-8 E-8 E-9 S 0.020 5.0 9.0 E-8 0.010 4.2 E-8 1.5 1.8 2.6 E-8 E-8 E-8 1.3 E-8 Ir-0.020 2.9 195 2.50 h F E-10 0.010 1.9 E-10 E-11 5.1 8.1 E-11 2.9 E-11 E-11 M 2.4 5.4 0.020 0.010 3.6 E-10 E-10 1.7 E-E-E-10 10 1.1 8.1 6.7 11 E-11 S 0.010 3.8 0.020 5.7 E-10 E-10 1.2 1.8 E-10 E-E-E-11 10 8.7 7.1 11 Ir-195 m 3.80 h F 0.020 6.9 4.8 0.010 E-10 E-10 2.1 E-10 7.2 1.3 E-10 E-11 6.0 E-11 M 0.010 0.020 1.2 E-9
4.2 8.6 E-10 E-10 2.7 E-10 1.9 E-10 10 S 0.020 1.3 1.6 E-E-E-E-10 9 0.010 9.0 4.4 10 2.9 1.7 2.0 E-10 E-10 E-10 Platinum Pt-2.00 h F 0.020 3.0 E-10 186 0.010 2.4 E-10 7.2 1.2 E-10 E-11 4.1 E-11 E-11 Pt-188 10.2 3.3 d 3.6 E-9 F 0.020 0.010 2.7 E-9 1.3 E-9 8.4 E-10 5.0 E-10 189 10.9 4.2 E-10 Pt-h F 0.010 2.9 3.8 0.020 E-10 E-10 8.4 1.4 E-10 E-11 4.7 E-11 3.8 E-11
PT-191 2.80 d F E-1.1 9 0.010 7.9 0.020 E-E-E-10 10 10 3.7 2.3 1.3 1.1 E-10 E-10 Pt-50.0 193 a F 1.6 2.2 0.020 E-10 0.010 E-10 7.2 E-11 4.3 E-11 E-11 2.1 2.5 E-11 Pt-193 m 1.6 0.020 4.33 d F E-9 E-9 1.0 4.5 0.010 E-10 2.7 E-10 1.2 1.4 E-10 E-10 Pt-195 m 4.02 0.020 2.2 d F E-9 6.4 0.010 1.5 E-9 E-10 3.9 2.1 E-10 E-10 1.8 E-10 Pt-18.3 h F E-1.1 9 197 0.020 0.010
3.1 7.3 E-10 E-10 1.9 1.0 E-10 E-10 8.5 E-11 Pt-1.57 h F 2.8 E-10 197m 0.020 0.010 1.8 E-10 7.9 E-11 E-2.4 4.9 2.8 E 11-11 E-11 Pt-199 0.513 0.020 1.3 h F E-10 0.010 8.3 E-11 3.6 2.3 E E-11-11 11 1.2 1.4 E-E-11 Pt-200 12.5 h F E 2.6-9 0.010 0.020 1.7 E-9 5.1 7.2 E-10 E-10 2.2 2.6 E-10 E-10 Gold Au-17.6 193 h F 2.8 0.100 0.200 3.7 E-10 E-10 1.3 E-10 7.9 E-11 4.3 E-11 0.200 7.5 3.6 E-11 M E-10 0.100 2.8 E-10 1.9 5.6 E-10 E-E-E-10 10 1.4 1.1 10 S 0.100 5.9 0.200 7.9 E-10 E-10 1.5 2.0 3.0 E-10 E-10 E-10 1.2 E-10 Au-1.65 194 d F E-9 1.2 0.100 9.6 0.200 E-10 4.9 E-10 3.0 E-10 1.4 1.8 E-10 E-10 M E-9 1.4 1.7 0.200 0.100 E-9 E 7.1-10 2.9 4.6 E-10 E-10 2.3 E-10 S 0.100 1.4 1.7 0.200 E-9 E-9 E-7.3 4.7 3.0 E-10 10 10 E-2.4 E-10 Au-195 183 d F 0.100 5.3 0.200 7.2 E-10 E-10 2.5 1.5 8.1 E E-E-10 10-11 E-11 M 0.200 5.2 E 6.6-2.4-4.1 0.100 E 9 9 E-9 1.4 1.6 E-9 E-1.1 9 E-9 S 0.100 6.6 0.200 8.1 E-9 E-9 3.9 2.1 2.6 E-9 E-9 E-9 1.7 E-9 Au-198 2.69 0.200 2.4 d F E-9 0.100 1.7 E-9 4.7 7.6 E-10 E-10 2.1 2.5 E-10 E-10 M 5.0 E-9 0.100 4.1 0.200 E-9 1.3-1.9 E 9 E-9 9.7 E-10
7.8 E-10 S 0.100 4.4 5.4 0.200 E-9 E-9 2.0 E-9 1.4 1.1 E E-9-9-10 Au-198 2.30 8.6 E d F E 0.200 3.3-1.1 9 0.100 2.4 E-9 E-9 3.7 6.9 E-10 E-10 3.2 E-10 M 0.200 8.7 E-9 6.5 0.100 E-9 3.6 E-9 2.6 1.8 2.2 E-9 E-9 E-9 S E-9 0.100 7.1 0.200 9.5 E-9 4.0 E-9 2.9 2.5 2.0 E E-E-9 9-9 Au-3.14 199 d F E-1.1 9 0.100 7.9 0.200 E-10 3.5 E-10 1.1 2.2 E-10 E-10 9.8 E-11 M 3.4 0.200 0.100 2.5 E-E-9 9 9 1.0 1.4 E-E-E-E-10 9 9.0 7.1 10 S 0.200 3.8 2.8 E-9 1.6 0.100 E-9 E-9 1.2 1.0 E-9 E-9 7.9 E-10 Au-0.807 200 h F 1.2 0.100 0.200 1.9 E-10 E-10 5.2 3.2 E-11 E-11 1.9 E-11 E-11 M 1.6 0.200 0.100 2.1 3.2 E-10 E-10 E-11 6.0 E-11 9.3 4.0 E-11 3.3 3.4 E-10 E-11 S 0.200 0.100 9.8 E 2.1 E-10-11 E-11 4.2 E 6.3-11 3.5 E-11 Au-18.7 200 m h F E-9 0.100 2.1 2.7 0.200 E-9 1.0 E-9 6.4 3.6 2.9 E E-E-10 10-10 M E-9 4.8 0.100 3.7 0.200 E-9 E-9 1.2 E 1.9-8.4 E 9-10 E 6.8-10 S 0.100 3.9 0.200 5.1 E-9 E-9 2.0 E-9 1.3 E-9 E-8.9 10 7.2 E-10 Au-201 0.440 0.200 9.0 h F E-11 0.100 5.7 E-11 2.5 E-11 1.6 E-11 E-11 8.7 1.0 E-12 M 0.200 1.5 0.100 9.6 E E-10-11 11-2.9 4.3 E E-11 2.0 E-11
1.7 E-11 S 0.200 1.5 0.100 1.0 E-10 E-E-E-11 11 10 4.5 3.0 2.1 E-11 1.7 E-11 Mercury Hg-193 (org.) 3.50 0.400 1.8 2.2 0.800 h F E-10 E-10 5.0 E 8.2 E-11-11 2.9 E-11 193 3.50 E 2.4-11 Hg-h F 0.040 0.020 2.0 2.7 E-10 E-10 8.9 E-11 E-11 3.1 E 5.5-11 2.6 E-11 (anorg.)
 
M 0.040 5.3 1.9 0.020 3.8 E-10 E-10 E-10 9.2 1.3 E-10 E-11 7.5 E-11 Hg-193 m (org.) 11.1 0.800 8.4 h F E-10 3.7 0.400 7.6 E-10 E-10 2.2 1.3 1.0 E E-E-10 10-10 Hg-11.1 193 m h F 1.1 0.040 0.020 8.5 E-9 E-10 4.1 2.5 E-10 E-E-E-10 10 1.4 1.1 10 (anorg.)
 
0.040 1.9 m E-9 1.4 0.020 E-9 E-10 7.2 4.7 E-10 2.6 3.2 E-10 E-10 Hg-194 (org.) 260 a F 0.400 3.7 0.800 4.9 E-8 E-8 2.4 1.9 E-8 E-8 1.4 1.5 E-8 E-8 Hg-194 260 a F 0.040 0.020 2.9 3.2 E-8 E-8 1.4 1.6 2.0 E-8 E-8 E-8 1.3 E-8 (anorg.)
 
0.040 2.1 m E-8 0.020 1.9 1.0 E-8 1.3 E-8 E-8 8.3 8.9 E-9 E-9 Hg-195 (org.) 9.90 h F 1.8 2.0 E-10 0.800 0.400 E-10 8.5 E-11 5.1 E-11 E-11 2.3 2.8 E-11 Hg-195 h F 9.90 0.020 2.0 2.7 0.040 E-10 E-10 E 9.5-11 E-5.7-11 2.5 3.1 E 11 E-11 (anorg.)
 
M 0.020 3.9 5.3 0.040 E-10 E-10 2.0 1.3 E-10 9.0 E E-10-11 E-7.3 11 Hg-195 m (org.) 1.1 0.800 1.73 d F E 0.400 9.7-9 E-10 4.4 E-10 2.7 E-10 1.2 1.4 E-10 E-10 Hg-195 m 1.6 0.040 1.73 d F E-9 5.1 0.020 1.1 E-9 E-10 1.4 1.7 3.1 E-10 E-10 E-10 (anorg.)
 
0.040 3.7 m E-9 E-9 1.4 0.020 2.6 8.5 E-10 E-9 5.3 6.7 E-10 E-10 Hg-197 (org.) 2.67 0.800 4.7 d F E-10 0.400 4.0 E-10 1.1 1.8 E-10 E-4.7 5.8 E 10-11 E-11 Hg-197 0.040 6.8 2.67 d F E-10 2.1 0.020 4.7 E-10 E-10 1.3 E-10 E 6.8-11 5.6 E-11 (anorg.)
 
0.040 1.7 m E-9 1.2 0.020 E-9 4.6 6.6 E-10 E-10 3.8 E-10 3.0 E-10 Hg-197m (org.) 0.800 9.3 23.8 h F E-10 0.400 7.8 E-10 3.4 2.1 1.1 E E-E-10 10-10 9.6 E-11 Hg-0.040 1.4 197m 23.8 h F E-9 0.020 9.3 E-10 E-10 2.5 4.0 E-10 1.1 1.3 E-10 E-10 (anorg.)
 
M 3.5 0.040 0.020 2.5 E-9 E-1.1 9 E-9 E 8.2-6.7-5.3 E-10 10 10 E Hg-199 m (org.) 1.4 0.800 0.710 h F E-E-E-11 10 0.400 9.6 4.2 11 2.7 E-11 1.7 E-11 1.5 E-11 Hg-199 m 0.710 0.040 1.4 h F E-E-E-11 10 0.020 9.6 4.2 11 2.7 E-11 1.7 E-11 1.5 E-11 (anorg.)
 
M 1.7 2.5 E-10 0.040 0.020 7.9 5.4 E E-E-10 11-11 3.8 3.2 E-11 E-11 Hg-203 (org.) 5.7 0.800 46.6 d F E 0.400 3.7-9 E-9 1.7 E-9 E-1.1 9 5.6 6.6 E-10 E-10 Hg-203 0.040 4.2 46.6 d F E-9 1.4 2.9 0.020 E-9 E 9 5.5-9.0 E-10 E-10 4.6 E-10 (anorg.)
 
M 1.0 E-8 0.020 7.9 0.040 E-9 4.7 E-9 3.0 E-9 2.4 3.4 E-9 E-9 Thallium Tl-0.550 194 h F 1.000 1.000 3.0 3.6 E-11 E-11 E-11 9.2 E-12 5.5 1.5 E-12 4.4 E-12 Tl-0.546 194 m h F E-10 1.000 1.000 1.7 1.2 E-10 6.1 E-11 E-11 2.3 3.8 E-11 1.9 E-11 Tl-195 1.000 1.000 1.3 1.16 h F E-10 1.0 E-10 5.3 1.9 E E E-11 3.2-11-11 E-11 Tl 1.5-1.3 E-10 197 2.84 h F 1.000 1.000 9.7 E-11
4.7 E-11 2.9 1.7 1.4 E E-E-11 11-11 Tl-5.30 h F 1.000 4.7 198 E-10 4.0 E-10 2.1 1.000 E-10 1.3 E-10 7.5 E-11 6.0 E-11 Tl-198 1.87 h F 1.000 1.000 2.5 3.2 E-10 E-10 4.5 7.5 E 1.2 E-10-11 E-11 3.7 E-11 Tl-7.42 199 h F 1.000 1.000 1.3 1.7 E-10 E-E-E-11 10 6.4 3.9 2.3 1.9 E E-11 11-11 Tl-1.09 d F 200 1.000 1.000 8.7 1.0 E-9 E-10 1.6 2.8 E-4.6 E-10 10 E-10 1.3 E-10
TL-201 3.04 d F 1.000 1.000 3.3 4.5 E-10 E-10 9.4 E 1.5 E-10-11 E-5.4 4.4 E 11-11 Tl-12.2 202 d F E-9 1.2 1.5 1.000 1.000 E-9 2.3 3.8 5.9 E-10 E-10 E-10 Tl-204 3.78 1.9 E-10 a F 5.0 E-9 1.000 3.3 1.000 E-9 1.5 E-9 4.7 3.9 8.8 E-10 E-10 E-10 lead 15) OJ-195 m 0.263 0.600 1.3 h F E-10 0.200 1.0 E-10 E-11 3.1 4.9 E-11 1.9 E-11 E-11 M 1.6 2.0 E-10 0.200 1.5 0.100 E-10 3.1 4.6 E 7.1 E-11-11 E-11 11 S 0.020 2.1 2.5 E-E-E-E-10 10 0.010 1.5 7.4 4.8 E 11-11 3.2 E-11 E-11 Pb 2.7-3.4 E-10 198 2.40 h F 0.600 0.200 2.9 1.5 E-10 E-10 E-11 5.2 E 8.9-11 4.3 E-11 M 4.0 5.0 E-10 0.200 0.100 E-10 2.1 E-10 1.3 E-E-E-11 11 10 8.3 6.6 S 0.020 0.010 4.2 5.4 E-10 E-10 E 2.2-1.4 10 E-10 8.7 E-11 E-7.0 11 Pb-1.50 h F 0.600 1.9 199 E-10 0.200
8.2 1.6 E-10 E-11 4.9 E-11 2.9 E-11 2.3 E-11 M 2.8 E-10 0.100 0.200 2.2 1.1 10 E-E-E-E-11 11 10 7.1 4.5 3.6 2.9 E-10 E-11 S 0.020 0.010 1.2 2.3 10 E-E-E-E-11 11 10 7.4 4.7 3.7 E-11 Pb-21.5 200 h F E-1.1 9 0.200 9.3 0.600 E-10 4.6 E-10 2.8 E-10 1.4 1.6 E-10 E-10 M 2.2 0.200 0.100 1.7 E-9 E-9 5.7 8.6 E-10 E-10 4.1 E-10 E-10 S 0.020 2.4 E 3.3-9 0.010 1.8 E-9
9.2 E-10 6.2 E-10 4.4 3.5 E-10 E-10 Pb-201 9.40 h F 0.600 4.8 4.1 0.200 E-10 E-10 1.2 2.0 E-10 E-10 E-11 6.0 E 7.1-11 M 0.200 8.0 E-10 3.3 0.100 6.4 E-10 E-10 2.1 1.1 1.4 E-10 E-10 E-10 S 0.010 6.7 0.020 8.8 E-10 E-10 2.2 3.5 E-10 E-10 1.2 1.5 E-10 E-10 Pb-105 a F 3.00 0.600 1.9 202 E-8 1.3 E-8 8.9 0.200 E-9 1.3 1.1 1.8 E-8 E-8 E-8 M 0.100 0.200 1.2 E-8
8.9 6.2 E E-9-9-9 8.7 6.3 6.7 E E-9 E-9 S 0.020 0.010 2.8 2.8 E-8 E-8 2.0 E-8 1.2 1.3 1.4 E-8 E-8 E-8 Pb-3.62 h F 0.600 4.7 202m E-10 2.1 0.200 4.0 E-10 E-1.3 E-10 10 6.2 7.5 E-11 E-11 M 5.6 0.100 0.200 6.9 E-10 E-10 1.9 2.9 E-10 E-10 9.5 E 1.2 E-10-11 S 0.010 5.8 0.020 7.3 E-10 E-10 1.9 3.0 E-10 E-10 1.3 E-10 1.0 E-10 Pb-2.17 d F 0.600 7.2 203 E-10
2.8 E 5.8 0.200 E-10-10

1.7 E-10 8.5 9.9 E-11 E-11 M 0.200 1.3 1.0 E-9 E-9 0.100 5.4 2.5 3.6 E-10 E-10 E-10 10 S 0.020 1.5 2.0 E-E-E-E-9 9 0.010 1.1 5.8 3.8 2.8 E-E-10 10 10 2.2 E-10 Pb-1.43 107 205 0.600 1.1 a F E-9 0.200 4.1 4.0 6.9 E-10 E-10 E-E-E-10 10 4.3 3.3 0.200 1.1 10 M E-9 0.100 7.7 4.3 E-10 E-10 2.9 3.2 E-10 E-10 2.5 E-10 S 0.020 0.010 2.7 2.9 E-9 E-9 1.7 E-9 1.1 E-9 9.2 E-10 8.5 E-10 Pb-209 3.25 0.600 1.8 E-10 0.200 1.2 h F E-10 5.3 1.9 3.4 E E-11-11 E-11 1.7 E-11 M 4.0 E-10 0.200 0.100 1.3 2.7 E-10 E-10 9.2 E-11 6.9 E-11 5.6 E-11 S 0.020 4.4 E-10 0.010 1.4 2.9 E-10 E-10 9.9 E-11 E-11 6.1 7.5 E-11 Pb-210 0.600 4.7 22.3 a F E-6 0.200 2.9 E-6 1.3 1.4 1.5 E-6 E-6 E-6 E-7 M 0.200 5.0 9.0 E-6 2.2 0.100 3.7 E-6 E-6
1.5 1.1 1.3 E-6 E-6 E-6 S 0.020 0.010 1.8 1.8 E-5 E-5 E-6 7.2 5.9 1.1 E-5 E-6 E-6 Pb-211 0.601 5.6 h F 0.600 0.200 1.7 2.5 E-8 E-8 8.7 E-9 6.1 E-9 3.9 4.6 E-9 E-9 M 6.2 0.200 E-8 2.5 4.5 0.100 E-8 E-8 1.9 E-8 1.4 1.1 E-8 E-8 S 0.020 6.6 E-8 0.010 4.8 E-8 2.7 E-8 1.2 1.5 2.0 E-8 E-8 E-8 Pb-212 10.6 h F 0.600 1.9 5.4 0.200 1.2 E-7 E-7 E-8 1.8 2.0 3.5 E-8 E-8 E-8 M 6.2 0.200 0.100 4.6 E-7 E-7 E-7 2.2 2.2 3.0 E-7 E-7 E-7 S 0.020 6.7 1.7 E-7 3.3 0.010 5.0 E-7 E-7 2.4 1.9 2.5 E-7 E-7 E-7 Pb-214 0.447 0.600 2.2 h F E-8 0.200 1.5 6.9 4.8 E E-E-8 9-9 3.3 2.8 E-9 E-9 M 0.100 4.6 6.4 0.200 E-8 E-8 1.9 2.6 E-8 E-8 1.4 1.4 E-8 E-8 S 0.020 6.9 E-8 0.010 5.0 2.1 2.8 E-8 E-8 E-8 1.5 1.5 E-8 E-8 Bismuth Bi-0.606 200 h F 0.050 1.5 0.100 1.9 E-10 E-E-E-11 10 7.4 4.5 2.7 2.2 E E-11 11-11 M 0.100 0.050 1.9 2.5 E-10 E-10 9.9 E-11 E-11 4.1 E 6.3-11 3.3 E-11 Bi-1.80 h F 0.100 4.0 E-201 10 0.050 3.1 E-10 1.5 E-10 4.4 5.4 9.3 E-11 E-11 E-11 M 0.050 4.1 0.100 5.5 E-10 E-10 2.0 1.3 E-10 8.3 E E-10-11 E 6.6-11 Bi-1.67 202 h F 0.100 3.4 E-10 0.050
2.8 E-10 9.0 1.5 E-10 E-11 5.3 E-11 E-11 M 0.100 4.3 4.2 E-10 0.050 3.4 E-10 1.1 1.8 E-10 E-10 6.9 E-11 E-11 Bi-203 11.8 5.5 h F E-9 1.2 1.5 0.100 0.050 E-9 6.4 E-10 4.0 1.9 2.3 E-10 E-10 E-10 M E-9 1.6 2.0 0.100 0.050 E-9 5.3 E 8.2 E-10-10-10 3.3 E 2.6 E-10 Bi-15.3 205 d F 0.100 3.0 E-9 0.050 2.4 E-9 1.3 E-9 4.7 8.0 E-10 E-10 E-10 M 0.100 3.8 5.5 E-9
0.050 2.5 E-9 1.6 4.4 E-9 E-9 1.2 E 9.3-9 E-10 Bi-6.24 d F 0.100 6.1 206 E-9 4.8 0.050 E-9 1.6 2.5 E-9 E-9 7.4 9.1 E-10 E-10 M 0.100 1.0 E-8 8.0 E-9 0.050 4.4 E-9 2.9 1.7 2.1 E-9 E-9 E-9 Bi-38.0 207 a F 4.3 0.100 0.050 3.3 E-9 E-9 1.0 1.7 E-9 E-9 6.0 E-10 4.9 E-10 M 0.100 0.050 2.0 2.3 E-8 E-8 1.2 E-8 8.2 E-9 6.5 5.6 E-9 E-9 Bi-210 5.01 d
F 1.1 0.100 E-8 3.2 0.050 6.9 E-9 E-9 2.1 1.1 1.3 E-9 E-9 E-9 M 0.100 0.050 3.0 3.9 E-7 E-7 1.3 1.1 1.9 E-7 E-7 E-7 9.3 E-8 Bi-210 106 3.00 a F 4.1 2.6 0.050 0.100 E-7 E-7 1.3 E-7 E-8.3 4.6 5.6 8 E-8 E-8 M 1.5 0.100 0.050 1.1 E-5 E-5 E-7.0 4.8 4.1 E-E-6 6 6 3.4 E-6 Bi-212 1.01 h F 4.5 6.5 8 0.050 0.100 E-E-E-E-8 8 8 2.1 1.5 1.0 E-8
9.1 E-9 M 1.6 0.100 E-7 1.1 0.050 6.0 E-7 E-8 4.4 3.8 3.1 E E-E-8 8-8 Bi-213 0.100 7.7 0.761 h F E-8 0.050 5.3 E-8 2.5 E-8 1.7 1.2 1.0 E E-E-8 8-8 M 0.100 0.050 1.2 1.6 E-7 E-7 6.0 E-8 3.0 3.6 4.4 E-8 E-8 E-8 Bi-214 0.332 h F 3.5 5.0 E-8 0.100 0.050 E-8 1.6 E-8 1.1 E-8 8.2 E-9 7.1 E-9 M 0.050 6.1 0.100 8.7 E-8 E-8 E-1.7 3.1 2.2 8 E-8 E-8 1.4 E-8 Polonium Po-203 0.612 h F 1.5 0.100 0.200 1.9 E-10 E-E-E-11 11 10 7.7 4.7 2.8 E-11 E-11 M 2.3 2.7 E-10 0.100 0.200 2.1 1.1 10 E-E-E-E-11 10 6.7 4.3 3.5 E 11-11 S 0.020 2.8 E-10 0.010 1.1 2.2 E-10 E-10 7.0 E-11 E-11 3.6 E 4.5-11 Po-205 0.200 2.6 1.80 h F E-10 0.100 2.1 1.1 E-10 E-10 E-11 4.1 E 6.6-11 E-11 M 3.3 0.200 4.0 E-10 0.100 1.7 3.1 E-10 E-10 1.1 E-10 E 8.1-11 E-11 S 0.020 4.2 E 6.5-10 0.010 1.2 1.8 3.2 E-10 E-10 E-10 8.5 E-11 6.9 E-11 Po-207 5.83 0.200 4.8 h F E-10 2.1 0.100 4.0 E-10 E-10 1.3 E-10 7.3 E-11 E-11 M 6.2 5.8 0.200 0.100 5.1 E-10 E-10 2.6 E-E-E-10 10 1.6 9.9 7.8 E 11-11 S 0.020 0.010 5.3 6.6 E-10 E-10 1.0 1.7 2.7 E-10 E-10 E-10 E 8.2-11 Po-210 138 d F 0.200 7.4 E-6 2.2 0.100 4.8 E-6 E-6
7.7 1.3 E-6 E-7 E-7 6.1 M 1.5 0.100 1.1 0.200 E-5 E-5 E-6.7 4.0 4.6 E-6 6 E-6 E-3.3 6 S 0.020 0.010 1.4 1.8 E-5 E-5 E-5.9 8.6 E-6 6 6 4.3 5.1 E-E-6 1.80 Astatine At-207 h F 2.4 1.7 1.000 1.000 E-9 E-9 4.0 5.9 8.9 E-10 E-10 E-10 3.3 E-10 M 1.000 1.000 6.7 9.2 E-9 E-9 4.3 E-9 2.9 3.1 E-9 E-9 2.3 E-9 At-211 7.21 h F 1.000 1.000 9.7 1.4 E-7 E-8
4.3 E-8 2.8 E-8 1.6 1.7 E-8 E-8 M 1.000 1.000 3.7 5.2 E-7 E-7 1.3 1.4 1.9 E-7 E-7 E-7 E-7 1.1 Francium Fr-222 0.240 h F 6.3 1.000 1.000 9.1 E-8 E-8 3.0 2.1 E-8 E-8 1.4 1.6 E-8 E-8 Fr-223 0.363 h F 1.1 7.3 1.000 1.000 E-8 E-E-E-9 9 9 3.2 1.9 1.0 E-9 E-8.9 10 Radium 16 Ra-223 11.4 0.600 3.0 d F E-6 E-7 E-6 4.9 0.200 1.0 4.0 E-7 1.2 3.3 E-7 E-7
 
 
M 2.8 E-5 0.100 2.1 0.200 E-5 1.3 E-5 E-6 9.9 9.4 E-6 7.4 E-6 S 0.010 2.4 0.020 3.2 E-5 E-5 E-5 1.5 1.1 1.1 E-5 E-5 E-6 Ra-224 3.66 8.7 d F 1.5 0.600 0.200 6.0 E-6 E-7 E-7 2.2 2.9 1.7 E-7 E-7 7.5 E-8 M 8.2 0.100 0.200 1.1 E-5 E-6 6 3.9 5.3 E-E-E-E-6 3.0 3.7 6 6 S 0.010 9.2 0.020 1.2 E-5 E-6 5.9 4.4 E-6 E-6 3.4 4.2 E-6 E-6 Ra-225 14.8 d F 0.600 4.0 E-6 1.2 0.200 4.6 5.6 E-6 E-7 E-7 3.8 1.3 E-7 E-7 M 2.4 E-5 1.8 0.100 0.200 E-5 7.9 8.4 1.1 E-5 E-6 E-6 6.3 2.8 E-5 E-6 S 0.020 0.010 2.2 1.0 1.4 E-5 E-5 E-5 E-6 7.7 9.8 E-6 Ra-226 103 a F 0.600 2.6 1.60 0.200 9.4 E-6 E-7 E 5.5-7 1.3 7.2 E-7 E-6 E-7 3.6 M 1.5 0.100 1.1 0.200 E-5 E-5 E-6 4.9 7.0 E-6 3.5 4.5 E-6 E-6
 
 
S 2.9 0.010 0.020 3.4 E-5 E-5 E-5 1.9 1.0 1.2 E-5 E-5 E-6 Ra-227 0.703 9.5 h F 0.600 0.200 1.2 1.5 E-9 E-9 5.3 6.1 7.8 E-10 E-10 E-10 4.6 E-10 M 0.200 8.0 E-10 4.4 0.100 6.7 E-10 E-10 2.8 2.9 3.2 E-10 E-10 E-10 S 0.020 1.0 E-9 0.010 8.5 E-10 4.4 E-10 2.9 2.2 2.4 E-10 E-10 E-10 Ra-228 0.600 1.7 5.75 a F E-5 E-6 0.200 5.7 3.6 3.1 4.6 6 6 E-E-E-6 9.0 E-7 M 0.200 1.5 0.100 1.0 E-5 E-5 E-6 6.3 4.4 4.6 E-6 E-6 2.6 E-6 S 0.010 4.8 0.020 4.9 E-5 E-5 E-3.2 5 2.0 1.6 1.6 E-5 E-5 E-5 Actinium Ac-224 2.90 0.005 1.3 h F E-7 E-4 8.9 5.0 4.7 E E-8-8-8-8 1.4 1.1 3.1 E E E-8 M 5.0 0.005 4.2 E-7 E-4 3.2 E-7 E-7 1.4 1.5 2.0 E-7 E-7 1.1 0.005 4.6-7 S E E-7 E-4 3.5 5.0 E-7 2.2 1.6 1.7 E-7 E-7 E-7 1.3 E-7 Ac-225 0.005 1.1 5.0 10.0 d F E-5 E-4 7.7 4.0 E-6 E-6 E 2.6-8.8 6 1.1 E-6 E-7 M 2.8 E-5 E-0.005 5.0 2.1 4 1.3 1.0 E-5 E-5 E-5 E-7.4 9.3 E-6 6 S 5.0 0.005 3.1 E-5 E-4 1.5 1.1 2.3 E-5 E-5 E-5 E-5 8.5 E-6 Ac 1.1-1.5 0.005 226 1.21 d F E-6 E-4 1.1 5.0 4.0 E-6 E-7 2.6 E-7 1.2 E-7 E-8 9.6 M 5.0 E-4 E-6 4.3 0.005 3.2 E-6 2.1 1.5 1.5 E-6 E-6 E-6 1.2 E-6 S 5.0 4.7 0.005 E-6 E-4 3.5 E-6 2.3 E-6 1.3 1.6 1.7 E-6 E-6 E-6 Ac-227 21.8 a F 5.0 E-4 E-3 0.005 1.7 1.6 1.0 E-3 E-3 E-4 5.6 7.2 E-4 E-4 5.5 5.7 0.005 M E-4 E-4 5.5 5.0 3.9 E-4 E-4 2.6 2.3 2.2 E-4 E-4 E-4 S 0.005 2.2 2.0 5.0 E-4 E-4 E-4 1.3 E-4 E-8.7 5 7.6 E-5 E-5 Ac-228 6.13 7.2 h F
5.0 0.005 1.8 E-7 E-4 E-7 E-9.7 1.6 8 5.7 E-8 2.9 E-8 2.5 E-8 M 5.0 0.005 8.4 E-8 E-4 E-7.3 4.7 8 E-8 2.9 1.7 2.0 E-8 E-8 E-8 S 0.005 5.0 5.3 6.4 E-8 E-4 E-8 1.9 2.2 3.3 E-8 E-8 E-8 1.6 E-8 Thorium Th-226 0.515 0.005 1.4 h F E-7 1.0 E 5.0 E-4-7 8 3.4 4.8 E-E-E-E-8 8 8 2.5 2.2 M 0.005 3.0 E-7 E-7 1.1 5.0 2.1 E-4 E-7 E 8 7.0-8.3 E-8 0.005 3.1 5.8 E-8 S E-7 1.2 2.2 5.0 E-4 E-7 E-7 E-8 6.1 7.5 8.8 E-8 E-8 Th-0.005 8.4 227 18.7 d F E-6 5.0 E-4 E-6 2.6 E-6 1.6 5.2 E-6 E-7 1.0 E-6 6.7 M 5.0 0.005 3.2 E-5 E-4 2.5 E-5 E-5 E-5 1.6 1.1 1.1 8.5 E-5 E-6 S 5.0 3.9 0.005 E-5 E-4 1.9 3.0 E-5 E-5 1.3 1.0 1.4 E-5 E-5 E-5 Th-228 1.91 a F 0.005 1.8 E-4 E-4 5.0 1.5 E-4 E-5 E-5 8.3 5.2 3.6 2.9 E-5 E-5 M 1.3 0.005 E-4 E-4 1.1 5.0 E-4 4.6 6.8 E-5 E-5 E-5 E-5 S 3.2 3.9 0.005 5.0 E-4 1.3 1.6 E-4 E-4 5.5 8.2 E-5 E-5 E-5 4.7 4.0 E-5 Th-229 103 7.34 a F 5.0 0.005 5.4 E-4 E-4 3.6 2.9 5.1 E-4 E-4 E-4 E-4 2.4 2.4 2.3 E 4 M E-0.005-4 E-5.0 2.1 1.6 4 E-4 E-4 E-4 1.2 1.1 1.1 E-4 E-4 S 2.1 0.005 E-4 E-4 E-4 1.3 1.9 5.0 E-4 E-8.7 5 7.6 E-5 E-5 Th-230 7.70 104 7.1 a F 5.0 2.1 0.005 E-4 E-4 2.0 E-4 E-4 1.4 1.1 1.0 E-4 9.9 E-5 E-4 M 5.0 0.005 7.7 E-5 E-4 E-5 E-7.4 5 5.5 4.3 4.2 4.3 E-5 E-5 E-5 S 0.005 4.0 E-5 E-5 2.4 3.5 5.0 E-4 E-5 1.4 1.5 1.6 E-5 E-5 E-5 Th-1.06 231 d F 1.1 5.0 E-4 E-9 0.005 7.2 E-10 2.6 E-10 1.6 E-10
7.8 9.2 E-11 E-11 M 5.0 E-4 E-9 0.005 2.2 1.6 4.8 8.0 E-9 E-10 E-E-E-10 10 3.8 3.1 10 S 5.0 E-4 E-9 0.005 2.4 1.7 E-9 5.2 7.6 E-10 E-10 3.3 4.1 E-10 E-10 Th-232 1.40 1010 a F 5.0 E-4 E-4 0.005 2.3 2.2 1.6 E-4 E-4 E-4 1.2 1.3 1.1 E-4 E-4 M 5.0 0.005 8.3 E-5 E-4 6.3 8.1 E-5 E-5 E-5 4.5 5.0 4.7 E-5 E-5 S 5.4 0.005 E-5 E-4 5.0 5.0 E-5
2.5 2.6 3.7 E-5 E-5 E-5 E-5 Th-234 24.1 2.5 d F 5.0 4.0 E 0.005-8 E-4 E-8 6.1 1.1 2.5 E-8 E 9 3.5-2.5 E-9 E-9 0.005 M 5.0 3.9 2.9 E-8 E-4 E-8 1.5 1.0 E-8 E-8 7.9 E-9 E-9 S 0.005 4.1 E 6.6-8 1.7 3.1 5.0 E-4 E-8 E-8 1.1 E-8 9.1 E-9 7.7 E-9 Protactinium Pa-0.638 h M 0.005 3.6 E 227-7 2.6 5.0 E-4 E-7 1.0 1.4 E-7 E-7 E-8 7.4 9.0 E-8 S
0.005 3.8 2.8 5.0 E-7 E-4 E-7 E-7 1.1 1.5 8.1 E-7 E-8 8.0 E-8 Pa-22.0 228 h M 5.0 0.005 2.6 E-7 E-2.1 4 1.3 E-7 E-7 6.4 7.7 8.8 E-8 E-8 E-8 S 2.9 0.005 5.0 E-4 E-7 2.4 E-7 1.0 1.5 E-7 E-7 7.5 8 9.1 E-E-8 Pa-230 d 17.4 M 5.0 0.005 2.4 E-6 E-4 E-6 1.1 1.8 E-8.3 6 E-7 E-7 6.1 7.6 E-7 S 5.0 E-4 E-6 0.005 2.9 2.2 1.0 1.4 E-6 E-6 E-6 9.6 E-7 E-7 Pa-231 3.27 104 7.6 a M 5.0 E-4 E-4 0.005 2.2 2.3 1.9 E-4 E-4 E-4 1.5 1.4 1.5 E-4 E-4 S 0.005 7.4 E-5 E-4 6.9 5.0 E-5 E-5 3.6 3.9 5.2 E-5 E-5 E-5 Pa-232 1.31 d 3.4 M 5.0 E-4 E-8 0.005 1.9 1.8 E-8 1.4 1.1 1.0 E E-E-8 8-8 0.005 1.0 1.0 E-8 S E-8 5.0 E-4 5.9 8.7 E-9 E-9 3.5 3.7 4.1 E-9 E-9 E-9 Pa-233 27.0 d M
0.005 1.5 1.1 5.0 E-8 E-4 E-8 4.7 6.5 E-9 E-9 4.1 E-9 3.3 E-9 S 0.005 5.0 E-4 1.3 1.7 E-8 E 9 5.5 7.5-8 E-E-E-E-9 9 9 4.9 3.9 Pa-234 6.70 h M 2.8 E-9 0.005 5.0 E-4 E-9 1.0 2.0 E-9 E 6.8-10 4.7 E-10 E-10 S 0.005 2.9 3.8 E-9 5.0 2.1 1.1 9 E-4 E-E-E-E-10 10 9 7.1 5.0 4.0 E-10 Uranium U-230 0.040 3.2 20.8 d F E-6 7.2 0.020 1.5 E-6 E-7 5.4 E-7 E-7 E-4.1 7 3.8 M 0.020 3.7 0.040 4.9 E-5 E-5 2.4 1.7 1.8 E-5 E-5 E-5 1.3 E-5 S

0.020 5.8 0.002 4.4 2.8 E-5 E-5 E-5 2.1 1.6 2.0 E-5 E-5 E-5 U-231 0.040 8.9 4.20 d F E-10 0.020 6.2 E-10 1.0 1.4 3.1 E-10 E-10 E-10 6.2 E-11 M 2.4 1.7 0.040 0.020 E-9 E-9 9.4 E-10 5.5 4.6 E-E-10 10 10 S 0.020 2.6 3.8 E-E-E-E-9 9 0.002 1.9 9.0 10 4.9 6.1 E-10 E-10 U-232 72.0 4.0 E-10 a F 1.6 0.040 0.020 1.0 E-5 E-5 E-6.9 6.8 7.5 E-E-6 6 6 4.0 E-6
 
 
0.040 3.0 m E-5 E-5 E-0.020 2.4 5 1.6 1.1 1.0 E-5 E-5 E-6 S 0.020 1.0 E 7.8-4 6.6 0.002 9.7 E-5 E-5 3.7 3.8 4.3 E-5 E-5 E-5 105 a F U-233 1.58 0.020 1.4 0.040 2.2 E-6 E-6 E-7 8.6 9.4 8.4 E-7 E-7 E 5.8-7 M 1.5 1.1 0.020 0.040 E-5 E-5 E-6 7.2 4.3 4.9 E-6 E-6 3.6 3.4 E-5 E-6 S 0.020 0.002 1.9 3.0 E-5 E-5 E-5 E-5 9.6 1.1 1.2 E-6 U-234
105 a F 0.040 2.1 2.44 0.020 1.4 E-6 E-6 E-7 8.0 9.0 8.2 E-7 E-7 E-7 M 5.6 1.5 1.1 0.020 0.040 E-5 E-5 E-6 4.2 4.8 7.0 E-6 E-6 E-6 S 0.020 3.3 3.5 E-5 E-5 E-5 2.9 0.002 1.9 1.0 1.2 E-5 E-5 9.4 E-6 U-235 108 a F 0.040 7.04 2.0 E-6 E-7 E-6 1.3 0.020 8.5 7.5 E-7 E-7 E-7 7.7 5.2 M 0.040 1.3 1.0 0.020 E-5 E-5 E-6 4.3 6.3 3.7 E-6 E-6
3.1 3.0 E-5 E-6 S 0.020 0.002 2.6 E-5 E-5 1.1 1.7 E-5 E-9.2 6 8.5 E-6 U-236 2.34 0.040 2.0 E-107 a F 6-6 E-7 1.3 E 0.020 8.5 7.8 7.5 E-7 E-7 E-7 5.3 M 0.040 0.020 1.0 1.4 E-5 E-5 E-6 4.5 6.5 3.9 E-E-6 6 6 S 0.020 3.1 3.2 E-E-5 E-5 E-5 1.8 0.002 2.7 1.1 E-5 E-6 8.7 9.5 E-6 U-6.75 d F 0.040 1.8 E-9 237 0.020 1.5 E-9 6.6 E-10 4.2 E-10
1.8 1.9 E-10 E-10 M 0.040 7.8 E-9 0.020 3.3 5.7 E-9 E-9 1.7 2.1 2.4 E-9 E-9 E-9 S 0.020 8.7 3.7 0.002 6.4 E-9 E-9 E-9 1.9 2.4 2.7 E-9 E-9 E-9 109 a F U-238 4.47 0.040 1.9 0.020 1.3 E-6 E-6 E-7 E 8.2 7.3-7.4 5.0 E-7 E 7-7 M 1.2 0.040 E-5 E-0.020 9.4 4.0 5.9 6 E-6 E-6 3.4 E-6 2.9 2.9 E-5 E-6 S 0.020 0.002 1.0 2.5 E-5 1.6 E-5 E-5 8.7 E-6 8.0 E-6 U-239 0.040 1.0 E-10 0.392 h F E 6.6-11 0.020 2.9 E-11 E-1.9 1.0 1.2 E 11-11 E-11 M 0.040 0.020 1.2 1.8 E-10 E-E-E-11 11 10 5.6 3.8 2.7 E-11 E-11 S 0.020 1.9 2.2 E-10 0.002 4.0 5.9 1.2 E-10 E-11 E-11 2.9 E-11 2.4 E-11 U-240 14.1 0.040 2.4 h F E-9 1.6 0.020 E-9 E-7.1 10 4.5 2.0 2.3 E-10 E-10 E-10 M 0.040 0.020 3.1 4.6 E-9 E-9 1.7 E-1.1 9 E-9
5.3 6.5 E-10 E-10 S 0.020 4.9 E-9 1.6 0.002 3.3 E-9 E-9 E-1.1 9 7.0 E-10 5.8 E-10 Neptunium Np-0.005 2.0 E-10 232 0.245 h F 5.0 E-4 1.2-1.9 E 10 E-10 1.1 1.1 1.2 E E-E-10 10-10 M E-4 E-0.005 8.9 11 5.0 5.5 8.1 E-11 E-11 E-4.5 5.0 4.7 E 11-11 E-11 S 0.005 5.0 1.2 E-10 E-4 E-11 E 5.8-11 3.9 9.7 E-11 2.4 2.5 E-11 E-11 Np-0.005 233 0.603 h F 1.1 5.0 E-4 E-11
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4.8 6.0 E-5 E-5 5.0 4.7 E-5 E-5 S 1 E-4 1.0 1.0 3.9 4.3 E-5 E-5 E-5 2.7 E-5 1.6 1.7 1.9 E-5 E-5 E-5 Pu-241 0.005 14.4 a F 2.8 5.0 E-4 E-6 2.9 E 2.6 2.4 E E-6-6-6-6 2.3 2.2 E E-6 M 5.0 0.005 9.1 E-7 E-4 E-7 E-7 9.7 9.2 8.3 9.0 8.6 E-7 E-7 E-7 2.2 1.0 S 1 E-4 E-7 1.0 2.0 2.3 E-5 E-7 E-7 1.7 E-7 E-7 1.7 1.7 E-7 Pu-242
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1.3-1.9 E 10 E-10 8.7 E-11 E-11 S 8.3 1.0 1.0 6.0 E-1 E-4 10 E-5 2.0 1.4 4.1 E-10 E-10 E-10 9.2 E-11 8.6 E-11 Pu-244 8.26 0.005 2.0 E-107 a F 4 5.0 E-4 1.9 E-4 E-4 1.4 1.1 1.1 1.2 E-4 E-4 E-4 M 0.005 7.4 E-5 E-4 7.2 5.0 E-5 E-5 E-5 5.6 4.5 4.7 4.4 E-5 E-5 S 1 E-4 1.0 1.0 3.9 E-5 E-5 2.4 1.7 3.5 E-5 E-5 E-5 1.5 1.5 E-5 E-5
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5.0 E-4 2.4 E-4 E-4 1.4 1.4 1.8 E-4 E-4 1.5 1.4 E-4 E-4 S 0.005 5.0 1.2 E-4 E-4 E 8.2-5 5.6 4.8 5.0 E-5 E-5 E-5 Cm-249 0.005 1.8 1.07 h F E-10 E-4 9.8 5.0 E-11 4.0 4.6 5.9 E-11 E-11 E-11 4.0 E-11 M 5.0 E-0.005 2.4 E-10 4 5.8 8.2 1.6 E-10 E-11 E-11 3.7 3.3 E-11 E-11 S 0.005 2.4 E-10 5.0 E-4 7.8 1.6 E-10 E-11 3.9 5.3 E-11 E-11 3.3 E-11 Cm-250
103 a F 6.90 0.005 5.0 3.9 E-3 E-4 E 2.6-3.7 E-3 3 2.0 2.1 2.1 E-3 E-3 E-3 M 0.005 5.0 E-4 1.3 1.4 E-3 E-3 E-4 9.9 7.9 8.4 7.9 E-4 E-4 E-4 S 0.005 7.2 5.0 E-4 E-4 E-6.5 4 4.4 E-4 3.0 E-4 E-4 E-2.7 2.6 4 Berkelium Bk-245 d 4.94 M 5.0 E-4 E-9 0.005 8.8 6.6 E-9 4.0 E-9 2.1 2.6 2.9 E-9 E-9 E-9 Bk-1.83 246 d 5.0 2.1 0.005 M E-9 E-4
9.3 1.7 E-9 E-10 6.0 E-10 4.0 E-10 247 1.38 3.3 E-10 Bk-E + 1.5 E 3 a M 0.005-4 1.5 1.1 5.0 E-4 E-4 E-4 E-5 7.9 7.2 E-5 E-5 Bk-249 320 d 6.9 M 0.005 3.3 3.3 5.0 E-7 E-4 E-7 2.4 E-7 1.6 1.6 1.8 E-7 E-7 E-7 Bk-0.005 3.4 250 3.22 h M E-9 E-4 3.1 2.0 5.0 E-9 E-9 1.0 1.1 1.3 E-9 E-9 E-9 Californium Cf-0.005 7.6 244 0.323 h M E-8 5.0 E-4 5.4 E-8 2.8 E-8 1.6 2.0 E-8 E-8 1.4 E-8 Cf-1.49 246 d M 5.0 E-4 E-6 0.005 1.7 1.3 E-6 5.7 6.1 8.3 E-7 E-7 E-7 E-7 Cf-248 334 d 4.5 M 0.005 3.8 3.2 5.0 E-4 E-5 E-5 E-5 1.0 1.4 2.1 E-5 E-5 E-8.8 6 Cf-249 350 a M 1.6 0.005 E-4 1.5 1.1 5.0 E-4 E-4 E-4 7.0 8.0 E-5 7.2 E-5 E-5 Cf-250 E-4 1.1 5.0 0.005 13.1 a M E-4 9.8 E-5 E-5 4.2 6.6 E-5 E-3.5 3.4 E 5-5 Cf-251 898 a M 1.6 0.005 E-4 1.5 1.1 5.0 E-4 E-4 E-4 E-5 8.1 7.3 E-5 E-5 Cf-252 2.64 7.1 a M 5.0 0.005 9.7 E-5 E-4 5.6 8.7 E-5 E-5 2.0 2.2 3.2 E-5 E-5 E-5 Cf-253 d 17.8 M 0.005 4.2 5.4 5.0 E-6 E-4 E-6 2.6 E-6 1.3 1.7 1.9 E-6 E-6 E-6 Cf-60.5 254 d M 2.5 5.0 0.005 E-4 E-E-E-4 4 4 1.9 1.1 7.0 E-5 E-5 4.8 4.1 E-5 Einsteinium Es-2.10 250 h M 2.0 5.0 E-9 0.005 E-4 E-9 1.2 1.8 E-9 6.3 6.4 7.8 E-10 E-10 E-10 Es-1.38 251 d M E-4 E-9 0.005 7.9 5.0 3.9 6.0 E-9 E-9 2.8 E-9 2.1 2.6 E-9 E-9 Es-20.5 253 d M 0.005 1.1 5.0 E-5 E-4 E-6 5.1 8.0 E-E-E-6 6 6 3.7 3.4 2.7 E-6 Es-254 276 d M 5.0 0.005 3.7 E-5 E-4 E-5 E-5 1.3 3.1 2.0 1.0 E-5 E-5 E-6 Es-254 m 1.64 8.6 d M 5.0 E-4 E-6 0.005 1.7 1.3 E-6 6.3 7 8.4 E-E-E-E-7 7 7 5.9 4.7 Fermium Fm 22.7 252 h M 5.0 1.2 0.005 E-6 E-4 5.8 4.3 9.0 E-7 E-7 E-7 3.2 4.0 E-7 E-7 Fm-253 d 3.00 M 5.0 1.5 0.005 E-6 E-4 1.2 7.3 E-7 E-6 5.4 4.0 5.0 E-7 E-7 E-7 Fm-3.24 h 254 M 5.0 E-7 E-0.005 3.2 2.3 E 4-7 1.3 E-7 E-8 7.6 9.8 E-8 6.1 E-8 Fm-0.005 255 20.1 h M
5.0 E-E-6 1.2 4 7.3 4.7 E-7 E-7 E-7 2.7 3.5 3.4 E-7 E-7 Fm-257 101 d M 3.3 0.005 E-5 E-4 2.6 5.0 E-5 E-5 E-5 1.6 1.1 7.1 8.8 E-6 E-6 Mendelevium Md-257 1.0 E 5.0 h 5.20 M 0.005-7 E-4 E 8.2-5.1 8 E-8 2.5 3.1 3.6 E-8 E-8 E-8 Md-55.0 258 d 0.005 M 2.4 E-5 E-5.0 1.2 4 1.9 E-5 E-5 E-5.9 8.6 7.3 6 E-6 E-6 table 3 lung absorption type (n) 17 , used for the calculation of inhalation dose coefficient deeltjesaerosolen or gases and vapours for exposed to members of the public lung absorption type (s) for members of the public Element lung absorption type (s) of ICRP publications for details of the Biokinetic models and the type (s) of hydrogen absorption F, M (*), S, 56, 67 and 71 G publications Beryllium M, S publication 30, part 3 carbon F, M (*) , S, publications 56, 67 and 71 Fluorine F G, M, S publication 30, part 2 Sodium F publication 30, part 2 Magnesium F, M publication 30, part 3 Aluminum F, M publication 30, part 3 Silicon F, M, S publication 30, part 3 Phosphorus F, M publication 30, part 1 (*) Sulphur F, M, S, 67 and 71 Chlorine F G publications , M publication 30, part 2 Potassium F publication 30, part 2 Calcium F, M, S publication 71 Scandium S publication 30, part 3 Titanium F, M, S publication 30, part 3 Vanadium F, M publication 30, part 3 Chrome F, M, S publication 30, part 2 Manganese F, M publication 30, part 1 Iron F, M (*), S publications 69 and 71 Cobalt F , M (*), 67 and 71 Nickel F, M S publications (*), S, G 67 and 71 publications Copper F, M, S publication 30, part 2 Zinc F, M and S, publications (*) 67 71 Gallium F, M publication 30, part 3 Germanium F, M publication 30, part 3 Arsenic M publication 30, part 3 Selenium F (*), M, S publications 69 and 71 Bromine F , M publication 30, part 2 Rubidium F publication 30, part 2 Strontium F, M and S, publications (*) 67 71 Yttrium M, S publication 30, part 2 Zirconium F, M (*), S 56, 67 and 71 publications Niobium F, M (*), S 56, 67 and 71 publications Molybdenum F, M and S, publications (*) 67 71 Technetium F, M and S, publications (*) 67 71 Ruthenium F , M (*), S, 56, 67 and 71 G publications Rhodium F, M, S publication 30, part 2 Palladium F, M, S publication 30, part 3 Silver F, M and S, publications (*) 67 71 Cadmium F, M, S publication 30, part 2 Indium F, M publication 30, part 2 Tin F, M publication 30, part 3 Antimony F, M (*), S publications 69 and 71 Tellurium F , M (*), S, G 67 and 71 publications Iodine F (*), M, S, publications 56, 67 and 71 G Cesium F (*), M, S 56, 67 and 71 publications Barium F, M and S, publications (*) 67 71 Lanthanum F, M publication 30, part 3 Cerium F, M (*), S 56, 67 and 71 publications Praseodymium Neodymium publication 30, part 3 M, S M, S publication 30 , part 3 Promethium M, S publication 30, part 3 Samarium M publication 30, part 3 Europium M publication 30, part 3 Gadolinium F, M publication 30, part 3 Terbium M publication 30, part 3 Dysprosium M publication 30, part 3 Holmium M publication 30, part 3 M publication 30, part 3 Erbium Thulium Ytterbium M publication 30, part 3 M, S publication 30 , part 3 Lutetium M, S publication 30, part 3 Hafnium F, M publication 30, part 3 Tantalum M, S publication 30, part 3 Wolfram F publication 30, part 3 Rhenium F, M publication 30, part 2 Osmium F, M, S publication 30, part 2 Iridium F, M, S publication 30, part 2 Platinum F publication 30, part 3 Gold F, M , S publication 30, part 2 Mercury F, M, G publication 30, part 2 Thallium F publication 30, part 3 (*) Lead F, M, S, publications 67 and 71 G Bismuth F, M publication 30, part 2 Polonium F, M (*), S, G 67 and 71 publications Astatine F, M publication 30, part 3 Francium F publication 30, part 3 Radium F, M and S, publications (*) 67 71 Actinium F , M, S publication 30, part 3 Thorium F, M, S (*) publications 69 and 71 Protactinium M, S publication 30, part 3 Uranium F, M (*), S publications 69 and 71 Neptunium F, M and S, publications (*) 67 71 Plutonium F, M and S, publications (*) 67 71 Americium F, M and S, publications (*) 67 71 Curium F, M (*), S publication 71 Berkelium M publication 30 , part 4 Californium M publication 30, part 4 Einsteinium M publication 30, part 4 Fermium M publication 30, part 4 Mendelevium M publication 30, part 4 table 4 inhalation and ingestion dose coefficients for workers effective dose e (g) per via inhalation for 1 and 5 µm or ingestion included unit (Sv Bq-1) for employees Inhalation Ingestion Nuclide half-life Type18 f1 e (g) 1 μm e (g) 5 μm f1 e (g) hydrogen Tritiated water 12, 3a see table 5 for inhalation doses 1.000
1.8 E-11 OGT19 12, 3a see table 5 for inhalation doses 1.000 4.2 E-11 Beryllium Be-7 53, 3d 0.005 4.8 M E-11 0.005 2.8 E-11 E-11 4.3 S 4.6 5.2 E 0.005-11 E-11 Be-10 1, 60th + 6a 0.005 9.1 M E-9 0.005 1.1 6.7 E-9 E-9 S 1.9 0.005 3.2 E-8 E-8 carbon C-340 h 11 0, see table 5 for inhalation doses 1.000 2.4 E-11 C-14 5, 73rd + 3a see table 5 for inhalation doses 5.8 1.000 E-10 Fluorine F-18 1, 83 h F 3.0 E-11 5.4 1.000 1.000 E-11
E-11 M 5.7 4.9 1.000 E-11 8.9 E-11 S 6.0 E-11 9.3 1.000 E-11 Sodium Na-22 2, 60a F 2.0 1.3 1.000 E-9 E-9 3.2 1.000 E-9 Na-24 15, 0 h F 1.000 2.9 4.3 5.3 E-10 E-10 1.000 E-10 Magnesium Mg-28 20, 9 h F 6.4 0.500 0.500 2.2 1.1 E-10 E-9 E-9 M 1.7 1.2 0.500 E-9 E-9 Aluminum Al-7.16 E + 26 5a F 0.010 1.4 1.1 E-8 E-8

0.010 0.010 1.8 3.5 E-9 M E-8 1.2 E-8 Silicon Si-31 2 62h F 0.010 2.9 E-11, E-11 0.010 1.6 5.1 E-10 M 0.010 7.5 E-11 E-1.1 10 S 0.010 8.0 E-11 1.1 E-10 Si-32 450a F 0.010 3.2 E-9 E-9 0.010 5.6 3.7 E-10 M 1.5 0.010 E-8 0.010 1.1 9.6 E-9 S E-7 E 5.5-8 Phosphorus P-14 32, 3d F 0.800 8.0 E-10 E-1.1 9 0.800 2.4 E-9 M 9-2.9 3.2 0.800 E E-9 P-33 25, 4 d F 0.800 9.6 E-11
1.4 0.800 2.4 E-10 E-10 M E-9 1.3 1.4 0.800 E-9 Sulfur S-35 (anorg.) 87, 4 d F 8.0 5.3 0.800 E-11 E-10 0.800 1.3 1.4 0.800 E-10 M E-9 E-1.1 9 0.100 1.9 E-10 S-35 (org.) 87, 4 d see table 5 for inhalation doses 7.7 1.000 E-10 Chlorine Cl-36 3.01 E + 5a F 3.4 E-1.000 10 1.000 9.3 4.9 E-10 E-10 M 5.1 6.9 1.000 E-9 E-9 Cl-38 0 620h F 1.000 2.7 E-11, E-11 1.000 1.2 4.6 E-10 M 7.3 4.7 1.000 E-11 E-11, Cl-39 0 927h F 2.7 E-11 1.000 1.000 8.5 E-4.8 E-11 11 1.000 4.8 M E-11 7.6 E-11 Potassium K-40 1.28 E + 9a F 3.0 2.1 1.000 E-9 E-9 6.2 1.000 E-9 K-42 12, 4 h F 2.0 1.3 1.000 E-10 E-10 4.3 1.000 E-10 K-43 22, 6 h F 1.5 E-1.000 10 1.000 2.5 2.6 E-10 E-10 K-44 0 369h F 1.000 2.1 E-11, E-11 1.000 8.4 3.7 E-11 K-45 0, 333h F 1.6 2.8 E-E-11 11 1.000 1.000 5.4 E-11 Calcium Ca-1.40 E + 41 5A M 0.300 1.7 1.9 E-E-10 10 45 E-10 Ca-163d 0.300 2.9 M 2.3 2.7 0.300 E-9 E-9 0.300 7.6 E-10 Ca-47 4, 53d M 0.300 1.8 2.1 1.6 0.300 E-9 E-9 E-9 Scandium Sc-43 3 89h S 1.2 1.0 E-4, E-10 1.8 1.9 1.0 E-10 E-4 E-10 Sc-44 3, E-4 1.9 1.0 E 93h S-10 3.5 1.0 3.0 E-10 E-4 E-10 Sc-44 m 2, 44 d S 1.0 1.5 2.0 E-9 E-4 E-9 1.0 2.4 E-4 E-9 Sc-46 83, 8 d S 1.0 E-4 E-9 4.8 6.4 E-9 1.5 1.0 E-4 E-9 47 3, Sc-35 d S 7.0 7.3 1.0 E-4 E-10 E-10 1.0 E-4 5.4 E-10 Sc-48 1, 1.1 1.0 82d S E-4 E-9 1.6 1.7 E-9 1.0 E-4 E-9 Sc-49 0 956h S 1.0 E-4, E-11 6.1 4.1 E-11 8.2 1.0 E-4 E-11 Titanium Ti-44 47, 3a F E-8 0.010 6.1 7.2 E-8 0.010 5.8 E-9 M 4.0 E-8 0.010 2.7 E-8 S 0.010 6.2 1.2 E-7 E-8 Ti-45 3, 08 h F 0.010 8.3 4.6 E-11 E-11 0.010 1.5 E-10 M
9.1 0.010 E-11 E-10 S 0.010 9.6 E 1.4-1.5 E-10 Vanadium V-47 11 0 543h F 0.010 1.9 E-11, E-11 0.010 6.3 3.2 E-11 M 5.0 E-0.010 3.1 E-11 11 V-48 16, 2d F 1.1 0.010 E-9 1.7 2.0 E-9 E-9 0.010 M 0.010 2.3 2.7 E-9 V E-9-49 330 d F 0.010 2.1 2.6 E E-11-11 E-11 M 1.8 3.2 0.010 0.010 E-11 E-11 Chrome Cr-48 23 2.3, 2 h F 0.100 0.100 1.7 1.0 E-10 E-10 E-10 M 2.0 2.0 2.3 0.100 E-10 E-10 2.2 2.0 E-10 S 0.010 0.100 E-10 2.5 E-10 Cr-49 0, 2.0 E-11 702h F 0.100 0.100 6.1 3.5 E-11 E-11 M 3.5 E-11 5.6 0.100 E-11 E-11 S 0.010 6.1 0.100 3.7 E-11 5.9 E-11 Cr-51 27, 7 d F 0.100 0.100 3.0 2.1 E-11 E-11 E-11 M 3.8 3.1 3.4 E-E-11 0.100 0.010 3.7 E 11-11 S 0.100 3.6 E-11 3.6 E-11 Manganese Mn-51 0 2.4 770h F, 0.100 0.100 9.3 4.2 E E-11-11 E-11 M 0.100 4.3 E-11 E 6.8-11
 
 
MN-52 5, 59d F 9.9 0.100 0.100 E-9 1.6 1.8 E-10 E-9 M 0.100 1.4 1.8 E-9 E-9 Mn-52 m 0, 2.0 E-11 352h F 0.100 0.100 6.9 3.5 E-11 E-11 M 0.100 3.0 E-11 5.0 E-11 Mn-53 3.70 E + 6a F 0.100 0.100 2.9 3.0 3.6 E E-11-11 E-11 M 0.100 5.2 E-11 3.6 E-11 Mn-312d 54 F 8.7 0.100 0.100 7.1 1.1 E-10 E-9 E-10 M 1.5 0.100 E-9 1.2 E-9 Mn-56 2, 58 h F 6.9 0.100 0.100 2.5 1.2 E E-11-10 E-10 M 0.100 2.0 1.3 E-10 E-10 Iron Fe 52-8, 28 h F 4.1 0.100 0.100 1.4 6.9 E-10 E-10 E-9 M 9.5 0.100 6.3 E-10 E-10 Fe-55 2, 70a F 7.7 0.100 0.100 3.3 9.2 E-10 E-10 E-10 M 3.3 0.100 3.7 E-10 E-10 Fe-59 44, 5 d F 2.2 0.100 0.100 1.8 E-9 3.0 E-9 E-9 M 0.100 3.2 3.5 E-9 E-9 Fe-60 E 1.00 + 5a F 0.100 0.100 3.3 2.8 E-7 E-7 E-7 1.1 M 1.2 1.3 0.100 E-7 E-7 Cobalt Co-55
17, 5 h M 5.1 0.100 0.100 1.0 E-10 7.8 E-10 E-9 S 5.5 0.050 0.050 1.1 8.3 E-10 E-10 E-9 Co-56 78, 7 d M 4.0 4.6 0.100 0.100 2.5 E-9 E-9 E-9 S 6.3 0.050 0.050 2.3 4.9 E-9 E-9 E-9 Co-271 d 57 M 0.100 0.100 3.9 5.2 E-10 E-10 2.1 E-10 S 0.050 0.050 9.4 E-10 6.0 E-10 1.9 E-10 Co-58 70, 8 d M 1.5 0.100 0.100 7.4 E-9 1.4 E-9 E-10 S 0.050 0.050 1.7 2.0 E-9 E-9 7.0 E-10 Co-58 m
9, 15 h M 1.3 1.5 0.100 0.100 2.4 E-11 E-11 E-11 S 1.6 1.7 0.050 0.050 2.4 E-11 E-11 E-11 Co-60 5, 27a M 9.6 0.100 0.100 3.4 E 7.1-9 E-9 E-9 S 0.050 0.050 2.9 1.7 E-8 E-8 2.5 E-9 Co-60 m 0, 174h M 0.100 0.100 1.1 1.2 E-12 E-12 1.3 1.7 E-12 S 0.050 0.050 1.7 1.2 E-12 E-12 E-12 Co-65h 1, 61 M 0.100 0.100 7.1 4.8 E-11 E-11 7.4 E-11 S 0.050 0.050 E 5.1-11 7.5 E-11 7.4 E-11 Co-62 m
0, 232h M 0.100 0.100 3.6 E 2.1-11 E-11 2.2 4.7 E-11 S 0.050 0.050 4.7 3.7 E-11 E-11 E-11 Nickel Ni-56 6, 10 d F 0.050 0.050 7.9 5.1 E-10 E-10 8.6 8.6 0.050 E-10 M E-10 57 1 E-10 Ni-9.6, 50 d F 2.8 0.050 0.050 8.7 5.0 E-10 E-10 E-10 M 7.6 0.050 5.1 E-10 E-10 Ni-7.50 E + 4a 59 F 1.8 2.2 0.050 0.050 6.3 E-10 E-10 E-11 M 0.050 1.3 E-10 9.4 E-11 Ni-63 96, 0a F 0.050 4.4 E-10 5.2 E-10 0.050 0.050 1.5 E-10 M 4.4 3.1 E-10 Ni-E-10 65 0.050 4.4 E 2, 52 h F-11 7.5 E-11 0.050 0.050 8.7 1.8 E-10 M E-11 1.3 E-10 Ni-66 2, 27 d F 0.050 0.050 7.6 4.5 E-10 E-10-9 M 1.6 3.0 E 0.050 E-9 1.9 E-9 Copper Cu-60 0, 387 h F 0.500 0.500 4.4 E 2.4 E-11-11 7.0 E-11 M 3.5 0.500 E-11 6.0 E-11 S 0.500 3.6 6.2 E-11 E-11 Cu-4.0 E-F 41 h, 61 3 0.500 0.500 1.2 E 11 E-7.3 11-10 M
7.6 E 0.500-1.2 E 11-10 S 1.2 0.500 8.0 E-11 E-10 Cu-64 12, 7 h F 3.8 0.500 0.500 E 6.8-11 1.2 E-11 E-10 M 1.5 1.1 0.500 E-10 E-10 S 1.5 1.2 0.500 E-10 E-10 Cu-67 2, 58d F 0.500 0.500 1.1 1.8 E-10 E-10 3.4 E-10 M 5.3 0.500 5.2 E-10 E-10 S 5.8 5.8 0.500 E-10 E-10 Zinc Zn-62 9, 26 h S 0.500 0.500 E 6.6-4.7 E-10 10 9.4 E-10 Zn-635h 63 0, S 0.500 0.500 E 3.8-11 6.1 E-11 7.9 E-11
Zn-65 244d S 2.9 2.8 E-9 0.500 0.500 3.9 E-9 E-9 Zn-69 0, 950 h S 0.500 0.500 2.8 E-E-E-11 11 4.3 3.1 11 Zn-69 m 13, 8 h S 2.6 0.500 0.500 3.3 3.3 E-10 E-10 E-10 Zn-71 m 3, 92h S 1.6 0.500 0.500 2.4 2.4 E-10 E-10 E-10 Zn-72 1, 94 d S 0.500 0.500 E-9 1.2 1.4 1.5 E-9 E-9 Gallium Ga-65 0, 1.2 2.0 E 253h F 0.001 0.001 3.7-11 E-11 E-11 M 2.9 1.8 0.001 E-11 E-11 Ga-66 9, 40 h F 4.7 0.001 2.7 E-10 E-10 0.001 0.001 4.6 E-9 1.2 M E 7.1-10 E-10 Ga-67 3, 26d F E 6.8-11 0.001 0.001 1.9 1.1 E-10 E-10 M 2.8 0.001 2.3 E-10 E-10 Ga-68 1, 13 h F 2.8 E-11 0.001 0.001 1.0 E 11 E-4.9-5.1 8.1 0.001 10 M E-11 E-11 Ga-70 0, 353h F 9.3 0.001 0.001 3.1 1.6 E E-12-11 E-11 M 1.6 0.001 E-11 2.6 E-11 Ga-72 14, 1 h F 5.6 0.001 3.1 E-10 E-10 0.001 0.001 M 5.5 1.1 E-9 E-10 8.4 E-10 Ga-73 4, 91h
F 5.8 0.001 0.001 2.6 1.0 E-11 E-10 E-10 M 0.001 1.5 2.0 E-10 E-10 Germanium Ge-66 2, 27 h F 9.9 E-11 E-5.7 11 1.000 1.000 1.000 9.2 1.0 E-10 M E-11 67-0 1.3 E-10 Ge, 312h F 1.6 2.8 E-E-11 11 1.000 1.000 1.000 2.6 E 6.5 E-11 M-11 4.2 E-11 Ge-288d 68 F 5.4 1.000 E-10 8.3 E-10 1.000 1.000 1.3 1.3 E-9 M E-8 7.9 E-9 Ge-1 69, 63d F 1.4 2.5 E-10 E-10 1.000 1.000 1.000 2.4 E-10 M
3.7 2.9 E-10 E-10 Ge-8 d 71 11, F 5.0 E-12 7.8 E-12 1.000 1.000 1.000 E-11 M 1.2 1.0 1.1 E-11 E-11 Ge-75 1, 38 h F 1.6 1.000 E-11 2.7 E-11 4.6 1.000 E-11 M 5.4 3.7 1.000 E-11 E-11 Ge-77 11, 3 h F 1.5 2.5 E-10 E-10 1.000 1.000 1.000 3.6 E 3.3 E-10 M-10 4.5 E-10 Ge-78 1, 45 h 4.8 F 1.000 E-11 E-11 1.000 1.2 E 8.1-10 M 9.7 1.000 E-11 1.4 E-10 Arsenic As-69 0 0.500 2.2 M, 253h E-11 3.5 E-11 5.7 0.500 E-11 As-70 0 0.500 7.2 M, 876h E-11 0.500 1.3 1.2 E-10 E-10 As-71 2, 70 d M 5.0 4.0 E-10 E-10 0.500 0.500 4.6 E-10 As-08 d 1, 72 M 9.2 0.500 0.500 1.8 1.3 E-10 E-9 E-9 As-73 80, 3d M 0.500 0.500 E 6.5-9.3 E-10 10 2.6 E-10 As-74 17, 8 d M 0.500 0.500 1.8 2.1 E-9 E-9 1.3 E-9 As-76 1, 10 d M 7.4 0.500 0.500 1.6 9.2 E-10 E-10 E-9 As-77 1, 62d M 3.8 0.500 0.500 4.0 4.2 E E-10-10 E-10 As-78 1, 51 h M 9.2 0.500 0.500 2.1 1.4 E-10 E-11 E-10 Selenium Se-70 0 683h F 0.800 4.5 E-11, E-11 8.2 0.800 1.2 E-10 M 0.800 7.3 E-11 0.050 1.4 1.2 E-10 E-10 Se-73 7, 15 h F 0.800 8.6 E-11 0.800 2.1 1.5 E-10 E-10 M 1.6 0.800 E-10 2.4 E-10 0.050 3.9 E-10 Se-73 m 0, 650 h F 9.9 0.800 E-12 1.7 E-11 0.800 2.8 E-11 M 0.800 1.8 E-11 2.7 E-11 0.050 4.1 E-11 Se-75 120 d F E-9 1.0 1.4 0.800 E-9 0.800 2.6 E-9 M 1.7 1.4 0.800 E-9 E-9 0.050 4.1 E-10 Se-79 6.50 E + 4a F 1.6 0.800 1.2 E-9 E-9 0.800 2.9 2.9 E-9 E-9 M 0.800 0.050 3.9 3.1 E-9 E-10 Se-81 0, 308h F 0.800 8.6 E-12 1.4 E-11 0.800 2.7 E-11 M 1.5 0.800 E-11 2.4 2.7 E-E-11 0.050 11 Se-81 m 0 954h F 0.800 1.7 E-11, E-11 0.800 5.3 3.0 E 0.800 4.7-11 M E-11 6.8 5.9 0.050 E E-11-83-0, 375h 11 Se F 1.9 0.800 E-11 3.4 E-11 0.800 4.7 E-11 M 3.3 0.800 E-11 E-11 0.050 5.1 5.3 E-11 Bromine Br-422h 74 0, F 2.8 5.0 E-E-11 11 1.000 1.000 1.000 4.1 8.4 E-11 M E-11 E 6.8-11 Br-74 m 0 691h F E-11, E-7.5 4.2 1.000 1.000 1.000 6.5-10 M 1.4 E 11 E-11 1.1 E-10 Br-1, 63 h 75 F 3.1 1.000 E-11 5.6 E-11 E-11 M 5.5 7.9 1.000 1.000 E-11 8.5 E-11 Br-76 16, 2 h F E 2.6-1.000 10 1.000 4.6 4.5 E-10 E-10 M 1.000
5.8 4.2 E-10 E-10 Br-77 2, 6.7 33d F 1.000 E-11 1.2 E-10 E-11 M 1.000 1.000 9.6 8.7 E-11 1.3 E-10 Br-80 0, 1.1 E 290h F 1.000 6.3 E-12-11 E-11 M 1.000 1.000 3.1 1.0 1.7 E-11 E-11 Br-80 m 4, 42 h F E 5.8 3.5 E-11-11 1.000 1.000 1.000 7.6 1.1 E-10 M E-11 1.0 E-10 Br-3.7 E-82 1, 47 d F 1.000 10 1.000 5.4 6.4 E-10 E-10 M 8.8 6.4 1.000 E-10 E-10 Br-83 2, 39 h F 2.9 1.7 1.000 E-11 E-11
1.000 1.000 4.8-11 M E E 4.3-11 6.7 E-11 Br-84 0, 530 h F 2.3 E-4.0 E-11 11 1.000 1.000 1.000 3.9 8.8 E-11 M E-11 6.2 E-11 Rubidium Rb-79 0, 3.0 E 382h F 1.000 1.7 E-11-11 11 1.000 5.0 E-Rb-81 4, 58 h F 3.7 1.000 E-11 E 6.8-11 5.4 1.000 E-11 Rb-81 m 0, 533 h F 7.3 1.000 E-12 1.3 E-11 9.7 1.000 E-12 Rb-82 m 6, 20 h F 1.2 E-10 1.000 1.000 1.3 2.2 E-10 E-10 Rb-83 86, 2d F 7.1 1.000 1.000 E-10 1.0 E-9
1.9 E-9 Rb-84 32, 8 d F 1.5 1.1 1.000 E-9 E-9 1.000 2.8 E-9 Rb-86 18, 6 d F 9.6 1.000 E-10 1.3 E-9 1.000 2.8 E-9 Rb-87 4.70 E + 10a 5.1 F 1.000 E-10

1.000 1.5 7.6 E-10 E-9 Rb-88 0, 297h F 2.8 E-11 11 1.000 1.7 E-9.0 1.000 E-11 Rb-89 0 253h F 1.000 1.4 2.5 E-11, E-11 4.7 1.000 E-11 Strontium Sr-80 1, 1.3 67h F 0.300 7.6 E-11 E-10 E-10 S 0.010 1.4 3.4 0.300 E-10 0.010 3.5 2.1 E-10 E-10 Sr-81 0 425h F 0.300 2.2 E-11, E-11 0.300 7.7 3.9 E-11 S 0.010 3.8 E-11 6.1 E-11 E-11 Sr-82 25 7.8 0.010, 0 d F 0.300 2.2 3.3 6.1 0.300 E-9 E-9 E-9 S
1.0 E-8 0.010 7.7 0.010 6.0 E-9 E-9 Sr-83 1, 35 d F 3.0 0.300 1.7 E-10 E-10 0.300 4.9 E-10 S 0.010 4.9 3.4 E-10 E-10 0.010 5.8 E-10 Sr-85 64, 8 d F 5.6 0.300 3.9 E-10 E-10 E-10 S 0.010 0.300 5.6 7.7 0.010 3.3 6.4 E-10 E-10 E-10 Sr-85 m 1, 16 h F 5.6 0.300 3.1 E-12 E-12 0.300 6.1 E-12 S 0.010 4.5 E-12 0.010 6.1 7.4 E-12 E-12 Sr-87 m 2, 80 h F 1.2 0.300 E-11 E-11 0.300 3.0 E 2.2-11 S
0.010 2.2 3.3 3.5 E E-11-11 0.010 E-11 Sr-89 50, 5 d F 0.300 1.0 E-9 1.4 0.300 2.6 E-9 E-9 S 0.010 7.5 E-9 0.010 2.3 5.6 E-9 E-9 Sr-90 29, 1a F 0.300 2.4 E-8 3.0 E-8 0.300 2.8 E-8 S 0.010 7.7 1.5 E-7 E-8 0.010 2.7 E-9 Sr-91 9, 50 h F 0.300 2.9 1.7 E-10 E-10 E-10 S 0.010 4.1 E 0.300 6.5-7.6 0.010 5.7 10 E-10 E-10 Sr-92 2, 41 h F 0.300 1.1 1.8 4.3 0.300 E-10 E-10 E-10 S
0.010 2.3 3.4 E-10 0.010 4.9 E-10 E-10 Yttrium Y-86 14, 7 h 4.8 M 1.0 E-4 E-10 8.0 E-10 1.0 1.0 E-4 9.6 E-10 S E-4 4.9 E-10, E 8.1-10 Y-86 m 0 800h M 1.0 E-4 E 2.9-11 E-11 5.6 4.8 1.0 E-4 E-11 S 3.0 1.0 E-4 E-11 4.9 E-11 Y-87 3, 35 d M 1.0 E-4 E-3.8 5.2 E 10-10 1.0 E-4 5.5 E-10 S 4.0 1.0 E-4 E-10 E-10 Y-88 107 d 5.3 M 1.0 E-4 E-9 3.9 3.3 1.0 E E-9-4
1.3 1.0 E-4 E-9 S 4.1 E-9 3.0 E-9 Y-90 2, E-4 67 d M 1.0 1.4 1.6 E-9 E-9 1.0 1.0 2.7 E-4 E-9 S E-4 E 1.5-1.7 E 9-9 Y-90 m 3, 19 h M 1.3 1.0 E-4 E-9.6 11 E-10 1.0 1.0 1.7 E-4 E-10 S E-4 1.3 1.0 E-10 E-10 Y-91 58, 5 d M 1.0 E-4 E-6.7 9 5.2 E-9 1.0 1.0 2.4 E-4 E-9 S E-4 E-9 6.1 8.4 E-9 Y-91 0 1.0 1.0 E-4 E, 828h M-11 1.0 1.4 E-11 E-4
1.1 1.1 1.0 E-11 S E-4 E-11 1.5 E-11 Y-92 54h M 3, E-4 1.9 1.0 E-10 2.7 E-10 1.0 E-4 4.9 E-10 S E-4 2.0 1.0 2.8 E-10 E-10 Y-93, 1 h 10 M 1.0 E-4 E-10 5.7 4.1 E-10 1.0 1.0 1.2 E-4 E-9 S E-4 4.3 6.0 E-10 E-10 Y-94 0 1.0 2.8 E, 318h M E-4-11 4-8.1 4.4 E-11 1.0 E E-11 S 1.0 E-4 4.6 2.9 E-11 E-11 Y-95 0 1.0 E-4, E 178h M 1.6-2.5 E 11-11 1.0 E-4
4.6 E-11 S 1.0 1.7 E-4 E-11 2.6 E-11 Zirconium Zr-86 16, 5 h F 0.002 3.0 E-10 0.002 8.6 5.2 E-10 E-10 M E-E-10 0.002 4.3 6.8 10 S 4.5 0.002 E-10 7.0 E-10 Zr-88 83, 4 d F 4.1 0.002 3.5 E-9 E-9 E-10 0.002 3.3 M 1.7 2.5 0.002 E-9 E-9 S E 0.002 3.3-9 1.8 E-9 Zr-89 3, 27 d F E-10 0.002 3.1 5.2 E-10 0.002 7.9 E-10 M 7.2 0.002 5.3 E-10 E-10 S 10 0.002 5.5 7.5 E-E-10 Zr-93
1.53 E + 6a F 0.002 2.5 E-8 2.9 2.8 E-10 E-8 0.002 M 6.6 0.002 9.6 E-9 E-9 S 0.002 1.7 3.1 E-9 E-9 Zr-95 64, 0 d F 0.002 2.5 3.0 E-9 E-9 0.002 8.8 E-10 M 4.5 0.002 E-9 3.6 E 5.5 0.002-9 S E-9 4.2 E-9 Zr-97 16, 9 h F 0.002 4.2 E-10 0.002 2.1 7.4 E-10 E-9 M 1.3 0.002 9.4 E-10 E-9 S 0.002 1.0 E-9 1.4 E-9 Niobium Nb-88 0, 0.010 2.9 E 238h M-11 E-11 0.010 4.8
E-11 S 0.010 3.0 E 6.3-11 5.0 E-11 Nb-89 2, 03 h M 0.010 1.2 1.8 E-E-10 10-10 S 0.010 1.3 3.0 0.010 E E-10, E-10 Nb 1.9-89 1 10 h 0.010 7.1 M E-11 0.010 1.4 1.1 E-10 E-10 S 0.010 7.4 E-11 1.2 E-10 Nb-90 14, 6 h M 6.6 0.010 E-10 1.0 E-9 1.2 0.010 E-9 S 0.010 1.1 6.9 E-10 E-9 Nb-93 m 13, 6a 0.010 4.6 2.9 E E-10 M-10-10 S 0.010 1.6 0.010 1.2 E E-9 8.6 E-10 Nb-94 2.03 E + 4a
M 1.0 E-8 0.010 7.2 0.010 1.7 E-9 E-9 S E-8 2.5 4.5 0.010 E-8 Nb-95 35, 1 d M E-9 1.3 1.4 0.010 E-9 1.6 0.010 5.8 E-10 S 0.010 E-9 1.3 E-9 Nb-95 m 3, 61d M 0.010 7.7 7.6 E-10 E-10 0.010 5.6 E-10 S 0.010 8.5 E-10 8.5 E-10 Nb-96 23, 3 h M 6.5 0.010 E-10 E-9.7 0.010 1.1 10 E-9 S 0.010 6.8 E-9 1.0 E-10 Nb-97 1, 20 h M 0.010 4.4 E-11 E-6.9 6.8 0.010 E 11-11 S 0.010 4.7 E-11, E-7.2 11 Nb-98 0 858h M E 0.010 5.9-11 9.6 E-11 E-10 S 0.010 6.1 1.1 0.010 E-11 9.9 E-11 Molybdenum Mo-90 5 67h F 0.800 1.7 E-10, E-10 2.9 3.1 0.800 E-10 S 0.050 0.050 E 3.7-5.6 E-10 10 6.2 E-10 Mo-3.50 E + 93 3a F 0.800 1.0 E-9 1.4 0.800 2.6 E-9 E-9 S E-9 1.2 2.2 0.050 0.050 2.0 E-9 E-10 Mo-93 m 6, 85 h F 0.800 1.9 1.0 E-10 E-10 E-10 S 0.050 0.800 1.6 1.8 E-10 3.0 E-10
0.050 2.8 E-10 Mo-99 2, 75 d 3.6 E F 0.800 2.3 E-10-10-10 S E 0.800 7.4 0.050 0.050 1.1 9.7 E-10 E-9 1.2 E-9 Mo-101 0 244h F 0.800 1.5 2.7 E-11, E-11 0.800 4.2 E-11 S 0.050 0.050 4.5 2.7 E-11 E-11 4.2 E-11 Technetium Tc-93 2, 3.4 6.2 E 11 E-75 h F 0.800 0.800 4.9-11 E-11 M 6.5 0.800 3.6 E-11 E-Tc-11 93 0, 725 h F 1.5 0.800 E-11 2.6 2.4 E-11 E-11 0.800 M 1.7 3.1 0.800 E-11 E-11 Tc 94-4, 88h
F 1.2 0.800 0.800 1.8 2.1 E-10 E-10 E-10 M 0.800 2.2 1.3 E-10 E-10 Tc-94 m 0 867h F 0.800 4.3 E-11, E-11 0.800 1.1 6.9 E-10 M 0.800 4.9 8.0 E-11 E-11 Tc 95-20, 0 h F 1.8 1.0 E-10 E-10 0.800 0.800 1.6 E-10 M 0.800 1.8 1.0 E-10 E-10 Tc-95 m 61, 0 d F 0.800 3.1 E-10 10 6.2 0.800 4.8 E-E-E-10 10 M 0.800 8.7 8.6 E-10 Tc-96 4, 28 d F 6.0 E-10 9.8 0.800 E-10 E-1.1 9 0.800 M 7.1 0.800 E-10 1.0 E-9 Tc-96 0, 1.1 E 858h F 0.800 6.5 E-12-11 E-11 M 0.800 7.7 0.800 1.3 E-12 1.1 E-11 Tc-97 2.60 E + 6a F 4.5 0.800 E-11 0.800 8.3 7.2 E-11 E-11 M 1.6 2.1 0.800 E-10 E-10 Tc-97 m 87, 0 d F 2.8 E-10 0.800 4.0 E-10 0.800 6.6 E-10 M 0.800 2.7 3.1 E-9 E-9 Tc-98 4.20 E + 6a F 0.800 1.0 1.5 E E-9-9-9 M 0.800 8.1 0.800 2.3 E E-9 6.1 E-9 Tc-99 2.13 E + 5a F
0.800 2.9 E-10 4.0 E-10 0.800 7.8 E-10 M 3.2 0.800 3.9 E-9 E-9 Tc-99 m 6, 02 h F 0.800 1.2 2.0 E-11 E-11 0.800 1.9 2.2 0.800 E-11 M E-11 2.9 E-11 Tc-101 0, 1.5 E 237h F 0.800 8.7 E-12-11 E-11 M 0.800 1.3 E 0.800 1.9-2.1 E 11-11 Tc 104-0 2.4 303h F 0.800 E-11, E-11 0.800 8.1 E 3.9-4.8 0.800 3.0 E-11 M 11 E-11 Ruthenium Ru-94 0, 863h F 0.050 0.050 4.9 2.7 E-11 E-11 9.4 E-11 M 4.4 0.050 E-11 E-11 S 0.050 4.6 E 7.2-7.4 E 11-11 Ru-97 2, 90 d F 0.050 0.050 E-10 E-6.7 11 1.2 1.5 E-10 M 1.6 0.050 1.1 E-10 E-10 S 1.6 0.050 1.1 E-10 E-10 Ru-103 39, 3d F 0.050 0.050 4.9 6.8 10 E-E-E-10 M 10 7.3 0.050 1.9 2.3 E-9 E-9 S 0.050 2.8 E-9 4 2.2 E-9 Ru-105, 44 h F 7.1 0.050 0.050 2.6 1.3 E-11 E-10 E-10 M 2.4 1.7 0.050 E-10 E-10 S 0.050 2.5 1.8 E-10 E-10 Ru-106 1, 01a
F 0.050 0.050 9.8 8.0 E-9 E-9 7.0 E-9 M 1.7 0.050 2.6 E-8 E-8 S 3.5 0.050 6.2 E-8 E-8 Rhodium Rh-99 16, 0 d F 0.050 0.050 4.9 3.3 E-10 E-10 E-10 M 5.1 7.3 0.050 E-10 E-10 S 8.2 8.3 0.050 E-10 8.9 E-10 Rh-99 m 4, 70 h F 0.050 0.050 5.7 3.0 E-11 E-11 E-11 M 0.050 4.1 E 6.6-4.3 7.2 E 11-11 S 0.050 E-11 7.3 E-11 Rh-100 20, 8 h F 2.8 E-0.050 0.050 7.1 5.1 10 E-10 E-10 M
0.050 3.6 6.2 E E-10-10 S 6.3 0.050 3.7 E-10 E-10 Rh-101 3, 20a F 0.050 0.050 E-9 1.4 1.7 E-9 5.5 E-10 M 1.7 0.050 2.2 E-9 E-9 S 0.050 5.0 E-9 3.1 E-9 Rh-101 m 4, 34 d F 0.050 0.050 1.7 1.0 E-10 E-10 2.2 E-10 M 2.5 2.0 0.050 E-10 E-10 S 0.050 2.1 2.7 E-10 E-10 Rh-102 2, 90a F 0.050 0.050 7.3 8.9 E E-9-9-9 M 0.050 6.5 2.6 E E-9 5.0 E-9 S 9.0 0.050 1.6 E-8 E-9
 
 
RH-207d 102 m F 0.050 0.050 1.9 1.5 E-9 E-9 1.2 E-9 M 0.050 3.8 E-9 2.7 E-9 S 4.2 0.050 6.7 E-9 E-9 Rh-103 m 0, 935h F 0.050 0.050 1.2 8.6 E-13 E-12 0.050 2.3 3.8 E-12 M E-12 2.4 E-12 S 0.050 2.5 2.5 E-12 E-12 Rh-105 1, 47 d F 0.050 0.050 8.7 3.7 1.5 E-11 E-10 E-10 M E-4.1 0.050 3.1 E-10 10 S 0.050 3.4 4.4 E-10 E-10 Rh-106 m 2, 20 h F 0.050 0.050 7.0 E-11 1.3 1.6 E E-10-10
 
 
0.050 1.1 1.8 E-E-10 m 10 S 1.9 0.050 1.2 E-10 E-10 Rh-362h F 107 0, 0.050 0.050 1.6 E 9.6 E-12-11 E-11 M 2.4 1.7 0.050 E-11 2.7 E-11 S 2.8 E-0.050 1.7 E-11 11 Palladium Pd-100 3, 0.005 4.9 63d F E-10 E-10 0.005 9.4 E 7.6-7.9 0.005 10 M E-10 9.5 E-10 S 8.3 0.005 E-10 9.7 E-10 Pd-101 8, 27 h F 7.5 4.2 E 0.005-11 E-11 0.005 9.4 E-11 M 6.2 E 0.005-11 9.8 E-11 S 0.005 6.4 E-11
1.0 E-10 Pd-103 17, 0 d F 0.005 9.0 E-11 1.2 E-10 0.005 1.9 E-10 M 0.005 3.0 3.5 E-10 E-10 S 2.9 0.005 4.0 E-10 E-10 Pd-107 6.50 E + 6a F 0.005 2.6 E-11 0.005 3.7 3.3 E-11 E-11 M 0.005 8.0 E-11 5.2 E-11 S 2.9 0.005 5.5 E-10 E-10 Pd-109 13, 4 h F 0.005 2.1 1.2 E-10 E-10 5.5 0.005 E-10 M 3.4 E-10 4.7 0.005 E-10 S 0.005 3.6 5.0 E-10 E-10 Silver Ag-102 0, 0.050 1.4 215h F E-11
2.4 E-11 0.050 0.050 1.8 E 4.0 E-11 M-11 3.2 E-11 S 0.050 1.9 E-11 3.2 E-11 Ag-103 1, 09 h F 1.6 0.050 0.050 4.3 2.8 E-11 E-11 E-11 M 0.050 2.7 E-11 E-11 S 0.050 2.8 E 4.3-4.5 E 11-11 Ag-104 1, 15 h F 0.050 0.050 5.7 3.0 E-11 E-11 6.0 E-11 M 0.050 3.9 E-11 E-11 S 4.0 E 0.050 6.9-11 7.1 E-11 Ag-104 m 0, 558h F 1.7 3.1 0.050 0.050 5.4 E-11 E-11 E-11 M 0.050 2.6 E-11 4.4 E-11
 
 
 
 
S 0.050 2.7 E-11 4.5 E-11 Ag-105 41, 0 d F 0.050 0.050 5.4 E-10 8.0 E-10 E 4.7-7.0 0.050 6.9 E-10 10 M E-10 S 7.3 0.050 7.8 E-10 E-10 Ag-399h F 106 0, 0.050 0.050 1.7 9.8 E-12 E-11 3.2 E-11 M 1.6 0.050 E-11 2.6 E-11 S 0.050 2.7 1.6 E-11 E-11 Ag-106 m 8, 41 d F 1.1 0.050 0.050 1.5 1.6 E-9 E-9 E-9 M 1.5 1.1 0.050 E-9 E-9 S E-9 1.4 1.1 0.050 E-9 Ag-108 m 127a F 0.050 6.1 E-9 E-7.3 9 0.050 0.050 2.3 E-9 M 5.2 7.0 E-9 E-9 S 1.9 0.050 3.5 E-8 E-8 Ag-110 m 250 d F E 5.5 0.050 0.050 2.8 E E-6.7-9 9-9 M 9-5.9 0.050 7.2 E E-9 S 1.2 0.050 E-8 7.3 E-9 Ag-111 7, 45 d F 4.1 0.050 0.050 1.3-5.7 E-10 E 10 E-9 M 1.5 1.5 E 0.050-9 E-9 S E-9 1.6 1.7 0.050 E-9 Ag-112 3, 12 h F E 8.2 0.050 0.050 4.3 1.4-11 E-10 E-10 M 2.5 0.050 1.7 E-10 E-10 S 0.050 2.6 1.8 E-10 E-10 Ag-115 0, 333h F 1.6 0.050 0.050 6.0 E-11 2.6 E-11 E-11 M 2.8 E-11 4.3 0.050 E-11 S 0.050 3.0 E-11 4.4 E-11 Cadmium Cd-104

0, 961h F 0.050 0.050 2.7 E-11 5.0 5.8 E-11 E-11 M 0.050 3.6 6.2 E-11 E-11 S 0.050 3.7 E-11 6.3 E-11 Cd-107 6, 49h F 2.3 4.2 0.050 0.050 6.2 E-11 E-11 E-11 M 0.050 1.0 E-10 S E 8.1-11 0.050 8.7 E-11, E-10 Cd-109 1 1.1 27a F 0.050 0.050 9.6 8.1 E-9 E-9 2.0 E-9 M 5.1 0.050 6.2 E-9 E-9 S E 5.8-9 0.050 4.4 E-9 Cd-113 9.30 E1 + 5a F 0.050 0.050 E-7 E-7 1.2 1.4 2.5 E-8 M 5.3 0.050 E-8 4.3 E-8 S 2.1 2.5 0.050 E-8 E-8 Cd-113m 13, 6a F 1.1 0.050 0.050 2.3 1.3 E-7 E-7 E-8 M 0.050 5.0 4.0 E-8 E-8 S 0.050 3.0 E-8 2.4 E-8 Cd-115 2, 23d F 0.050 0.050 5.4 3.7 E-10 E-10 E-9 1.4 M 1.2 0.050 9.7 E-10 E-9 S E-9 1.3 1.1 0.050 E-9 Cd-115 44, 6 d F 0.050 0.050 5.3 6.4 E E-9-9-9 M 0.050 5.9 3.3 E E-9 E-9 S 0.050 7.3 5.5 E-9
117 E 5.5-9 Cd 2, 49h F 0.050 0.050 7.3 E-11 1.3 E-10 2.8 E-10 M 1.6 0.050 E-10 E-10 S 2.4 1.7 0.050 E-10 2.5 E-10 Cd-117 m 3, 36 h F 0.050 0.050 1.9 1.0 E-10 E-10 2.8 E-10 M 0.050 3.1 2.0 E-10 E-10 S 3.2 0.050 2.1 E-10 E-10 Indium In-109 4, 20 h F 0.020 3.2 E-11 E-5.7-11 M 0.020 4.4 6.6 0.020 E 11 E-11 7.3 E-11 In-110 4, 90 h F 2.2 0.020 1.2 E-10 E-10 0.020 2.4 E-10 M 0.020 1.4 E-10 2.5 E-10 In-110 1, 15 h F 0.020 3.1 E-11 E-11 0.020 1.0 E 5.5-10 M 5.0 0.020 E-11 E 8.1-11 In-111 2, 83d F 2.2 1.3 0.020 E-10 E-10 0.020 2.9 E-10 M 2.3 0.020 E-10, E-10 In 3.1-112 0 240h F 5.0 E-12 8.6 0.020 E-12 0.020 1.0 E-11 M 0.020 7.8 E-12 1.3 E-11 In-113m 1, 66 h F 1.9 1.0 E-11 E-11 0.020 0.020 2.8 E-11 M 2.0 E-11 3.2 0.020 E-11 In-114 m 49, 5 d F E 0.020 9.3-9 0.020 1.1 E-8
4.1 E-9 M 9-5.9 5.9 0.020 E E-9 In-115 E + 5.10 15a F 3.9 0.020 E-7 E-4.5 7 3.2 0.020 E-8 M 1.5 1.1 0.020 E-7 E-7 In-115 m 4, 49h 0.020 2.5 4.5 E F E-11-11 0.020 8.6 E-11 M 0.020 6.0 E-11 8.7 E-11 In-116 m 0, 902h 0.020 3.0 E F-11 E 5.5-11 0.020 0.020 4.8 6.4 E-11 M E-11 8.0 E-11 In-117 0, 730h 0.020 1.6 2.8 E F E-11-11 0.020 3.1 E-11 M 0.020 3.0 E-11 4.8 E-11 In-117 m 1, 94h
F 0.020 3.1 E-11 E-11 0.020 1.2 E 5.5-7.3 0.020 M E 10-11 E-10 In 1.1-119 0, 300 h F 1.1 1.8 E-11 E-0.020 0.020 4.7 E 11-11 M 0.020 2.9 1.8 E-11 E-11 Tin Sn-110 4, 00 h F 1.9 0.020 1.1 E-10 E-10 0.020 3.5 E-10 M 2.6 0.020 1.6 E-10 E-10 Sn-111 0, 1.5 E 588h F 0.020 8.3 E-12-11 E-11 M 0.020 1.4 0.020 2.3 E-11 2.2 E-11 Sn-113 115 d F 0.020 7.9 5.4 E-10 E-10 E-10 M 0.020 0.020 7.3
1.9 2.5 E-9 E-9 Sn-117 m 13, 6 d F 0.020 3.9 2.9 E-10 E-10 0.020 7.1 E-10 M 2.2 2.3 0.020 E-9 E-9 Sn-119 293d F 3.6 2.9 0.020 E-10 E-10 0.020 3.4 E-10 M 1.5 2.0 0.020 E-9 E-9 Sn-121 1, 18 d 0.020 6.4 F E-11 1.0 E-10 E-10 M 0.020 2.2 2.3 0.020 E-10 2.8 E-10 Sn-121 m 55, 0a F 0.020 8.0 E-10 9.7 E-10 E-10 M 0.020 4.2 3.8 0.020 E 3.3-9 E-9 Sn-123 129 d F E-9 1.2 1.6 0.020 E-9
0.020 2.1 E-9 M 5.6 7.7 0.020 E-9 E-9 Sn-123 m 0, 668h 0.020 1.4 E F-11 E-11 0.020 3.8 2.4 E-11 M 4.4 2.8 E-0.020 11 E-11 Sn-125 9, 64 d F 0.020 9.2 E-10 E-9 1.3 3.1 0.020 E-9 M 0.020 3.0 2.8 E-9 E-9 Sn-126 1, 00E + 5a F 0.020 1.4 1.1 E-8 E-8 0.020 4.7 E-9 M 0.020 2.7 E-8 1.8 E-8 Sn-127 2, 10 h F E 0.020 6.9-11 1.2 2.0 E-10 M E-10 0.020 0.020 2.0 1.3 E-10 E-10 Sn-128 0, 985h
F 0.020 5.4 E-11 E-11 0.020 1.5 E 9.5-10 M 1.5 E-10 E-0.020 9.6 11 Antimony Sb-115 0, 530 h F 9.2 0.100 0.100 2.4 1.7 E E-12-11 E-11 M 1.4 0.010 E-11, E-2.3 11 Sb-116 0 263h F 9.9 0.100 0.100 2.6 1.8 E E-12-11 E-11 M 1.4 0.010 E-11 2.3 E-11 Sb-116 m 1, 00 h F 3.5 0.100 0.100 6.7 6.4 E E-11-11 E-11 M 5.0 8.5 E-11 E-0.010 11 Sb-117 2, 80 h F 9.3 0.100 0.100 1.8 1.7 E E-12-11 E-11 M 0.010
1.7 E-11 2.7 E-11 Sb 118 m-5, 00 h F 0.100 0.100 1.9 1.0 E-10 E-10 2.1 E-10 M 0.010 2.3 1.3 E-10 E-10 Sb-119 1, 2.5 4.5 E 59d F 0.100 0.100 8.1-11 E-11 E-11 M 0.010 3.7 E-11 5.9 E-11 Sb-120 5, 76 d F 0.100 0.100 9.8 5.9 E-10 E-10 0.010 1.0 1.2 E-9 M E-9 1.3 E-9 Sb-120 0, 265h F 4.9 0.100 0.100 1.4 8.5 E-12 E-12 E-11 M 1.2 0.010 7.4 E-12 E-11 Sb-122 2, 70 d F 6.3 0.100 3.9 E-10 E-10
0.100 0.010 1.0 1.7 E-9 M E-9 1.2 E-9 Sb-124 60, 2d F 1.3 0.100 0.100 2.5 1.9 E-9 E-9 E-9 M 4.7 0.010 6.1 E-9 E-9 Sb-124 m 0, 337h F 3.0 0.100 0.100 8.0 5.3 E-12 E-12 E-12 M 5.5 0.010 E-12 8.3 E-12 Sb-125 2, 77a F 0.100 0.100 1.7 E-9 E-9 1.4 1.1 E-9 M 3.3 4.5 0.010 E-9 E-9 Sb-126 12, 4 d F 1.1 0.100 0.100 2.4 1.7 E-9 E-9 E-9 M 0.010 2.7 E-9 3.2 E-9 Sb-126 m 0, 317h F
0.100 0.100 2.3 1.3 E-11 E-11 3.6 E-11 M 2.0 E-11 3.3 0.010 E-11 Sb-127 3, 85 d F 0.100 0.100 7.4 4.6 E-10 E-10 E-9 M 1.7 1.6 1.7 0.010 E-9 E-9 Sb-128 9, 01 h F 2.5 0.100 0.100 7.6 4.6 E-10 E-10 E-10 M 4.2 E-10 6.7 0.010 E-10 Sb-128 0, 1.1 173h F 0.100 0.100 3.3 1.9 E-11 E-11 E-11 M 1.5 0.010 E-11 2.6 E-11 Sb-129 4, 32 h F 1.1 0.100 0.100 4.2 2.0 E-10 E-10 E-10 M 0.010 2.4 E-10
3.5 E-10 Sb-130 0, 667h F 0.100 0.100 6.3 3.5 E-11 E-11 9.1 E-11 M 5.4 0.010 E-11 9.1 E-11 Sb 131-0, 3.7 E 383h F 0.100 0.100 1.0 E E-5.9-11 11-10 M 0.010 5.2 E-11 8.3 E-11 To-2, 116 49h F 0.300 Tellurium 6.3 E-11 0.300 1.7 1.2 E-10 E-10 M 1.7 0.300 1.1 E-10 E-10 To-121 17, 0 d F 3.9 0.300 2.5 E-10 E-10 E-10 M 0.300 3.9 4.3 0.300 E-10 To 4.4 E-10-121 m 154d F 2.3 0.300 1.8 E-9 E-9 0.300
E-9 M 2.3 4.2 0.300 E-9 To-123 1, 3.6 E-9 + 00E 13a F 0.300 4.0 5.0 E-E-9 9-9 M 0.300 0.300 4.4 E 2.6 2.8 E-E-9 To 9-123 120 d F 1.2 0.300 9.7 E-10 E-9 1.4 0.300 E-9 M 0.300 3.9 E-9 To 9-125 m 3.4 E-58, 0 d E F 0.300 5.1-6.7 10 E-10 0.300 8.7 E-10 M 3.3 0.300 E-9 To 9-2.9 E-127 9, 35 h F 7.2 4.2 0.300 E-11 E-11 E-10 M 0.300 0.300 1.7 1.2 To 1.8 E-10 E-10-127 m 109d F
0.300 1.6 2.0 E-9 E-9 0.300 2.3 E-9 M 6.2 7.2 0.300 E-9 E-129-1, 9 To 16 h F 2.9 1.7 0.300 E-11 E-11 E-11 M 6.3 0.300 3.8 0.300 E-11 To 11-5.7 E-129 m 33, 6 d F 0.300 1.8 1.3 E-9 E-9 0.300 3.0 E-9 M 6.3 0.300 E-9 To 9-131 5.4 E-0 E-11, 417h F 0.300 2.3 4.6 E-11 0.300 3.8 8.7 0.300 E-11 M E-11 To 11-131 m 1, 6.1 E-25 d F 1.2 0.300 8.7 E-10 E-9 0.300 1.9 E-9 M 1.1 0.300 E-9
E-9 1.6-1.8 0.300 132 3, 26d F E-9 2.4 E-9 0.300 3.7 E-9 M 2.2 0.300 E-9 3.0 E-9 To 133-0, 2.0 E-11 E 207h F 0.300 3.8-11 0.300 7.2 E-11 M 0.300 2.7 E-11 To 4.4 E-11-133 m 0 923h F 0.300 8.4 E-11, E-10 0.300 2.8 E 1.2-10 M 0.300 1.2 To 1.9 E-10 E-10-134 0 696h F 0.300 5.0 E-11, E-11 0.300 1.1 8.3 E-10 M 0.300 7.1 E-11 E-1.1 10 Iodine I-120 1, 35 h F 1.9 1.0 E-10 E-1.000 10 1.000
3.4 E-10 I-120 m 0, 883h F 8.7 1.000 E-11 1.4 E-10 2.1 1.000 E-10 I-121 2, 12 h F 2.8 E-11 3.9 1.000 E-11 8.2 1.000 E-11 I-123 13, 2 h F 7.6 1.000 E-11 1.000 2.1 1.1 E-10 E-10 I-124 4, 18 d F 4.5 1.000 E-9 1.3-6.3 E 9 1.000 E-8 I-125 60, 1 d F E-9 5.3 7.3 1.000 E-9 1.5 1.000 E-8 I-126 13, 0 d F 1.000 1.0 E-8 1.4 2.9 1.000 E-8 E-8 I-128 0, 1.000 1.4 416h F E-11 E-11 1.000 4.6 E 2.2-11 I-129
1, 57th + 7a F 3.7 1.000 E-8 5.1 E-8 1.1 1.000 E-7 I-130 12, 4 h F E-6.9 1.000 10 1.000 2.0 9.6 E-10 E-9 I-131 8, 7.6 E 04d F 1.000 1.000 2.2 1.1-9 E-8 E-8 I-132 2, 30 h F 9.6 1.000 E-11 2.0 E-10 2.9 1.000 E-10 I-132 m 1, 39 h F E 8.1-11 1.000 1.000 2.2 1.1 E-10 E-10 I-133 20, 8 h F 2.1 1.5 1.000 E-9 E-9 4.3 1.000 E-9 I-134 0 876h F 1.000 4.8 E-11, E-11 7.9 1.1 1.000 E-10 I-135 6, 61h F
4.6 3.3 1.000 E-10 E-10 9.3 1.000 E-10 Caesium Cs-125 0, 750 h F 2.3 1.3 1.000 E-11 E-11 1.000 3.5 E-11 Cs-127 6, 25 h F E-4.0 E-11 11 1.000 2.2 2.4 1.000 E-11 Cs-129 1, 34 d F 4.5 1.000 E-11 E 8.1-11 1.000 6.0 E-11 Cs-130 0, 1.5 E 498h F 1.000 8.4 E-12-11 11 1.000 2.8 E-Cs-131 9, 69d F 2.8 4.5 E-E-11 11 1.000 1.000 E 5.8-11 Cs-132 6, 48 d F 2.4 E-1.000 10 1.000 3.8 5.0 E-10 E-10 Cs-134 2, 06a F 1.000 6.8 E-9 9.6 E-9 1.9 1.000 E-8 Cs-134 m 2, 90 h F 1.5 1.000 E-11 11 1.000 2.6 E-2.0 E-11 Cs-135 2, 30th + 6a F 9.9 7.1 1.000 E-10 E-10 1.000 2.0 E-9 Cs-135 0 2.4 883h F 1.000 1.3 E-11, E-11 1.9 1.000 E-11 Cs-136 13, 1 d F 1.000 1.3 E-9 1.9 3.0 1.000 E-9 E-9 Cs-137 30, 0a F 1.000 1.000 E-9 4.8 6.7 E-9 1.3 E-8 Cs-138 0 536h F 1.000 2.6 E-11, E-11 1.000 9.2 4.6 E-11 126 1, 61h F Ba-Barium 0.100 7.8 E-11
0.100 2.6 1.2 E-10 E-10 Ba-128 2, 43h F 0.100 0.100 8.0 E-10 E-9 1.3 2.7 E-9 Ba-131 11, 8 d F 2.3 0.100 0.100 4.5 3.5 E-10 E-10 E-10 Ba-131 m 0, 243h F 4.1 0.100 0.100 4.9 6.4 E-12 E-12 E-12 Ba-133 10, 7a F 1.5 0.100 0.100 1.0 1.8 E-9 E-9 E-9 Ba-133 m 1, 62d F 0.100 0.100 1.9 E-10 2.8 E-10 5.5 1 E-10 Ba-135, 20 d F 1.5 0.100 0.100 4.5 2.3 E-10 E-10 E-10 Ba-139 1, 38 h F 0.100 0.100 3.5 E 5.5-11 E-11
1.2 E-10 Ba-140 12, 7 d F 0.100 0.100 1.0 2.5 E-9 1.6 E-9 E-9 Ba-141 0 305h F, 0.100 0.100 E 2.2-3.5 E 11-11-11 Ba-142 0 7.0 E, 177h F 1.6 0.100 0.100 3.5 2.7 E-11 E-11 E-11 Lanthanum La-131 0, 983 h F 5.0 E-4 1.4 E-11 2.4 3.5 5.0 E-11 E-4 E-11 M 5.0 E-3.6 2.3 E 4-11 E-11 La-132 4, 80 h F 1.1 5.0 E-4 E-10 5.0 3.9 2.0 E-10 E-4 E-10 M 2.8 5.0 E-4 1.7 E-10 E-10 La-135 19, 5 h F 5.0 E-4 E-1.1 5.0 E-4 E-11 11 2.0 3.0 E-11 M 1.5 2.5 5.0 E-4 E-11 E-11 La-137 6, 00E + 4a F 5.0 E-4 E 8.6-9 1.0 E 5.0-8 E-4 E 8.1-11 M 2.3 3.4 5.0 E-4 E-9 E-9 La-138 1, 35th + 11a F 5.0 E-4 1.5 1.8 E-7 E-7 1.1 5.0 E-4 E-9 M 5.0 E-4 E-8 6.1 4.2 E-8 La-140 1, 68 d F 6.0 5.0 E-4 E-10 1.0 E 5.0 E-9-4 2.0 E-9 M 1.5 1.1 5.0 E-4 E-9 E-9 La 141-3, 93h
F 5.0 E-4 E-6.7 11 1.1 5.0 E-4 E-10 3.6 E-10 M 1.5 2.2 5.0 E-4 E-10 E-10 La-142 1, 5.6 54h F 5.0 E-4 E-11 1.8 1.0 E 5.0-10 E-4 E-10 M 5.0 E-4 E-11 9.3 1.5 E-10 La-143 0 237h F 5.0 E-4, E-5.0 1.2 2.0 E 11-11 E-4 E-11 5.6 M 3.3 2.2 E 5.0 E-4-11 E-11 Cerium Ce-134 3, 00d M 5.0 E-4 E-9 1.3 1.5 2.5 5.0 E-9 E-4 E-9 S E-9 1.3 1.6 5.0 E-4 E-9 Ce-135
17, 6 h M 4.9 5.0 E-4 E-10 7.3 E-10 5.0 E-4 E-7.9 10 S 5.0 E-4 E-10 Ce 7.6 5.1 E-10-137 9, 00 M 1.8 1.0 E 5.0 E-4-11 E-11 2.5 5.0 E-4 E-11 S 1.1 5.0 E-4 E-11 1.9 E-11 Ce-137 m 1, 43d M 4.0 5.0 E-4 E-10 10 5.0 5.5 E-E-E-E-10 4 5.4 S 5.0 4 5.9 4.3 E-10 E-10 Ce-139 138 d, M E-9 1.3 1.6 5.0 E-4 E-9 5.0 E-4 E 2.6-10 S

5.0 E-4 E-9 1.4 1.8 E-9 Ce-141 32, 5 d M 2.7 3.1 5.0 E-4 E-9 E-9 5.0 E-4 E-7.1 10 S 5.0 E-4 3.1 3.6 E-9 E-9 Ce-143 1, 38 d M 5.0 E-4 E 7.4-10 9.5 E-10 5.0 E-4 E-9 S 1.1 5.0 E-4 E 8.1-10 1.0 E-9 Ce-144 284 p M 5.0 E-4 E-8 2.3 3.4 E-8 5.0 E-4 5.2 E-9 S E-4 4.9 5.0 E-8 2.9 E-8 Praseodymium Pr-136 0, 218h M 5.0 E-4 1.4 E-11 E-11 5.0 E-4 3.3 2.4 E-11
 
 
S 1.5 2.5 5.0 E-4 E-11 E-11 Pr-137 1, 28 h M 5.0 2.1 3.4 E E-E-4 11-11 4.0 5.0 E-4 E-11 S 3.5 5.0 E-4 2.2 E-11 E-11 Pr-138m 2, 10 h M 5.0 E-4 E 7.6-11 E-4 1.3 1.3 E-10 5.0 5.0 E-4 E-10 S E 7.9-11 1.3 E-10 Pr-139 4, 51 h M 5.0 E-4 E-11 2.9 E 1.9-3.1 5.0 E-4 E 11-11 S 2.0 5.0 E-4 E-11 3.0 E-11 Pr-142, 1 h 19 M 5.0 5.3 E-4 E-10 7.0 E-10 5.0 E-4 1.3 E-9
 
 
S 5.0 E-4 E-10 7.4 5.6 E-10 Pr-142m 0 243h M 5.0 E-4, E-6.7 8.9 5.0 E-E-12 12 4 1.7 E-11 S 5.0 E-4 E-12 9.4 7.1 E-12 Pr-143 13, 6 d M 5.0 2.1 4 E-E-E-E-4 9 9 1.9 5.0 5.0 1.2 E-9 S E 2.2 2.3 E 4-9-E-Pr-144 9 0 288h M 5.0 E-4, E-11 2.9 1.8 E-11 5.0 5.0 5.0 E-11 S E-4 E-4 E-1.9 3.0 E 11-11 Pr 98h 5, 145 M 2.5 5.0 E-4 1.6 E-10 E-10 5.0 3.9 E-4 E-10
 
 
S 5.0 E-4 1.7 E-10 2.6 E-10 Pr-147 0 227h M 5.0 E-4, E-11 2.9 1.8 E-11 5.0 E-4 E 3.3-11 S 5.0 E-4 E-1.9 3.0 E 11-11 Neodymium Nd-844h 136 0, M 5.0 5.3 E-4 E-11 E-5.0 8.5 E-11 4 9.9 E-11 S 5.0 E-4 E-11 5.6 8.9 E-11 Nd-138 5, 04 h M 5.0 E-3.7 4 2.4 E-10 E-10 5.0 E-4 E-6.4 10 S 5.0 E-4 E 2.6 3.8-10 E-10 Nd-139 0 1.0 E 5.0 M, 495h E-4-11 1.7 2.0 5.0 E-4 E-11 E-11 S 1.1 5.0 E-4 E-11 1.7 E-11 Nd-139m 5, 50 h M 1.5 2.5 5.0 E-4 E-10 E-10 2.5 5.0 E-4 E-10 S 2.5 5.0 E-4 1.6 E-10 E-10 Nd-141 2, E-4 49h M 5.0 8.5 5.1 E-12 E-12 5.0 E-4 E-4 E-12 S 8.3 5.0 5.3 E-12 8.8 E-12 Nd-147 11, 0 d M 2.0 5.0 E-4 E-9 1.9 1.1 5.0 E-9 E-4 E-9 S 2.3 2.1 5.0 E-4 E-9 E-9 Nd-149 1 73 h M 5.0 8.5 E-4, E-11 5.0 E-4 1.2 1.2 E-10 E-10 S 5.0 9.0 E-4 E-11, E-10 Nd 1.3-151 0 207h M 5.0 E-4 1.7 E-11 E-4 3.0 2.8 E-11 5.0 5.0 E-4 E-11 S 2.9 1.8 E-11 E-11 Promethium Pm-141 0 348h M, 5.0 1.5 E-4 E-11 2.4 E-11 3.6 5.0 E-4 E-11 S 2.5 5.0 E-4 1.6 E-11 E-11 Pm-265d 143 M 5.0 E-4 E-9 1.4 9.6 E-10 5.0 E-4 E-2.3 10 S 5.0 E-4 1.3 E-9 E-10 Pm-144 363d 8.3 M 5.0 E-4 5.4 9 7.8 E-E-9 5.0 E-4
9.7 E-10 S 5.0 3.9 7.0 E-4 E-9 E-9 Pm-145 17, 7a M 2.4 3.4 5.0 E-4 E-9 E-9 1.1 5.0 E-4 E-10 S 5.0 2.1 E-4 E-9 1.2 E-9 Pm-146 5, 53a M 5.0 E-4 1.9 E-8 1.3 E-8 5.0 5.0 9.0 E-4 E-10 S E-4 E-8 9.0 1.6 E-9 Pm-147 2, 62a M 5.0 4.7 E-4 E-9 3.5 5.0 E-9 E-4 E-10 S 5.0 E 2.6-3.2 4.6 E 4-9 E-9 Pm-148 5, 0 d 5 M 2.0 5.0 E-4 E-9 5.0 2.1 E-9 E-4
2.7 E-9 S 2.1 2.2 5.0 E-4 E-9 E-9 Pm-148 m 41, 3d M 5.0 E-4 4.9 5.0 E-9 4.1 E-9 E-4 1.8 E-5.0 E-4 5.4 9 S E-9 4.3 E-9 Pm-149 2, 21 d M 6.6 7.6 5.0 E-4 E-10 E-10 5.0 5.0 E-4 9.9 E-10 S E-4 E 8.2 7.2 E-10-10 Pm-68h 2, 150 M 2.0 5.0 E-4 1.3 E-10 E-10 5.0 5.0 2.6 E-4 E-10 S E-4 1.4 E-10 2.1 E-10 Pm-151 1, 18 d M 5.0 E-4 E-10 6.1 4.2 E-10 5.0 E-4
7.3 E-10 S 4.5 5.0 E-4 E-10 6.4 E-10 Samarium Sm-141 0, 170 h 1.6 M 5.0 E-4 E-11 2.7 E-11 5.0 3.9 E-4 E-11 Sm-141 m 0 377h M 5.0 E-4, E-11 3.4 5.6 E-11 5.0 E-4 E-6.5 Sm-142 1, 21 h 11 M 5.0 E-4 E-11 7.4 1.1 5.0 E-10 E-4 E-10 Sm-145 340d 1.9 M 1.5 1.1 5.0 E-4 E-9 E-9 5.0 2.1 E-4 E-10 Sm-03E + 146 1, 8a M 5.0 E-4 E-9.9 6 5.4 6.7 5.0 E-6 E-4 E-8 Sm-147 1, 06E + 11a M
6.1 8.9 5.0 E-4 E-6 E-6 4.9 5.0 E-4 E-8 Sm-151 90, 0a M 5.0 E-4 E 2.6-3.7 E-9 9 4 9.8 5.0 E-E-11 Sm-153 1, 5.0 M 95 d E 6.8 6.1-4 E-10 E-10 5.0 E-4 E-10 7.4 Sm-155 0 368h M 5.0 E-4, E-11 2.8 E-1.7 11 2.9 E 5.0 E-4-11 Sm-156 9, 40 h M 2.8 5.0 2.1 E-4 E-10 E-10 2.5 5.0 E-4 E-10 Europium Eu 145 5, 94 d M 5.6 7.3 5.0 E-4 E-10 E-10 5.0 E-4 7.5 E-10 Eu-146 4, 61d M 5.0 E-4 E 8.2-10 E-9 1.2 1.3 5.0 E-4 E-9 Eu 147 24, 0 d M 1.0 1.0 E 5.0 E-4-9 E-9 5.0 E-4 E-10 Eu 4.4-148 54, 5 d M 2.3 2.7 5.0 E-4 E-9 E-9 1.3 5.0 E-4 E-9 Eu-149 93, 1 d M 2.3 2.7 5.0 E-4 E-10 E-10 1.0 E 5.0 E-4-10 Eu-150 34, 2a M 5.0 5.0 E-4 E-8 3.4 E-8 1.3 5.0 E-4 E-9 Eu-150 12, 6 h M 2.8 5.0 E-4 1.9 E-10 E-10 3.8 5.0 E-4 E-10 Eu-152 13, 3a M 5.0 3.9 E-4 E-8 2.7 E-8 E-4 1.4 5.0 E-9 Eu-152m 9, 32 h M 5.0 E-4 3.2 2.2 E-10 E-10 5.0 5.0 E-4 E-10 Eu-154 8, 80a M 5.0 5.0 E-4 E-8 2.0 3.5 5.0 E-8 E-4 E-9 Eu-155 4, 96a M 5.0 4.7 6.5 E-4 E-9 E-9 5.0 E-4 E-10 Eu-156 15 3.2, 3.3 2d M 5.0 E-4 E-9 4 2.2 3.0 E-9 5.0 E-E-9 Eu-157, 1 h 15 M 5.0 E-4 3.2 E-10 4.4 E-10 5.0 6.0 E-4 E-10 Eu-158 0 765h M 5.0 E-4, E 4.8-11 7.5 E-11 9.4 E 5.0 E-4-11 Gadolinium Gd-145 0, 1.5 E 382h F 5.0 E-4-11 2.6 E-11 5.0 E-4 E-4 E-11 M 4.4 5.0 3.5 2.1 E-11 E-11 Gd-146 48, 3d F 5.0 E-4 E-9 5.2 4.4 E-9 5.0 E-4 E-9.6 10 M 5.0 6.0 E-4 E-9 4.6 E-9 Gd-E-4 147 1, 59d F 5.0 4.5 2.7 E-10 E-10 5.0 5.0 6.1 E-10 M E-4 E-4 5.9 4.1 E-10 E-10 Gd 148-93, 0a F 2.5 5.0 E-4 E-5 5.0 5.5 3.0 E-5 E-4 E-8 M
1.1 7.2 5.0 E-4 E-5 E-6 Gd-149 9, 40 d F 4.5 5.0 E-4 2.6 E-10 E-10 4.5 5.0 E-4 E-10 M E 5.0-7.0 E-10 7.9 E-10 4 Gd-151 120 d F 5.0 E-4 7.8 E-10 9.3 E-10 E-4 2.0 5.0 5.0 E-10 M E-4 E 8.1-10 6.5 E-10 152 1, Gd-08E + 14a F 5.0 E-4 1.9 2.2 5.0 E-5 E-5 E-4 E-4.1 8 M 5.0 5.0 7.4 E-4 E-6 E-6 Gd-153 242d F 5.0 2.1 E-4 E-9 2.5 5.0 E-4 E-9 2.7 E-10
 
 
1.9 m 5.0 E-4 E-9 1.4 E-9 Gd-159 18, 6 h F 1.1 5.0 E-4 E-10 4.9 5.0 1.8 E-10 E-4 E-10 M 5.0 3.9 2.7 E-4 E-10 E-10 Terbium Tb-1, 65h 147 M 5.0 E-4 E 7.9-11 E-10 5.0 1.2 1.6 E-4 E-10 Tb-149 4, 15 h 4.3 M 5.0 E-4 E-9 3.1 2.5 5.0 E-9 E-4 E-10 Tb-150 3, 27 h M 1.1 5.0 E-4 E-10 1.8 2.5 5.0 E-10 E-4 E-10 Tb-151 17, 6 h M 5.0 E-4 E-10 2.3 3.3 3.4 5.0 E-10 E-4 E-10
TB-153 2, 34 d M 2.0 5.0 E-4 E-10 2.4 2.5 5.0 E-10 E-4 E-10 Tb-154 21, 4 h 3.8 5.0 M E-4 E-10 5.0 6.0 E-10 E-4 E 6.5-10 Tb-155 5, 32d M 5.0 2.1 E-4 E-10 5.0 2.1 2.5 E-10 E-4 E-10 Tb-156 5, 34 d M 5.0 E-4 E-9 1.4 1.2 E-9 1.2 5.0 E-4 E-9 Tb-156m 1, 02d M 2.0 5.0 E-4 E-10 5.0 E-4 1.7 2.3 E-10 E-10 Tb-156m 5, 00 M 5.0 E-4 1.3 9.2 E-11 E-10 5.0 E-4 E 8.1-11 Tb-157 150a
M 1.1 5.0 E-4 E-9 7.9 E-10 5.0 E-4 3.4 E-11 Tb-4.3 158 150 a M 5.0 E-4 E-8 3.0 E-8 1.1 5.0 E-4 E-9 Tb-160 72, 3d M 5.0 E-4 5.4 9 6.6 E-E-9 1.6 5.0 E-4 E-9 Tb-161 6, 91 d M 5.0 E-4 E-9 1.2 1.2 E-9 7.2 5.0 E-4 E-10 Dysprosium Dy-155, 0 h 10 M 5.0 E-4 8.0 E-11 E-10 5.0 1.2 1.3 E-4 E-10 Dy-157 8, 10 h M 5.0 E-4 3.2 E-11 E-11 5.0 5.5 6.1 E-4 E-11 Dy-159 144d
M 3.5 5.0 E-4 E-10 1.0 2.5 5.0 E-10 E-4 E-10 Dy-33 h 29 M 5.0 165 2, E-4 E-11 8.7 6.1 E-11 1.1 5.0 E-4 E-10 Dy-166 3, 40 d 1.8 M 5.0 E-4 E-9 1.6 1.8 E-9 5.0 E-4 E-9 Holmium Ho-155 0 800h M 2.0 5.0 E-4, E-11 E-11 5.0 E-3.2 4 3.7 E-11 Ho-157, 210 h 0 M 4.5 5.0 E-4 E-7.6 5.0 E-4 E-12 12 6.5 E-12 Ho-159 0, 550 h M 6.3 5.0 E-4 E-12 1.0 E 5.0 E-4 E-7.9-11 12 Ho-161 2, 50 h M
1.0 E 5.0-6.3 4 E-12 E-11 5.0 E-4 1.3 E-11 Ho-162 0, 250 h 2.9 M 5.0 E-4 E-12 3.3 4.5 5.0 E-12 E-4 E-12 Ho-162 m, 13 h 1 M 2.2 3.3 5.0 E-4 E-11 E-11 5.0 E-4 E 2.6-11 Ho-164 0, 5.0 E-4 8.6 M 483h E-12 1.3 E-11 E 5.0-9.5 E-12 4 Ho-164 0, 625 h 1.2 M 5.0 E-4 E-11 1.6 1.6 5.0 E-4 E-11 E-11 Ho-166 1, 5.0 E-4 E-6.6 M 12d 10 5.0 E-4 1.4 8.3 E-10 E-9 Ho-166m 1, 20th + 3a M 5.0 E-4 E-7 1.1 5.0 7.8 E-8 E-4 2.0 E-9 Ho-167 3, 10 h M 5.0 E-4 E-11 1.0 E 5.0 7.1-10 E-4 E-11 8.3 Erbium Er-161 3, 24 h M 5.0 8.5 E E E-4 5.1-11-11 5.0 E-4 8.0 E-11 Er-165 10, 4 h M 5.0 E-4 1.4 E 8.3 E-12-11 E-4 1.9 5.0 E-11 Er-169 9, 30 d M 9.8 5.0 E-4 E-10 9.2 E-10 5.0 E-3.7 4 E-10 There-171 7, 52 h M 2.2 5.0 E-4 E-10 3.0 3.6 5.0 E-10 E-4 E-10-172 2, 05 d M 5.0 E-4
E-9 1.2 1.1 E-9 1.0 5.0 E-4 E-9 Thulium Tm-162 0 362h M 5.0 E-4, E-11 2.7 1.6 E-11 5.0 E-4 E 2.9-11 Tm-166 7, 70 h M 5.0 E-4 2.8 1.8 E-10 E-10 2.8 5.0 E-4 E-10 Tm-167 9, 24 d M 1.0 1.1 5.0 E-4 E-9 E-9 5.0 E-4 E-10 Tm-170 129 d 5.6 M 6.6 5.0 E-4 E-9 5.2 E-9 5.0 E-4 1.3 E-9 Tm-171 1, 92a M 5.0 E-4 1.3 E-9 1.1 5.0 9.1 E-10 E-4 E-10 Tm-2 172, 1.1 5.0 M E-65 d 4 E-9 1.4 1.7 5.0 E-9 E-4 E-9 Tm-173 8, 24 h M 5.0 E-4 2.6 1.8 E-10 E-10 5.0 E-4, E-10 Tm-3.1 175 0 253h M 5.0 E-4 E 1.9-11 E-11 5.0 E-4 2.7 3.1 E-11 Ytterbium Yb-315h 0, 162 M 5.0 E-4 1.4 E-11 2.2 2.3 5.0 E-11 E-4 E-11 S 5.0 E-4 E 1.4-2.3 E 11-11 Yb-166 2, 36 d M 7.2 5.0 E-4 E-10 9.1 E-10 5.0 5.0 9.5 E-4 E-10 S E-4 E-7.6 10 9.5 E-10 292h 167 0, Yb-M 5.0 E-4 6.5 E-12 5.0 9.0 E-12 E-4 E-12 S 5.0 E 6.7-9.5 6.9 4 E-12 E-12 Yb-169 32, 0 d M 5.0 2.1 2.4 E-4 E-9 E-9 5.0 E-4 E-7.1 10 S 5.0 E-4 2.8 2.4 E-9 E-9 Yb-175 4, 19 d M 6.3 6.4 5.0 E-4 E-10 E-10 5.0 5.0 4.4 E-4 E-10 S E-4 E-10 7.0 7.0 E-10 Yb-177 1, 90 h 6.4 M 5.0 E-4 E-11 E-4 E-11 8.8 5.0 5.0 9.7 E-11 S E-4 E-11 9.4 E 6.9-11 Yb-1, 178 23 h M 5.0 E-4 7.1 E-11 1.0 E 5.0 E-4 1.2-10 E-10 S 1.1 5.0 E-4 E 7.6-11 E-10 Lutetium Lu-169 1, 3.5 5.0 E-4 E M 42d-10 5.0 4.7 E-10 E-4 4.6 3.8 5.0 E-10 S E-4 E-10 4.9 E-10 Lu-170 2 00d M 5.0 E-4, E-10 9.3 6.4 E-10 5.0 5.0 E-4 9.9 E-10 S E-4 E-6.7 9.5 10 E-10 Lu-171 8, 7.6 M 22d 5.0 E-4 E-10 E-4 E-8.8 10 5.0 5.0 E-4 E-10 S 6.7 8.3 E-10, E-10 Lu-9.3 172 6 70 d M 5.0 E-4
E-9 1.4 1.7 E-9 1.3 E-4 E-9 S 5.0 5.0 E-4 1.5 1.8 E-9 E-9 Lu-173 1, 37a M 2.0 5.0 E-4 E-9 5.0 1.5 E-9 E-4 E-10 S 5.0 E 2.6 2.3 E 4-9 1.4-E-9 Lu-174 3, 31a M 4.0 5.0 E-4 E-9 2.7 2.9 E-9 5.0 E-4 E-10 S 2.5 5.0 3.9 E-4 E-9 E-9 Lu-174 142d M 5.0 E-4 2.4 3.4 E-9 E-9 5.0 5.0 5.3 E-4 E-10 S E-4 E-9 2.6 3.8 E-9 Lu-176 3, 60th + 10a M 5.0 E-4 4.6 6.6 E-8 E-8 5.0 E-4 E-9 S 1.8 5.2 5.0 E-4 E-8 3.0 E-8 Lu-cash consideration of 176 m 3, 68h M 1.5 1.1 5.0 E-4 E-10 E-10 5.0 5.0 1.7 E-4 E-10 S E-4 1.2 1.6 E-10 E-10 Lu-177 6, 71d M 1.0 5.0 E-4 E-9 1.0 E 5.0 5.3 E E-4-9-10 S 1.1 1.1 5.0 E-4 E-9 E-9 Lu-177 m 161d M 5.0 E-4 E-8 1.2 1.0 E 5.0 E-4 1.7-8 E-9 S 5.0 E-4 E-8 1.2 1.5 E-8 Lu-178 473h M, 5.0 0 E-4 E-2.5 5.0 3.9 E 11-11 E-4 E-11 S 5.0 4.7 E-4 E-11 4.1 2.6 E-11 Lu-178 m 0, 378h M 5.0 E-4 E 3.3-5.4 E 11-11 E-4 E-3.8 5.0 5.0 3.5 E-4 E S 11-11 5.6 E-11 Lu-179 4, 59 h M 1.1 5.0 E-4 E-10 5.0 2.1 1.6 E-10 E-4 E-10 S 1.2 1.6 5.0 E-4 E-10 E-10 Hafnium Hf-170 16, 0 h F 2.9 1.7 0.002 E-10 E-10 0.002 4.8 E-10 M 4.3 0.002 3.2 E-10 E-10 Hf-172 1, 87a F 0.002 3.2 E-8
3.7 E-8 E-9 M 0.002 1.9 1.0 0.002 E-8 1.3 E-8 Hf-173 24, 0 h F E 0.002 7.9-11 0.002 2.3 1.3 E-10 E-10 M

0.002 2.2 1.6 E-10 E-10 Hf-175 70, 0 d F 8.7 0.002 7.2 E-10 E-10 0.002 4.1 E-10 M 8.8 0.002 1.1 E-9 E-10 Hf-177 m 0 856h F 0.002 4.7 E-11, E-11 8.4 8.1 0.002 E-11 M 1.5 0.002 9.2 E-11 E-10 Hf-178 m 31, 0a F 3.1 0.002 2.6 E-7 E-7 E-9 M 0.002 0.002 4.7 1.1 7.8 E-7 E-8 Hf-179m 25, 1 d F E-9 1.4 1.1 0.002 E-9 1.2 0.002 E-9 M 0.002 3.6 E-9 3.2 E-9 Hf-180 m 5, 50 h F 1.2 0.002 6.4 E-11 E-10 0.002 1.4 1.7 0.002 E-10 M E-10 2.0 E-10 Hf-181 42, 4 d F 0.002 1.4 1.1 1.8 E-9 E-9 0.002 E-9 M 9-4.1 0.002 4.7 E E-9 Hf-182 9 + 00E, 6a F 0.002 3.0 3.6 E-7 E-7 0.002 3.0 E-9 1.2 E-7 8.3 0.002 M E-8 Hf-182 m 1, 02 h F 0.002 2.3 4.2 4.0 E-11 E-11 0.002 E 0.002 4.7-11 M E-11 7.1 E-11 Hf-183 1, 07 h F 0.002 2.6 E-11 E-11 0.002 7.3 4.4 E-11 M 0.002 5.8 8.3 E-11 E-11 Hf-184
4, 12 h F 0.002 2.3 1.3 E-10 E-10 0.002 5.2 E-10 M E-10 0.002 3.3 4.5 E-10 Tantalum Ta-172 0, 613h 3.4 0.001 M E-11 E 5.5-11 0.001 0.001 3.6 5.3 E-11 S E-11 5.7 E-11 Ta-3, 65h 173 M 1.1 0.001 0.001 1.9 1.6 E-10 E-10 E-10 S 0.001 1.2 1.6 E-10 E-10 Ta-174, 20 h 1 M 4.2 0.001 0.001 5.7 6.3 E E-11-11 E-11 S 0.001 4.4 6.6 E-11 E-11 Ta-175 10, 5 h M 0.001 0.001 2.0 1.3 E-10 E-10 2.1 E-10 S
0.001 2.0 1.4 E-10 E-10 Ta-176 8, 08 h M 2.0 0.001 0.001 3.1 3.2 E-10 E-10 E-10 S 2.1 0.001 E-10 177 3.3 E-10 Ta-2, 36 d M 9.3 0.001 0.001 1.1 1.2 E-11 E-10 E-10 S 0.001 1.3 1.0 E-10 E-10 Ta-178, 20 h 2 M 0.001 0.001 6.6 7.8 1.0 E-11 E-10 E-11 S E 0.001 6.9-11 179 1.1 E-10 Ta-1, 82a M 2.0 0.001 0.001 6.5 1.3 E-10 E-10 E-11 S 2.9 0.001 5.2 E-10 E-10 Ta-180 1, 00E + 13a M 0.001 6.0 E-9
4.6 E-9 0.001 0.001 S 2.4 8.4 E-10 E-8 1.4 E-8 Ta-180 m, 10 h 8 M 0.001 0.001 4.4 E 5.8 5.4 E E-11-11-11 11-6.2 E E S 0.001 4.7-11 Ta-182 115 d M 7.2 0.001 0.001 1.5 E 5.8-9 E-9 E-9 S E 0.001 9.7-9 7.4 E-9 Ta-182 m 0 264h 2.1 3.4 0.001 M E-11, E-11 0.001 0.001 2.2 1.2 E-11 S E-11 3.6 E-11 Ta-183 5, 10 d M 0.001 0.001 1.8 1.8 E-9 E-9 1.3 E-9 S 0.001 2.0 2.0 E-9 E-9 Ta-184
8, 70 h M 4.1 0.001 0.001 6.8 6.0 E-10 E-10 E-10 S 0.001 6.3 4.4 E-10 E-10 Ta-816h 185 0, M 0.001 0.001 6.8 4.6 E-11 E-11 E 6.8-7.2 4.9 0.001 S E-11 E 11-11 Ta-175h 186 0, M 1.8 E-0.001 0.001 3.3 3.0 E 11-11 E-11 S 0.001 1.9 E-11 3.1 E-11 Tungsten W-176 2, 30 h F 0.300 4.4 E-11 7.6 E-11 0.300 1.0 1.1 0.010 E-10 E-10 W-177 2, 25 h F 0.300 2.6 E-11 E-4.6 5.8 6.1 E E-11 0.010 0.300 11-11 W-178
21, 7 d F E 0.300 7.6-11 E-10 0.300 1.2 2.2 0.010 2.5 E-10 E-10 W-179 0, 625 h F E 0.300 9.9-13 1.8 E-12 0.300 0.010 3.3 3.3 E-12 E-12 W-2.8 E-11 181 121d F 0.300 4.3 E-11 0.300 7.6 E-11 8.2 0.010 E-11 W-185 75, 1 d F 2.2 0.300 1.4 E-10 E-10 4.4 E-10 0.010 0.300 5.0 E-10 W-187 23, 9 h F 0.300 2.0 3.3 E-10 E-10 0.300 0.010 7.1 6.3 E-10 E-10, W-188 69 4 d F 0.300 5.9 2.1 0.300 8.4 E-10 E-10 E-9
 
 
 
 
 
 
0.010 2.3 E-9 Rhenium Re-177 0, 1.0 1.7 E 233h F 0.800 E-11-11-11 M 0.800 1.4 0.800 2.2 E E-E-Re-178 11 0 11 2.2, 220h F 1.1 1.8 E-11 E-11 0.800 0.800 0.800 1.5 2.5 E-11 M E-11 2.4 E-11 Re-181 20, 0 h F 0.800 1.9 4.2 0.800 3.0 E-10 E-10 E-10 M 0.800 3.7 2.5 E-10 E-10 Re-182 2, 67 d F E 6.8-10 0.800 0.800 1.4 1.1 E-9 E-9 M 1.7 1.3 0.800 E-9 E-9 Re-182 12, 7 h F 2.4 0.800 1.5 E-10 E-10
0.800 0.800 2.0 2.7 E-10 M E-10 3.0 E-10 Re-184 38, 0 d F 0.800 4.6 E-10 1.0 7.0 E-10 0.800 E-9 M 0.800 1.8 1.8 E-9 E-9 Re-184 m 165 d F 8.8 0.800 6.1 E-10 E-10 0.800 0.800 6.1 M 1.5 E-9 E-9 4.8 E-9 Re-186 3, 78 d F 7.3 0.800 5.3 E-10 E-10 E-9 M 0.800 0.800 1.5 1.1 1.2 E-9 E-9 Re-186 m 2, 00E + 5a F 1.2 0.800 8.5 E-10 E-9 E-9 M 0.800 1.1 2.2 0.800 E-8 7.9 E-9 Re-187 5, + 00E 10A F 2.6 0.800 1.9 E-12 E-12 0.800 5.1 6.0 E-12 E-12 M 0.800 4.6 E-12 Re-188 17, 0 h F E 6.6-4.7 0.800 E-10 10 E-9 1.4 0.800 M 7.4 0.800 5.5 E-10 E-10 Re-188 m 0 310h F 0.800 1.0 E-11, E-11 0.800 1.6 3.0 E-11 M 2.0 1.4 0.800 E-11 E-11 Re-189 1, 01 d F 4.3 0.800 2.7 E-10 E-10 0.800 7.8 E-10 M 0.800 4.3 6.0 E-10 E-10 Osmium Os-180 0, 0.010 8.8 E-12 366h F 1.6 1.7 0.010 E-11 E-11 M
0.010 1.4 E-11 E-2.4 E-11 S 0.010 1.5 2.5 E 11-11 Os-75 h F 0.010 3.6 181 1, E-11 E-11 0.010 8.9 6.4 E-11 M 6.3 0.010 E-11 9.6 E-11 S 0.010 1.0 E 6.6-11 E-10 Os-182 22, 0 h F 3.2 0.010 1.9 E-10 E-10 0.010 5.6 E-10 M 5.0 0.010 3.7 E-10 E-10 S 0.010 3.9 5.2 E-10 E-10 Os-185 94, 0 d F E-9 1.4 1.1 0.010 0.010 5.1 E-9 E-10 M 1.0 1.2 0.010 E-9 E-9 S 0.010 1.5 1.1 E-9 E-9
 
 
OS-189 m 6, 00 h F 0.010 2.7 E-12 0.010 1.8 5.2 E-12 E-11 M 5.1 0.010 E-12 7.6 E-12 S 0.010 7.9 5.4 E-12 E-12 Os-191 15, 4 d F 0.010 3.5 2.5 E-10 E-10 0.010 5.7 E-10 M 1.5 0.010 E-9 1.3 E-9 S 0.010 1.5 1.8 E-9 E-9 Os-191m 13, 0 h F 4.1 2.6 0.010 E-11 E-11 0.010 9.6 E-11 M 0.010 1.3 1.3 E-10 E-10 S 0.010 1.4 1.5 E-10 E-10 Os-193 1, 25 d F 2.8 E-0.010 1.7 E-10 10 0.010 8.1 E-10
 
 
0.010 4.7 m E-10 E-10 S 0.010 6.4 5.1 E-10 E 6.8-10 Os-194 6, E-8 00a F 0.010 1.1 1.3 E-8 0.010 0.010 2.0 2.4 E-9 M E-8 1.3 E-8 S 0.010 7.9 E-8 4.2 E-8 Iridium Ir-182 0, 250 h F 1.5 0.010 E-11 E 2.6-4.8 0.010 E 11-11 M 2.4 E-11 3.9 0.010 E-11 S 0.010 2.5 4.0 E-11 E-11 184 Ir-3, 02 h F E 0.010 6.7-11 0.010 1.7 1.2 E-10 E-10 M 0.010 1.1 1.8 E-10 E-10 S 0.010 1.2 E-10
1.9 E-10 Ir-185 14, 0 h F E 0.010 8.8-11 1.5 E-10 E-10 M 0.010 1.8 2.6 0.010 E-10 E-10 S 0.010 1.9 2.5 E-10 2.6 E-10 Ir-186 15, 8 h F 1.8 E-10 3.3 0.010 E-10 0.010 4.9 E-10 M E-4.8 0.010 3.2 E-10 10 S 0.010 3.3 E-10 5.0 E-10 Ir-186 1 E-11, 75 h F 0.010 2.5 4.5 E-11 E-11 M 0.010 4.3 0.010 6.1 E-11 6.9 E-11 S 0.010 7.1 4.5 E-11 E-11 Ir 187 10, 5 h F 0.010 4.0 E-11 0.010 7.2 E-11
1.2 E-10 M 0.010 7.5 E-11 E-10 S 0.010 7.9 E 1.1-1.2 E 11-10 Ir-188 1, 73d F 0.010 2.6 E-10 0.010 6.3 4.4 E-10 E-10 M 6.0 E-0.010 4.1 E-10 10 10 6.2 S 0.010 4.3 E-E-10 Ir-189 13, 3d F 1.7 0.010 1.1 E-10 E-10 0.010 2.4 E-10 M 0.010 4.8 4.1 E E-10-10 S 0.010 5.5 4.6 E-10 E-10 Ir-7.9, 12 1 d 190 F 0.010 E-10 E-9 1.2 1.2 0.010 E-9 M 2.3 0.010 2.0 E-9 E-9 S 0.010 2.3 E-9 2.5 E-9 Ir-190 m 3, 10 h F 0.010 5.3 E-11 9.7 E-11 0.010 1.2 E-10 M 0.010 8.3 E-11 E-10 S 0.010 8.6 E 1.4-11 1.4 E-10 Ir-190 m 1, 20 h F 5.6 0.010 3.7 E-12 E-12 0.010 8.0 E-12 M 1.0 E 0.010 9.0 E-12-11 E-11 1.1 1.0 S 0.010 E-11 Ir-192 74, 0 d F 0.010 1.8 2.2 E-9 E-9 1.4 0.010 E-9 M 9-4.1 0.010 4.9 E E-9 S 0.010 4.9 6.2 E-9 E-9 Ir-192 m 241a F 5.6 4.8 0.010 E-9 E-9
3.1 0.010 E-10 M 3.4 0.010 5.4 E-9 E-9 S 0.010 1.9 3.6 E-8 E-8 Ir-193 m 11, 9 d F 1.6 0.010 1.0 E-10 E-10 0.010 2.7 E-10 M 0.010 1.0 E-9 E-10 S 0.010 1.2 E 9.1-9 1.0 E-9 Ir-194 19, 1 h F 0.010 2.2 1.3 0.010 3.6 E-10 E-10 E-9 M 5.3 0.010 E-10 E-10 S 0.010 5.6 E 7.1-7.5 E 10-10 Ir-194 m 171d F 0.010 5.4 E-9 6.5 0.010 2.1 E-9 E-9 M 0.010 8.5 E-9 6.5 E-9 S 0.010
1.2 E-8 E 8.2-9 Ir-195 2, 50 h F 0.010 2.6 E-11 E-11 0.010 1.0 4.5 E-10 M E-0.010 6.7 11 9.6 E-11 S 0.010 7.2 E-11 1.0 E-10 Ir-195 m 3, 80 h 1.1 F 0.010 6.5 E-11 E-10 2.1 0.010 E-10 M 0.010 1.6 2.3 E-10 E-10 S 0.010 2.4 1.7 E-10 E-10 Platinum Pt-186 2, 00 h F 0.010 3.6 E-11 E-11 0.010 9.3 E 6.6-11 Pt-2d 188 10, F 4.3 6.3 0.010 E-10 E-10-189 0.010 7.6 E-10 Pt 10, 9 h F E 0.010 4.1-11 7.3 E-11 191 0.010 1.2 E-10 Pt-2, 80 d F E 0.010 1.1-1.9 0.010 3.4 E-E-10 10 10 Pt-193 50, 0a 0.010 2.1 2.7 F E-11 E-11 0.010 3.1 E-11 Pt-193 m 4, 33d 0.010 1.3 E-10 2.1 F E-10 4.5 0.010 E-10 Pt-195 m 4, 02d F 3.1 0.010 1.9 E-10 E-10 0.010 6.3 E-10 Pt-197 18, 3 h F 1.6 0.010 9.1 E-11 E-10 0.010 4.0 E-10 Pt-1 197m, 57h F 2.5 0.010 E-11 E-11 0.010 8.4 4.3 E-11 Pt-199 0 513h F 0.010 1.3 E-11, E-11 0.010 3.9 2.2 E-11 Pt-200 12, 5 h F 0.010 2.4 E-10 4.0 E-10 193 0.010 1.2 E-9 Gold Au-17, 6 h F 3.9 0.100 0.100 1.3 E-11 7.1 E-11 E-10 M 1.5 0.100 1.1 E-10 E-10 S 1.6 0.100 1.2 E-10 E-10 Au-194 1, 64 d F 1.5 0.100 0.100 4.2 2.8 E-10 E-10 E-10 M 2.4 E-10 3.7 0.100 E-10 S 2.5 E-10 3.8 0.100 E-10 Au-195 183d F 7.1 0.100 0.100 2.5 1.2 E-11 E-10 E-10 M 0.100 1.0 E-9 8.0 E-10 S 1.6 0.100 E-9
1.2 E-9 Au-198 2, 69d F 0.100 0.100 3.9 2.3 E-10 E-10 1.0 E-9 M 9.8 0.100 7.6 E-10 E-10 S 1.1 0.100 8.4 E-10 E-9 Au-198 2, 30 d F 0.100 0.100 5.9 3.4 E-10 E-10 0.100 1.7 1.3 E-9 M E-9 2.0 E-9 S 0.100 1.9 1.9 E-9 E-9 Au-199 3, 14 d F 1.1 0.100 0.100 4.4 1.9 E-10 E-10 E-10 M E-0.100 6.8 10 6.8 7.5 E-10 E-10 S 0.100 7.6 E-10 Au-200 0 807h F 1.7, 0.100 0.100 3.0 E E-11-11
E-11 M 0.100 3.5 E 6.8-11 E-11 S 0.100 3.6 5.3-5.6 E 11 E-11 Au-200 m 18, 7 h F 0.100 0.100 5.7 3.2 E-10 E-10 E-1.1 9 M 9.8 0.100 6.9 E-10 E-10 S 10 1.0-7.3 0.100 E E-9 Au-201 0, 440h F 9.2 0.100 0.100 1.6 E E-12-11 E-11 M 2.4 1.7 0.100 2.8 E-11 E-11 S 2.9 1.8 0.100 E-11 E-11 Mercury Hg-193 (org.) 3, 50 h F 0.400 2.6 E-11 4.7 E-11 E-11 0.400 6.6 3.1 1.000 E-11 Hg-193 (anorg) 3, 50 h F
0.020 2.8 E 8.2 0.020 E 5.0 E-11-11-11 M 1.0 0.020 7.5 E-11 E-10 Hg-193 m (org.) 11, 1 h F 0.400 1.1 1.3 2.0 E-10 E-10 1.000 E-10 0.400 3.0 E-10 Hg-193 m (anorg.) 11, 1 h F 1.2 2.3 10 E-10 E-0.020 0.020 4.0 E-10 M 0.020 2.6 3.8 E-10 E-10 Hg-194 (org.) 1.9 260a F 0.400 1.5 E-8 E-8 5.1 1.000 E-8 0.400 2.1 E-8 Hg-194 (anorg.) E-8 1.3 1.5 0.020 260a F E-8 E-9 1.4 0.020 M 5.3 0.020 7.8 E 9-E-9
 
 
Hg-195 (org) 9, 90 h F 0.400 2.4 3.4 4.4 E-E-11 11 1.000 E-11 0.400 7.5 E-11 Hg-195 (anorg) 9, 90 h F 0.020 2.7 E-11 E-11 0.020 9.7 4.8 E-11 M 0.020 9.2 7.2 E-11 E-11 Hg-195 m (org.) 1, 73d F 2.2 1.3 0.400 E-10 E-10 2.2 E-10 0.400 4.1 1.000 E-10 Hg-195 m (anorg.)

1, 73d F 1.5 0.020 E-10 2.6 E-10 0.020 5.6 E-10 M 6.5 0.020 5.1 E-10 E-10 Hg-197 (org.) 2, 67 d F 5.0 8.5 E-11 E-0.400 11 9.9 1.000 E-11 0.400 1.7 E-10 Hg-197 (anorg.) 2, 67 d F 0.020 6.0 E-11 1.0 E-10 0.020 2.3 E-10 M 0.020 2.9 2.8 E-10 Hg-E-10 197m (org.) 23, 8 h F 0.400 1.8 1.0 E-10 E-10 0.400 3.4 1.5 1.000 E-10 E-10 Hg-197m (anorg.) 23, 8 h F 0.020 2.1 1.2 E-10 E-10 0.020 5.1 4.7 0.020 E-10 M E-10
6.6 E-10 Hg-199 m (org.) 0, 710h F 0.400 1.6 2.8 2.7 E-E-11 11 1.000 E-11 0.400 3.1 E-11 Hg-199 m (anorg.) 0, 710h 0.020 2.7 E-F 1.6 E-11 11-11 M 0.020 3.3 3.1 0.020 E E-11 5.2 E-11 Hg-203 (org.) 46, 6 d F 0.400 5.7 7.5 E-10 E-10 1.9 1.000 E-9 0.400 1.1 E-9 Hg-203 (anorg.) 46, 6 d F 0.020 5.9 4.7 E-10 E-10 0.020 5.4 E-10 M 0.020 1.9 2.3 E-9 E-9 Thallium Tl-194 0, 550 h 4.8 F 1.000 E-12 1.000 8.1 8.9 E-12 E-12
TL-194 m 0, 2.0 546h F 1.000 E-11 3.6 4.0 E-11 1.000 E-11 Tl-195 1, 16 h F 1.6 3.0 E-E-11 11 1.000 1.000 2.7 E-11 Tl-197 2, 84 h F 1.5 2.7 E-E-11 11 1.000 1.000 2.3 E-11 Tl-198 5, 30 h F E 6.6-11 1.2 1.000 E-10 Tl 7.3 1.000 E-11-198 1, 87 h F 4.0 E-11 7.3 1.000 E-11 5.4 1.000 E-11 Tl-199 7, 42 h F 2.0 E-11 3.7 1.000 E-11 200 1 E-11 Tl 1.000 2.6-09 d F 1.000 1.4 2.5 E-10, E-10 1.000 2.0 E-10 Tl-201 3, 04d F
4.7 1.000 E-11 7.6 E-11 202 12 1.000 9.5 E-11 Tl-, 3.1 2.0 E-10 2d F 1.000 E-10 4.5 1.000 E-10 Tl-204 3, 78a F 4.4 E-10 6.2 E-10 1.000 1.000 1.3 E-9 Lead Pb-195 m 0, 263h F 1.7 0.200 0.200 2.9 3.0 E E-11-11 E-11 Pb-198 2, 40 h F 4.7 0.200 0.200 1.0 E-11 8.7 E-11 E-10 Pb-199 1, 50 h F E 2.6 0.200 0.200 5.4 4.8-11 E-11 E-11 Pb-200 21, 5 h F 1.5 0.200 0.200 4.0 E-10 2.6 E-10 E-10 Pb-201 9, 40 h F 0.200 6.5 E-11 E 1.2-1.6 0.200 10 E-10 Pb-00E + 202 3, 5a F 1.1 0.200 0.200 8.7 1.4 E-8 E-8 E-9 Pb-202m 3, 6.7 E 62h F 0.200 0.200 1.3 1.2-11 E-10 E-10 Pb-203 2, 17 d F 9.1 0.200 0.200 2.4 E-11 1.6 E-10 E-10 Pb 205-1, 43rd + 7a F 0.200 0.200 3.4 E-10 4.1 2.8 E-10 E-10 Pb-209 3, 25 h F 1.8 3.2 0.200 0.200 5.7 E-11 E-11 E-11 Pb-210 22, 3a F 8.9 0.200 0.200 6.8 1.1 E-6 E-7 E-7 Pb-211 0 601h F 3.9 0.200, E-9
5.6 0.200 1.8 E-9 E-10 Pb-212 10, 6 h F 1.9 0.200 0.200 5.9 3.3 E-8 E-8 E-9 Pb-214 0 447h F, 2.9 E-9 4.8 0.200 0.200 1.4 E-9 E-10 Bismuth Bi-200 0 2.4 606h F, 0.050 0.050 5.1 4.2 E E-11-11 E-11 M 0.050 3.4 E-11 5.6 E-11 Bi-201 1, 80 h F 0.050 0.050 8.3 4.7 E-11 E-11 1.2 E-10 M 0.050 7.0 E-11, E-1.1 10 Bi-202 1 67h F 0.050 0.050 8.4 4.6 E-11 E-11 E-11 M 0.050 5.8 E 8.9-11 1.0 E-10 Bi-203
11, 8 h F 2.0 0.050 0.050 4.8 3.6 E-10 E-10 E-10 M 4.5 0.050 2.8 E-10 E-10 Bi-205 15, 4.0 E-10 3d F 0.050 0.050 9.0 6.8 E-10 E-10 M 0.050 9.2 E-10 1.0 E-9 Bi-206 6, 24 d F 0.050 0.050 7.9 E-10 E-9 1.3-1.9 E 9 M 1.7 2.1 0.050 E-9 E-9 Bi-207 38, 0a F 0.050 0.050 8.4 5.2 E-10 E-10 E-9 1.3 M 0.050 5.2 3.2 E-9 E-9 Bi-210 5, 01 d F 0.050 0.050 1.1 1.3 1.4 E-9 E-9 E-9 M 0.050
8.4 E-8 6.0 E-8 Bi-210 m 3, 4.5 + 00E 6a F 0.050 0.050 1.5 5.3 E-8 E-8 E-8 M 0.050 3.1 2.1 E-6 E-6 Bi-212 1, 01 h F 0.050 0.050 1.5 9.3 E-9 E-8 2.6 E-10 M E-8 3.0 3.9 0.050 E-8 Bi-213 761h F 0, 0.050 0.050 1.1 1.8 2.0 E-8 E-8 E-10 M 4.1 0.050 2.9 E-8 E-8 Bi-214 0 332h F, 0.050 0.050 7.2 E-9 1.2 1.1 E E-8-10 M 1.4 0.050 E-8 2.1 E-8 Polonium Po-203 0, 612h F 2.5 0.100 E-11
4.5 E-11 0.100 0.100 3.6 E 5.2 E-11 M-11 6.1 E-11 Po-205 1, 80 h F 3.5 0.100 0.100 5.9 6.0 E-11 E-11 E-11 M 0.100 6.4 E-11 8.9 E-11 Po-207 5, 83 h F 6.3 0.100 0.100 1.4 1.2 E-11 E-10 E-10 M 1.5 0.100 8.4 E-11 E-10 Po-210 138 d, F 7.1 0.100 6.0 E-7 E-7 2.4 0.100 0.100 3.0 M E-7 E-6 2.2 E-6 Astatine At-207 1, 80 h F E-10 4.4 3.5 E-10 1.000 1.000 1.000 2.1 2.3 E-10 M E-9 1.9 E-9
 
 
At-7, 211 21 h F 1.6 1.000 E-8 2.7 1.1 1.000 E-8 E-8 M 9.8 1.000 E-8 E-7 1.1, 240h Fr-Francium 222 0 F 1.4 1.000 E-8 2.1 7.1 1.000 E-8 E-10 Fr-223 0 9.1 E-10, 363h F 1.000 1.000 2.3 1.3 E-9 E-9 Radium Ra-223 11, 4 d M 0.200 0.200 6.9 1.0 E-5.7 E-6 6 E-7 Ra-224 3, 66 d M 0.200 0.200 2.4 6 2.9 E-E-6 6.5 E-8 Ra-225 14, 8 d E 5.8 M 0.200 0.200 9.5 4.8-6 E-6 E-8 Ra-226 1, 60th + 3a 0.200 3.2 M E-6 2.2 0.200 2.8 E-6 E-7 Ra-703h 227 0, M 2.8 E-10 0.200 0.200 8.4 2.1 E-10 E-11 Ra-228 5, 75a M 2.6 0.200 0.200 6.7 1.7 E-6 E-6 E-7 Actinium Ac-224 2, 90 h F E-8 1.3 1.1 5.0 E-4 E-8 5.0 5.0 7.0 E-10 M E-4 E-4-7 1.0 E 5.0 E-4 E-8 8.9 S 1.2 E-7, E-8 Ac-9.9 225 10 0 d F 5.0 E-4 E-7 1.0 E 5.0 8.7-6 E-4 2.4 E-8 M 5.0 E-4 E-5.7 6.9 E-6 6 S 7.9 5.0 E-4 E-6 6.5 E-6 Ac-226 1, 21 d E F 5.0-9.5 E 4-8 E-7 2.2 1.0 E 5.0 E-4-8 M 1.1 5.0 E-4 E-6 9.2 E-7 S 5.0 E-4 E-6 1.2 1.0 E-6 Ac-227 21, 8a F 5.0 E-E-E-4 4 4 5.4 6.3 1.1 5.0 E-4 E-6 M 5.0 2.1 1.5 E-4 E-4 E-4 S 5.0 4.7 6.6 E-5 E-4 E-5 Ac-228 6, 13 h F 2.5 5.0 E-4 E-8 2.9 4.3 5.0 E-8 E-4 E-10 M 1.6 5.0 E-4 E-8 1.2 E-8 S 5.0 E-4
E-8 1.2 1.4 E-8 Thorium Th-226 0, 515 h M 5.0 E-4 E 5.5-7.4 8 E-8 5.0 3.5 2.0 E-10 S 4 E-E-E-E-8 8 4 5.9 2.0 E-4 3.6 7.8 E-10 Th-227 18, 7 d M 5.0 E-4 E 7.8-6 6.2 E-6 5.0 E-4 E-9 S 8.9 2.0 E-4 E-9.6 6 2.0 E-4 8.4 7.6 E-6 E-9 Th-228 1, 91a M 5.0 E-4 E-5 E-2.3 3.1 5 5.0 E-4 E-8 S 7.0 2.0 E-4 3.2 3.9 E-5 E-5 3.5 2.0 E-4 E-8 Th-229 7, 34th + 3a
M 5.0 E-4 9.9 E-5 E-5 6.9 4.8 5.0 E-4 E-7 S 2.0 E-4 E-6.5 5 4.8 E-5 2.0 2.0 E-4 E-7 Th-230 7, 70th + 4a M 4.0 5.0 E-4 E-5 E-5 E-4 2.8 5.0 2.1 E-7 S 2.0 1.3 E-4 E-5 2.0 E-4 E-6 7.2 8.7 E-8 Th-231 1, 06 d M 5.0 E-4 E-10 3.7 2.9 E-10 5.0 E-4 E-10 S 3.4 2.0 E-4 3.2 4.0 E-10 E-10 3.4 2.0 E-4 E-10 Th-232 1, 40th + 10a M 5.0 E-4 4.2 E-5 2.9 E-5 E-7 S 5.0 E-4 2.2 2.0 E-4 1.2 2.3 E-5 E-5 E-4 9.2 2.0 E-8 Th-234 24, 1 d 6.3 M 5.0 E-4 E-9 5.0 5.3 E-9 E-4 E-9 S 3.4 2.0 E-4 E-7.3 9 2.0 E 5.8 E-9-4 3.4 E-9 Protactinium Pa 227 0 638h M, 7.0 E-4 E-5.0 9.0 8 E-8 E-4 4.5 5.0 5.0 E-4 E-10 S 9.7 7.6 E-8 E-8 Pa-228, 2 h 22 M 5.0 E-4 4.6 5.9 E-8 E-8 5.0 5.0 E-4 7.8 E-10 S E-4 E-6.9 8 5.1 E-8 Pa-230, 4 h 17 M 5.0 E-4 4.6 5.6 E-7 E-7 E-4 E-10 S 5.0 5.0 E-4 9.2 7.1 5.7 E-7 E-7 Pa-231 3, 27th + 4a M 5.0 E-4 E-5 E-4 1.3 8.9 5.0 E-4 E 7.1-7 S 5.0 E-4 3.2 1.7 E-5 E-5 Pa-232 1 31d M 5.0 E-4, E-9 9.5 5.0 E-4 E 6.8-7.2 9 E-10 S 5.0 E-4 3.2 E-9 2.0 E-9 Pa-233 27, 0 d M 3.1 2.8 5.0 E-4 E-9 E-9 5.0 E-4 E-8.7 3.7 5.0 E-10 S 4 E-9
3.2 E-9 Pa-234 6, 70 h 3.8 5.0 M E-4 E-10 5.0 5.5 E-10 E-4 5.1 4.0 5.0 E-10 S E-4 E-10 Uranium U-230 E 5.8-10 20, 8 d F 0.020 4.2 3.6 E-7 E-7 E 5.5-8 0.020 M 1.0 1.2 0.020 E-5 E-5 0.002 2.8 E-8 S 1.2 1.5 0.002 E-5 E-5 U-231 4, 20 d F 0.020 8.3 E-11 0.020 2.8 1.4 E-10 E-10 M 3.7 0.020 3.4 E-10 E-10 0.002 2.8 E-10 S 4.0 E-10 0.002 3.7 E-10 U-232 72, 0a 0.020 4.0 F E-6 E-7 E-4.7 6 0.020 3.3 M 7.2 0.020 4.8 E-6 E-6 0.002 0.002 3.5 3.7 E-8 S E-5 E-5 U-233 1 2.6, 58th + 5a F 6.6 0.020 5.7 E-7 E-7 0.020 5.0 E-8 M E-6 2.2 3.2 0.020 0.002 8.5 E-6 E-9 S E 8.7 0.002-6 6.9 E-6 U-234 2, 44th + 5a F 6.4 0.020 5.5 E-7 E-7 E-8 M 0.020 3.1 4.9 0.020 E-6 2.1 E-6 E-9 S 0.002 8.5 8.3 0.002 E-6 U-235 E 6.8-6 7, 04E + 8a F 0.020
5.1 6.0 E-7 E-7 E-8 4.6 0.020 M 0.020 2.8 1.8 E-6 E-6 E-9 S 8.3 0.002 0.002 6.1 7.7 E-6 E-6 U-236 2, 34th + 7a F 6.1 0.020 5.2 E-7 E-7 E-8 M 0.020 2.9 4.6 0.020 E-6 0.002 7.9 1.9 E-6 E-9 S 6.3 0.002 7.9 E-6 E-6 U-237 6, 75 d F E 1.9-10 3.3 0.020 E-10 0.020 7.6 E-10 M 1.5 1.6 0.020 E-9 E-9 0.002 7.7 E-10 S 0.002 1.7 1.8 E-9 E-9 U-238 4, 47th + 9a F 0.020
5.8 4.9 E-7 E-7 0.020 4.4 E-8 M 1.6 0.020 2.6 E-6 E-6 E-9 S 0.002 7.3 0.002 7.6 E-6 5.7 E-6 U-239 0 392h F 0.020 1.1 1.8 E-11, E-11 0.020 2.7 E-11 M 0.020 2.3 3.3 2.8 E-11 E-11 0.002 E-11 S 0.002 2.4 3.5 E-11 E-11 U-240 14, 1 h F 0.020 2.1 1.1 0.020 3.7 E-10 E-10 E-9 M 5.3 0.020 E-10 0.002 1.1 7.9 E-10 E-9 S 8.4 0.002 5.7 E-10 E-10 Neptunium Np-245h 232 0, M 5.0 E-4
3.5 5.0 4.7 E-11 E-11 E-4 9.7 E-12 Np-233 0 603h M 5.0 E-4, E-12 3.0 E 1.7-2.2 5.0 E-4 E 12-12 Np-234 4, 40 d M 5.0 E-4 E-10 7.3 5.4 E-10 5.0 E-4, E 8.1-10 Np-235 1 08a M 4.0 5.0 E-4 E-10 5.0 5.3 2.7 E-10 E-4 E-11 Np-236 1, 15th + 5a M 5.0 E-4 E-6 2.0 3.0 E-6 5.0 E-4 1.7 E-8 Np-236 22, 5 h M 5.0 5.0 E-4 E-9 1.9 3.6 5.0 E-9 E-4 E-10 Np-237 2, 14th + 6a M 5.0 E-4
1.5 2.1 E-5 E-5 E-7 1.1 5.0 E-4 Np-238 2, 12d M 2.0 5.0 E-4 E-9 1.7 E 5.0 E-4 9.1-9 E-10 Np-239 2 E-4, 36 d M 5.0 9.0 E-10 1.1 5.0 E-4 E-9 8.0 E-10 Np-240 1, 08 h M 5.0 E-4 1.3 8.7 E-11 E-10 5.0 E-4 E-11 8.2 Plutonium Pu-234 8, 80 h M 5.0 E-4 1.9 E-8 1.6 1.6 5.0 E-8 E-4 E-10 S 1.8 2.2 1.0 E-5 E-8 E-8 1.0 1.0 1.5 E-10 E-5 E-4, E-10 Pu-1.6 235 0 422h M 5.0 E-4 E-12 1.5 2.5 5.0 E-12 E-4 E-12 S 2.1 1.6 1.0 E-5 E-12 2.6 E-12 1.0 E-5 2.1 2.1 1.0 E-4 E-12 E-12 Pu-236 2, 85a M 5.0 E-4 E-5 1.8 1.3 E-5 E-4 8.6 5.0 E-8 S 9.6 1.0 E-5 E-7.4 E-6 6 6.3 E-9 1.0 1.0 E-5 E-4 2.1 E-8 Pu-237 45, 3d M 5.0 E-4 E-10 2.9 E 3.3-1.0 E 5.0 E-4 10-10 S 1.0 3.0 3.6 E-10 E-5 E-10 1.0 1.0 E-5 E-10 1.0 1.0 E-4 E-10
Pu-238 87, 7a M 5.0 E-4 3.0 4.3 E-5 E-5 E-7 S 5.0 E-4 2.3 1.5 1.1 1.0 E-5 E-5 E-5 E-9 1.0 1.0 E-5 E-4 4.9 8.8 E-8 Pu-239 2, 41st + 4a M 5.0 4.7 E-4 E-5 E-4 2.5 5.0 3.2 E-5 E-7 S 1.5 1.0 E-5 E-5 E-6 8.3 9.0 E-9 1.0 1.0 E-5 E-4 5.3 E-8 Pu-240 6, 54th + 3a M 5.0 4.7 E-4 E-5 E-4 2.5 5.0 3.2 E-5 E-7 S 1.5 1.0 E-5 E-5 E-8.3 6 1.0 E-5
9.0 1.0 E-4 E-9 5.3 E-8 Pu-241 14, 4a M 5.0 8.5 E-4 E-7 5.0 4.7 5.8 E-7 E-4 E-9 S 1.6 1.0 E-5 E-7 1.1 1.0 E-8.4 8 E-5 E-10 1.0 E-4 9.6 E-10 Pu-242 3, 76th + 5a M 4.4 3.1 5.0 E-4 E-5 E-5 2.4 5.0 E-4 E-7 S 1.0 1.4 E-5 E-5 E-5 E-6 7.7 1.0 1.0 E 5.0 8.6 E-9-4 E-8 Pu-243 4, 95h M 5.0 E-4 E-11 8.2 1.1 5.0 8.5 E E-E-4 10-11 S 8.5 1.0 E-5 E-11 1.1 1.0 E-5 E-10 8.5 E-11 1.0 E-4 8.5 E-11 Pu-244 8, 26th + 7a M 5.0 E-4 3.0 4.4 E-5 E-5 E-4 2.4 5.0 E-7 S 1.3 1.0 E-5 E-5 E-5 E-6 7.4 1.0 1.1 1.0 E-4 E-8 5.2 E-8 Pu-245 10, 5 h M 4.5 5.0 E-4 E-10 6.1 E-10

7.2 5.0 E-4 E-10 S 4.8 1.0 E-5 E-10 E-5 E-6.5 10 1.0 1.0 E-4 7.2 7.2 E-10 E-10 Pu-246 10, 9 d M 5.0 E-4 E-9 6.5 7.0 E-9 5.0 E-4 E 3.3-1.0 9 S E-5 E-7.6 9 1.0 7.0 E-9 E-5 E-9 1.0 E-3.3 3.3 4 E-9 Americium Am-237 1, 22 h M 2.5 5.0 E-4 E-11 3.6 5.0 E-4 E-11 1.8 E-11 Am-238 1, 63 h M 5.0 8.5 E-4 E-11 E 6.6-11 E-4 3.2 5.0 E-11 Am-239, 9 h 11 M 5.0 E-4 2.2 E-10 2.9 E-10 5.0 E-4 2.4 E-10 Am-240 2, 12d M 5.0 E-4 5.9 4.4 E-10 E-10 5.0 5.8 E-4 E-10 Am-241 432a M 5.0 3.9 2.7 E-4 E-5 E-5 2.0 5.0 E-4 E-7 Am-242, 16 h 1 M 1.6 5.0 E-4 E-8 1.2 E-8 5.0 E-4 3.0 E-10 Am-242 m 152a M 3.5 5.0 E-4 E-5 E-5 2.4 1.9 5.0 E-4 E-7 Am-7, 243 38th + 3a M 5.0 3.9 2.7 E-4 E-5 E-5 2.0 5.0 E-4, E-7 Am-244 10 1 h M 5.0 E-4 1.9 E-9
5.0 1.5 E-9 E-4 4.6 E-10 Am-244 m 0, 433 h M 5.0 E-4 E-11 6.2 E 7.9-2.9 5.0 E-4 E 11-11 Am-245 2, 05 h M 5.0 5.3 E-4 E-11 7.6 E-11 5.0 E-4 6.2 E-11 Am-246 0, 650 h M 5.0 E-4 E 6.8-11 1.1 5.0 E-E-10 4 5.8 E-11 Am-246m 0 417h M 5.0 E-4, E-2.3 3.8 5.0 E-E-11 11 4 3.4 E-11 Curium Cm-238 2, 40 h M 5.0 E-4 E-9 4.8 4.1 5.0 E-4 E-9 8.0 E-11 Cm-240 27, 0 d M 5.0 E-4 E-6 2.3 2.9 E-6 5.0 E-4 E-7.6 9 Cm-241 32, 8 d M 5.0 E-4 3.4 E-8 2.6 E-8 5.0 E-4 E-10 Cm-242 163d 9.1 M 5.0 E-4 E 4.8-6 E-4 E-3.7 6 5.0 1.2 E-8 Cm-28 243, 5a M 5.0 E-4 2.9 E-5 E-4 1.5 2.0 5.0 E-5 E-7 Cm-244 18, 1a M 2.5 5.0 E-4 E-5 E-4 1.2-1.7 E 5 5.0 E-7 Cm-245 8, 50th + 3a M 4.0 5.0 E-4 E-5 5.0 2.1 2.7 E-5 E-4 E-7 Cm-4 246, 73rd + 3a M 4.0 5.0 E-4 E-5 2.7 E-5 E-5.0 2.1 4 E-7 Cm-247 1, 56th + 7a M 2.5 3.6 5.0 E-4 E-5 E-5 5.0 E-4, E-7 1.9 Cm-248 3 39th + 5a M 5.0 E-4 E-4 1.4 9.5 E-5 E-4 7.7 5.0 E-7 Cm-249 1, 07 h M 5.0 E-4 E-11 5.1 3.2 E-11 5.0 E-4 3.1 E-11 Cm-250 6, 90th + 3a 7.9 M 5.0 E-4 E-4 E-5.0 E-4 4 5.4 4.4 E-6 Berkelium Bk-245 4, 94 d M 1.8 2.0 5.0 E-4 E-9 E-9 5.0 E-4 246 5.7 E-10 Bk-1, 83d M 5.0 E-4 3.4 E-10 4.6 E-10 5.0 E-4 4.8 E-10 Bk-247 1, 38th + 3a M 6.5 4.5 5.0 E-4 E-5 E-5 3.5 5.0 E-4 E-7 Bk-249 320 d M 5.0 1.5 E-4 E-7 1.0 E 5.0 E-7-E-10 Bk-250 3 4 9.7, 22 h M 5.0 E-4 E 7.1-10 5.0 9.6 E-10 E-4 1.4 E-10 Californium Cf-244 0 323h M 5.0 E-4, E-8 1.8 1.3 E-8 7.0 E 5.0 E-4-11 Cf-246 1 49d M 5.0 E-4, E-7 4.2 5.0 3.5 E-7 E-4 E 3.3-9 Cf-334d 248 M 5.0 E-4 8.2 E-6 6.1 5.0 E-6 E-4 2.8 E-8 Cf-249 350 M 4.5 5.0 E-4 6.6 E-5 E-5 3.5 5.0 E-4 E-7 Cf-250 13, 1a M 5.0 E-4 E-5 E-3.2 2.2 1.6 5.0 E-4 E 5-7 Cf-251 898a M 5.0 E-4 4.6 E-5 E-6.7 5 3.6 5.0 E-4 E-7 Cf-252 2, 64a M 5.0 E-4 E-5 1.8 1.3 E-5 E-4 5.0 9.0 E-8 Cf-253 17, 8 d M 5.0 E-4 E-6 1.2 1.0 E 5.0 E-4 1.4-6 E-9 Cf-254 60, 5 d M 5.0 E-4 2.2 3.7 E-5 E-5 E-4 4.0 5.0 E-7 Einsteinium Es-250 2, 10 h M 5.0 E-4 E 5.9-10 5.0 2.1 4.2 E-10 E-4 E-11 Es-251 1, 38 d M 1.7 2.0 5.0 E-4 E-9 E-9 5.0 E-4 1.7 E-10 Es-253 20, 5 d M 5.0 E-4 E-6 2.1 2.5 5.0 E-6 E-4 E-9 Es-254 276d 6.1 M 5.0 6.0 8.0 E-4 E-6 E-6 2.8 5.0 E-4 E-8 Es-254 m 1, 64 d M 5.0 E-4 4.4 E-7 E-7 5.0 E-3.7 4 4.2 E-9 Fermium Fm-252 22, 7 h 3.0 M 5.0 E-4 E-7 2.6 E-7 2.7 5.0 E-4 E-9 Fm-253 3 00d M 5.0 E-4, E-7 3.7 3.0 E-7 E-4 9.1 5.0 E-10 Fm 254 3, 24 h M 5.6 7.7 5.0 E-4 E-8 E-8 5.0 E-4 255 4.4 E-10 Fm 20, 1 h M 2.5 5.0 E-4 E-7 2.6 2.5 5.0 E-7 E-4 E-9 Fm-101d 257 M 5.0 E-4 E-6 5.2 E 6.6-6 5.0 1.5 E-4 E-8 Mendelevium Md-257 5, 20 h 2.3 M 5.0 E-4 E-8 1.2 2.0 5.0 E-8 E-4 E-10 Md-258 55, 0 d M 5.0 E-4 5.5 4.4 E-6 E-6
5.0 E-4 1.3 E-8 table 5 effective dose e (g) per unit of intake via inhalation (Sv Bq-1) for soluble or reactive gases and vapours, for > 17 years both for employees and for members of the population effective dose e (g) per unit of intake via inhalation (Sv Bq-1) for soluble or reactive gases and vapours age ≤ 1a age > 1 a Nuclide half-life Abs% dep f1 e (g) f1 for g > 1a 1 – 2a e (g) 2 – 7A e (g) 7 – 12a e (g) 12 – 17a e (g) > 17a e (g) hydrogen water 12.3 a V Getritreerd 20 100 1.000 1.000 4.8 6.4 E-11 E-11 1.8 3.1 E-11 2.3 E-11 E-11 H-3 1.8 E-11 Elementary 12.3 a V E-15 4.8 6.4 0.01 1.000 1.000 E-E-E-15 15 15 3.1 2.3 1.8 1.8 E E-15-15 Getritr. methane 12.3 a V 1 E-13 1.000 4.8 6.4 1.000 E-13 3.1 E-13 E-2.3 13 1.8 1.8 E-13 E-13 org. geb. H-3 12.3 a V 1.1 1.1 10 1.000 1.000 100 E-E-E-E 5.5-7.0 10 11 11 4.1 E-11 4.1 E-11 carbon C-11 gas 0.340 h V 2.8 E-11 1.000 1.000 100 1.8 E-11 9.7 E-12 3.8 3.2 6.1 E-12 E-12 E-12 C-11 dioxide 0.340 h V 1.000 1.000 100 1.2 1.8 E-11 E-11 E-6.5 4.1 2.5 E-E-12 12 12 2.2 E-12 C-11 monoxide 0.340 h V 40 1.000 1.0 E-11 6.7 1.000 E-12 3.5 E-12 2.2 E-12 1.2 1.4 E-12 E-12
C-14 gas 5.73 E + 3 a V E-9 1.3 1.6 1.000 1.000 100 E-9 9.7 E-10 7.9 5.7 E E-10-10-10 C E 5.8-14 dioxide 5.73 E + 3 a V 1.9 1.9 1.000 1.000 100 E-11 E-11 1.1 E-11 8.9 E-12 6.3 6.2 E-12 E-12 C-14 monoxide 5.73 103 a V 40 1.000 1.000 5.7 9.1 E-12 E-12 2.8 E-12 1.7 E-12 9.9 E-13 E-13 C-disulfide-35 8.0 87.4 d F E-9 100 1.000 6.9 4.8 0.800 E-9 1.4 2.4 E-9 E-9
8.6 E-10 7.0 E-10 S-35 dioxide 87.4 d F 85 9.4 E-10 0.800 6.6 1.000 E-10 2.1 3.4 E-10 E-10 1.1 1.3 E-10 E-10 Nickel carbonyl Ni-56 6.10 d 21 b 100 E 6.8-9 1.000 1.000 5.2 3.2 E E-9-9-9-9 1.2 1.4 2.1 E E E-9 Ni-1.50 57 d b E-9 1.000 1.000 100 3.1 2.3 E-9 1.4 E-9 6.5 5.6 9.2 E-10 E-10 E-10 Ni-59 7.50 E + 4 a b 1.000 1.000 100 3.3 4.0 E-9 E-9 2.0 E-9
9.1 1.3 E-9 E-10 Ni-63 96.0 8.3 E-10 a b 1.000 1.000 100 9.5 E-9 4.8 8.0 E-9 E-9 2.2 2.0 3.0 E-9 E-9 E-9 Ni-2.52 65 h b 1.000 1.000 100 2.0 E-9 1.4 E-9 E 8.1-10 3.6 4.0 E-5.6 E-10 10 E-10 Nil-2.27 66 d b 1.0 E-8 1.000 1.000 100 7.1 E-9 4.0 E-9 2.7 E-9 1.6 1.8 E-9 E-9 Ruthenium tetroxide Ru-0.863 94 h F 3.5 5.5 E-10 100 0.100 0.050 E-10 1.1 1.8 E-10 E-10
11 5.6 7.0 E-E-11 Ru-97 100 0.100 8.7 2.90 d F E-10 0.050 3.4 6.2 E-10 E-10 E 2.2-1.4 1.2 E E-10 10-10 Ru-103 100 0.100 9.0 39.3 d F E-9 3.3 0.050 6.2 E-9 E-9 2.1 1.1 1.3 E-9 E-9 E-9 Ru-105 100 0.100 1.6 4.44 h F E-9 5.3 0.050 1.0 E-9 E-10 1.8 2.2 3.2 E-10 E-10 E-10 Ru-106 100 0.100 1.6 1.01 a F E-7 0.050 6.1 1.1 E-7 E-8 1.8 2.2 3.7 E-8 E-8 E-8
Tellurium-gas to-0.600 5.9 100 116 2.49 h F E-10 0.300 4.4 E-10 2.5 E-10 1.1 1.6 E-10 E-10 To 11-17.0 8.7 E-121 d F E 100 0.600 3.0-9 1.4 0.300 2.4 E-9 E-9 6.7 9.6 E-10 E-10 To 5.1 E-10-121 m 154 d F 100 0.600 0.300 2.7 3.5 E-8 E-8 1.6 E-8 9.8 E-9 5.5 6.6 E-9 E-9 123 1.0 E + 13 a F To-0.600 2.8 E-100 8 0.300 1.9 2.5 E-8 E-8 1.2 1.3 1.5 E-8 E-8 E-8 To-123 m
120 d F 0.600 2.5 100 E-8 0.300 1.8 1.0 E-8 E-8 E 9 3.5 E-5.7-9 To 9-2.9 E-125 m 100 0.600 58.0 d F 1.5 1.1 0.300 E-8 E-8 3.2 5.9 E-9 E-9 1.5 To 1.9 E-9 E-9-127 100 0.600 6.1 9.35 h F E-10 0.300 4.4 E-10 2.3 E-10 9.2 1.4 E-10 E-11 To 11-127 m 109 d-7.7 E F E-8 100 0.600 5.3 1.9 0.300 3.7 E-8 E-8 6.1 1.0 E-8 E-9 To 9-129 1.16 4.6 E-h F 100
0.600 0.300 1.7 2.5 E-10 E-9.4 E 10-11 E-11 4.3 6.2 E-11 To 11-3.7 E-129 m 100 0.600 4.8 33.6 d F E-8 3.2 0.300 E-8 1.6 E-8 8.5 E-9 5.1 E-9 To 9-131 0.417 3.7 E-h F 100 0.600 0.300 4.5 5.1 E-10 E-10 1.4 2.6 E-10 E-10 9.5 E-11 To 11-131 m 1.25 d E 6.8-F 100 0.600 2.1 1.1 0.300 1.9 E-8 E-8 E-8 5.6 E-9 2.4 To 3.7 E-9 E-9-132 100 0.600 5.4 3.26 d F E-8 0.300
4.5 E-8 2.4 E-8 1.2 E-8 7.6 E-9 To 9-133 0.207 5.1 E-100 0.600 5.5 h F E-10 0.300 4.7 E-10 2.5 1.2 E-E-10 10-11 E-11 5.6 E 8.1-0.923 133 m h F 2.3 0.600 100 E-9 0.300 2.0 E-9 1.1 5.0 E-9 E-10 2.2 3.3 E-10 E-10 To-0.600 6.8 0.696 134 h F 100 E-10 0.300 1.6 3.0 E 5.5 E-10-10 E-E-E-10 8.4 1.1 10 11 Elementary iodine I-1.35 120 h 3.0 V 100 1.000 1.000 2.4 E-9 E-9
1.3 E-9 4.3 6.4 E-10 E-10 3.0 E-10 I-120 m 0.883 h V E-9 1.2 1.5 100 1.000 1.000 E-9 E-6.4 3.4 2.3 E-E-10 10 10 1.8 E-10 I-2.12 121 h V E-10 100 1.000 5.7 5.1 1.000 E-10 3.0 E-E-E-10 10 10 1.7 1.2 8.6 13.2 h V E-11 I-123 100 1.000 1.000 1.8 2.1 E-9 E-9 1.0 E-9 3.2 4.7 E-10 E-10 E-10 I-124 4.18 2.1 d V 1.1 1.0 1.000 1.000 100 E-7 E-7 E 5.8-8 2.8 E-8
E-8 1.2 1.8 E-8 I-125 V 100 1.000 4.7 60.1 d E-8 1.000 5.2 2.8 E-8 3.7 E-8 E-8 1.4 2.0 E-8 E-8 I-126 13.0 d V 1.9 1.9 1.000 1.000 100 E-7 E-7 7 6.2 1.1 E-E-E-E-8 8 4.1 2.6 8 I-0.416 128 h V 4.2 E-10 100 1.000 1.000 1.6 2.8 E-10 E-10 1.0 E-10 7.5 6.5 E-11 E-11 I-129 7 E + 1.57 a V E-7 1.000 1.000 100 1.7 1.6 1.7 2.0 E-7 E-7 E-7 1.3 E-7
9.6 E-8 I-130 12.4 h V 100 1.000 1.000 1.7 1.9 E-8 E-8 9.2 E-9 4.3 E-9 2.8 E-9 E-9 I-131 8.04 1.9 d V 1.000 1.000 100 1.6 1.7 E-7 E-7 E-8 4.8 9.4 E-8 3.1 2.0 E-8 E-8 I-2.30 h 132 V 2.8 E-9 1.000 1.000 100 2.3 E-9 1.3 E-9 4.3 6.4 E-10 E-10 3.1 E-10 I-132 m 1.39 h V 1.000 1.000 100 2.4 2.1 1.1 9 E-9 E-E-E-E-10 10 9 5.6 3.8 2.7 E-10 I-133 20.8 h V 4.5 4.1 1.000 1.000 100 E-8 E-8 9.7 2.1 E-8 E-9 6.3 E-9 4.0 E-9 I-134 0.876 h V 8.7 E-10 100 1.000 1.000 3.9 6.9 E-10 E-10 2.2 1.6 1.5 E E-E-10 10-10 I-135 6.61 h V 9.7 1.000 1.000 100 8.5 E E-9-9-9-9 1.4 2.1 4.5 E E E-9 9.2 E-10 Methyl iodide I-1.35 120 h V 70 1.000 1.000 1.9 2.3 E-9 E-9 1.0 E-9 4.8 E-10 3.1 2.0 E-10 E-10 I-120 m 0.883 h V 70
1.000 1.000 8.7 1.0 E-9 E-10 4.6 E-10 1.0 1.5 2.2 E-10 E-10 E-10 I-2.12 121 h V 70 4.2 3.8 1.000 1.000 E-10 E-10 1.2 2.2 E-10 E-10 8.3 E-11 E-11 I-123 13.2 h 5.6 V 70 1.000 1.000 E-9 1.4 1.6 E 7.7-9 E-10 3.6 E-10 2.4 E-10 E-10 I-124 4.18 1.5 d V 70 1.000 1.000 E-8 8.0 8.5 E-8 2.2 4.5 E-8 E-8 1.4 E-8 9.2 E-9 I-125 60.1 d 1.000 E-8 1.000 3.7 V 70
4.0 E-8 1.6 2.2 2.9 E-8 E-8 E-8 1.1 E-8 I-126 13.0 d V 70 1.000 1.000 1.5 1.5 E-7 E-7 E-9.0 8 3.2 4.8 E-8 E-8 2.0 E-8 I-0.416 128 h V 70 1.000 1.000 1.2 1.5 E-10 E-10 1.9 3.0 E 6.3 E-11-11 E-11 1.3 E-11 I-129 7 E + 1.57 a V 70 1.000 1.000 1.5 1.3 E-7 E-7 1.2 1.3 E-7 E-7 E-8 7.4 9.9 E-8 I-130 h 12.4 V 70 1.000 1.000 1.3 1.5 E-8 E-8
7.2 E-9 1.4 2.2 3.3 E-9 E-9 E-9 I-131 8.04 d V 70 1.000 1.000 1.3 1.3 E-7 E-7 E-8 3.7 7.4 E-8 2.4 E-8 1.5 E-8 I-2.30 h 132 V 70 1.000 1.000 1.8 2.0 E-9 E-9 9.5 10 4.4 E-E-E-E-10 10 2.9 1.9 10 I-132 m 1.39 h V 70 1.000 1.000 1.6 1.8 E-9 E-9 3.9 E-10 2.5 8.3 E-10 E-10 E-10 I-133 20.8 h 1.6 V 70 1.000 1.000 3.2 3.5 E-8 E-8 1.7 E-8 7.6 E-9
3.1 4.9 E-9 E-9 I-134 0.876 h 4.3 1.000 1.000 5.1 V 70 E-10 E-10 1.1 2.3 E-10 E-10 7.4 E-11 E-11 I-135 6.61 5.0 h 7.5 V 70 1.000 E-9 6.7 1.000 E-9 1.6 3.5 E-9 E-9 E-1.1 9 6.8 E-10 Mercury gas 22)
 
 
 
 
 
 
 

 
 
Hg-3.50 193 h b 70 1.000 1.000 3.4 4.2 E-9 E-9 1.6 2.2 E-9 E-9 1.2 1.1 E-9 E-9 Hg-11.1 193 m h b 70 1.000 1.000 9.4 E E-8 1.2-4.5 6.1 E-9 E-9 9 9 3.1 3.4 E-E-9 Hg-194 260 a b 70 1.000 1.000 8.3 9.4 E-8 E-8 6.2 E-8 4.0 5.0 E-8 4.3 E-8 E-8 Hg-195 9.90 h b 70 1.000 5.3 2.8 E-9 4.3 1.000 E-9 E-9 1.4 1.6 2.1 E-9 E-9 E-9 Hg-195 m 1.73 d b
2.5 3.0 E-8 1.000 70 1.000 E-8 1.2 1.6 E-8 E-8 8.8 8.2 E-9 E-9 Hg-197 2.67 d b 70 1.000 1.000 1.3 1.6 E-8 E-8 6.3 8.4 E-9 E-9 4.7 4.4 E-9 E-9 Hg-23.8 197m h b 70 1.000 1.000 1.7 2.1 E-8 E-8 1.1 E-8 8.2 6.2 5.8 E E-E-9 9-9 Hg-199 m 0.710 h b 70 1.000 1.000 5.3 6.5 E-10 E-10 3.4 E-10 2.5 1.9 1.8 E E-E-10 10-10 Hg-203 46.6 d b 70 3.0 1.000 E-8
1.000 E-8 2.3 1.5 1.0 E-8 E-8 7.7 E-9 7.0 E-9 table 6 effective dose per unit of integrated air concentration (Sv/Bq m-3 d-1) as a result of exposure of adults (employees or members of the public) to noble gases Nuclide half-life effective dose (Sv/Bq m-3 d-1) Argon Ar-35.0 d 37 E-15 Ar-39 269 a 1.1 4.1 E-11 Ar-41 1.83 5.3 h E-9 Krypton Kr-11.5 m 4.5 E 74-9 Kr-14.8 76 h 1.6 E-9 Kr-77 74.7 3.9 m E-9 K-R-79 1.46 d Kr-81 2.10 9.7 E-10 E + 5 a 2.1 E-11 K-R-83 m 1.83 h 2.1 E-13 Kr-85 10.7 a 2.2 E-11 K-R-85 m 5.9 4.48 h E-10 K-R-87 1.27 h 3.4 E-9 Kr-8.4 h 2.84 88 E-9 Xenon Xe-40.0 m 1.5 E-9 Xe-120 121 122 40.1 m 7.5 E-9 Xe-1.9 20.1 h E-10 Xe-2.08 123 h 2.4 E-9 Xe-17.0 125 h 9.3 E-10 Xe-36.4 127 d 9.7 E-10 Xe-129 m 8.0 d E 8.1-11 Xe-131 d 11.9 3.2 E-11 Xe-133 m 2.19 d 1.1 E-10 Xe-133 5.24 d 1.2 E-10 Xe-135 15.3 m 1.6 E-9 Xe-135 9.6 9.10 h E-10 Xe-14.2 m 4.7 138 E-9 table 7 Connections and f1 values, used for the calculation of ingestion dose coefficients Connections and f1 values, t.b.v. ingestion dose coefficients Element f1 Connections getritieerd water ingestion of 1.000 1.000 hydrogen org. bound tritium Beryllium 0.005 all connections carbon Fluorine 1.000 1.000 Branded org. e connections all connections all connections all connections Aluminum Magnesium Sodium 1.000 0.500 0.010 0.010 all connections all connections Silicon Phosphorus
connections all connections 0.800 Sulphur 0.800 Anorg. e 0.100 Sulfur in element form 1.000 org. e sulphur Chlorine Potassium Calcium 0.300 all connections all connections 1.000 1.000 1.0 E-4 all connections all connections Scandium Titanium Vanadium 0.010 0.010 all connections all connections Chrome 0.100 0.100 all connections connections connections 0.010 Hexavalente Trivalente Manganese Iron Cobalt 0.100 0.100 unnamed connections all connections 0.050 Oxides , hydroxide and Copper Nickel 0.050 anorg. e connections all connections 0.500 0.500 all connections all connections all connections 0.001 Zinc Gallium Germanium 0.500 all connections all connections Arsenic Selenium 0.800 1.000 unnamed connections 0.050 Selenium in element form and seleniden Bromine 1.000 1.000 all connections all connections Rubidium Strontium 0.300 strontium titanate (SrTiO3) unnamed connections 0.010 1.0 E-4 Yttrium Zirconium Niobium 0.010 0.002 all connections all connections all connections Molybdenum Molybdenum sulfide 0.800 unnamed connections 0.050 Technetium 0.800
0.050 0.050 all connections all connections Ruthenium Rhodium Palladium Silver connections all connections all connections 0.050 0.050 0.005 All Cadmium Indium 0.020 All anorg. e connections all connections all connections all connections Antimony Tin 0.020 0.100 Tellur 0.300 all connections all connections all connections Cesium 1.000 1.000 Barium Iodine 0.100 5.0 E-4 all connections all connections Lanthanum Cerium 5.0 5.0 E-4 E-4 all connections all connections Praseodymium Neodymium 5.0 5.0 E-4 E-4 all connections all connections Promethium Samarium 5.0 E-4 All connections all connections 5.0 5.0 E-4 Europium Gadolinium Terbium 5.0 E-E-4 all connections 4 all connections Dysprosium Holmium 5.0 5.0 E-4 all connections E-4 all connections Erbium Thulium 5.0 5.0 E-4 all connections E-4 E-4 all connections all connections Ytterbium 5.0 5.0 E Lutetium-Hafnium Tantalum 0.001 0.002 all connections 4 all connections all connections Wolfram 0.300 unnamed 0.010 Tungsten acid Rhenium 0.800 connections all connections all connections all connections Iridium Osmium 0.010 0.010 0.010 all connections Gold Platinum 0.100
All 1.000 connections All connections Mercury 0.020 anorg. e methylmercury 0.400 unnamed Thallium 1.000 connections all connections all connections all connections Lead 0.200 Bismuth 0.050 Polonium 0.100 all connections Astatine 1.000 1.000 all connections all connections Francium Radium 0.200 5.0 E-4 all connections all connections Actinium Thorium 2.0 5.0 E-4 unnamed connections E-4 oxides, hydroxides Protactinium 5.0 E-4 Uranium 0.020 unnamed connections all connections 0.002 most tetravalent connections UO2, U3O8, b. v., UF4 Neptunium 5.0 5.0 E-4 all connections Plutonium E-4 unnamed connections 1.0 1.0 E-4 E-4 Nitrates Insoluble oxides Americium 5.0 E-4 E-4 all connections all connections Curium 5.0 5.0 5.0 E-4 all connections Californium Berkelium E-4 E-4 all connections all connections Einsteinium 5.0 5.0 5.0 E-4 all connections Mendelevium Fermium E-4 Table 8 connections all connections , Lung absorption types and f1 values, used for the calculation of inhalation dose coefficients connections, Lung absorption types and f1 values t.b.v. inhalation dose coefficients Element Absorption type (s) f1 Connections Beryllium 0.005 M unnamed connections S 0.005 oxides, halides and nitrates Fluorine F 1.000 determined by 1.000 determined by binding cation binding cation M S F 1.000 1.000 determined by binding cation Sodium Magnesium all connections F 0.500 0.500 unnamed connections M Oxides carbides, halides, hydroxides, nitrates and Aluminum F 0.010 unnamed connections M 0.010 oxides, hydroxides, carbides, halides, nitrates and metallic aluminium Silicon F 0.010 unnamed connections M 0.010 oxides, hydroxides, nitrates S 0.010 carbides and aluminum silicate glass-aerosol Phosphorus F 0.800 unnamed connections M 0.800 Some phosphates: determined by binding cation Sulfur F 0.800 sulfides and sulfates: determined by binding cation M 0.800 Sulfur in element form. Sulfides and sulfates: determined by binding Chlorine F 1.000 determined by cation binding cation M 1.000 determined by binding Calcium cation Potassium F 1.000 all connections M 0.300 all connections Scandium S 1.0 E-4 Titanium F 0.010 unnamed connections all connections M 0.010 oxides, hydroxides, carbides, halides and nitrates strontium titanate (SrTiO3) Vanadium F S 0.010 0.010 unnamed connections M 0.010 Oxides halides, hydroxides, carbides and Chrome F 0.100 0.100 unnamed connections M Halides and nitrates S 0.100 0.100 oxides and hydroxides Manganese F unnamed connections M 0.100 oxides, hydroxides, nitrates and Iron halegoniden F 0.100 0.100 unnamed connections M oxides, hydroxides and halides 0.100 M unnamed connections S 0.050 Cobalt oxides, hydroxides, halides and nitrates 0.050 0.050 unnamed connections M F Nickel Oxides hydroxides and carbides, Copper F 0.500 unnamed anorg. e connections M 0.500 0.500 sulphides, halides and nitrates S oxides and hydroxides Zinc S 0.500 0.001 unnamed connections all connections Gallium F M 0.001 oxides, hydroxides, carbides, halides and nitrates Germanium F 1.000 unnamed connections M 1.000 Oxides, sulphides and halides Arsenic M 0.500 0.800 unnamed F all connections Selenium inorganic compounds M 0.800 Selenium in element form , oxides, hydroxides and carbides Bromine F 1.000 determined by 1.000 determined by binding cation binding cation M Rubidium Strontium F 0.300 all connections F 1.000 unnamed strontium titanate (SrTiO3) Yttrium connections S 0.010 M 1.0 E-4 unnamed connections S 1.0 E-4 oxides and hydroxides Zirconium F 0.002 unnamed connections M 0.002 oxides, hydroxides, halides and nitrates S 0.010 0.002 Zirconium Niobium carbide M unnamed connections S 0.010 oxides and hydroxides Molybdenum F 0.800 unnamed connections S Molybdenum sulfide, oxides, hydroxides 0.050 Technetium F 0.800 unnamed connections M 0.800 oxides, hydroxides, halides and nitrates Ruthenium F 0.050 0.050 0.050 unnamed connections M halides-S oxides and hydroxides Rhodium F 0.050 0.050 0.050 unnamed connections M Halides S oxides, hydroxides Palladium F 0.005 unnamed connections M 0.005 nitrates and halides S 0.005 oxides and hydroxides Silver F 0.050 0.050 connections and unnamed metallic silver M
Oxides, hydroxides, nitrates and sulfides S 0.050 0.050 carbides Cadmium F unnamed connections M 0.050 0.050 sulphides, halides and nitrates S oxides and hydroxides Indium F 0.020 unnamed connections M 0.020 oxides, hydroxides, halides and nitrates Tin F 0.020 unnamed connections 0.020 M Tinfosfaat, sulfides, oxides, hydroxides, halides and nitrates Antimony F 0.100 unnamed connections M 0.010 Oxides , hydroxides, halides, sulfides, sulfates and nitrates Tellurium F 0.300 unnamed connections M 0.300 Iodine oxides, hydroxides and nitrates F 1.000 1.000 all connections all connections Cesium F F F all connections Lanthanum Barium 0.100 5.0 E-4 unnamed connections M 5.0 E-4 Cerium oxides, hydroxides M 5.0 E-4 unnamed connections S 5.0 E-4

Oxides, hydroxides and fluorides Praseodymium M 5.0 E-4 unnamed connections S 5.0 E-4 Neodymium oxides, hydroxides, carbides and fluorides M 5.0 E-4 unnamed connections S 5.0 E-4 oxides, hydroxides, carbides and fluorides Promethium M 5.0 E-4 unnamed connections S 5.0 E-4 oxides, hydroxides, carbides and fluorides Samarium M 5.0 E-4 all connections Europium M 5.0 5.0 E-4 all connections Gandolinium F E-4 unnamed connections M 5.0 E-4 Oxides , hydroxides and fluorides Terbium M 5.0 E-4 all connections Dysprosium Holmium 5.0 M E-4 all connections M 5.0 E-4 unnamed connections Erbium M 5.0 E-4 all connections Thulium M 5.0 E-4 all connections Ytterbium M 5.0 E-4 unnamed connections S 5.0 E-4 oxides, hydroxides and fluorides Lutetium M 5.0 E-4 unnamed connections S 5.0 E-4 Oxides , hydroxides and fluorides Hafnium F 0.002 unnamed connections M 0.002 oxides, hydroxides, halides, nitrates carbides and Tantalum Tantalum 0.001 0.001 M unnamed connections S in element form, oxides, hydroxides, halides, nitrates and carbides, nitrides 0.300 all connections Rhenium Tungsten F F 0.800 unnamed connections M 0.800 oxides, hydroxides, halides and nitrates Osmium F 0.010 unnamed connections M 0.010 Halides and nitrates S 0.010 oxides and hydroxides Iridium F 0.010 unnamed connections
 
M 0.010 Metallic iridium, halides and nitrates S 0.010 oxides and hydroxides Platinum F 0.010 0.100 unnamed connections all connections Gold F M 0.100 0.100 oxides and hydroxides Mercury halides and nitrates S F 0.020 oxides, hydroxides, Sulfates 0.020 M halides, nitrates and sulfides Mercury F 0.400 All org. Thallium F 1.000 connections all connections Lead e F F all connections Bismuth Bismuth nitrate 0.200 0.050 0.050 M unnamed connections Polonium F 0.100 unnamed connections M
oxides, hydroxides and nitrates 0.100 Astatine F 1.000 determined by binding cation M 1.000 determined by binding cation Francium F all connections all connections Radium 1.000 M 0.200 Actinium F 5.0 E-4 unnamed connections M 5.0 E-4 Halides and nitrates S 5.0 E-4 oxides, hydroxides Thorium M 5.0 E-4 unnamed connections S 2.0 E-4 oxides and hydroxides Protactinium M 5.0 E-4 unnamed connections S 5.0 E-4 Uranium oxides, hydroxides F 0.020 most hexavalente connections, e. g. UF6, UO2F2 and UO2 (NO3) 2 M 0.020 Less soluble compounds, UO3, UF4, UCl4 b. v. and most other hexavalente connections S 0.002 very few soluble compounds, e.g. UO2 and U3O8 Neptunium M 5.0 5.0 E-4 all connections Plutonium M E-4 unnamed connections S 1.0 E-5 Insoluble oxides Americium M 5.0 E-4 all connections Curium M 5.0 E-4 all connections Berkelium M 5.0 E-4 all connections Californium M 5.0 E-4 all connections Einsteinium
M 5.0 E-4 all connections Fermium M 5.0 E-4 all connections Mendelevium M 5.0 E-4 all connections Annex 1.5. accompanying the articles, 1.4 to 1.6 calculation rules Analysis Consequences ionising radiation 1. Introduction 1.1. General articles 1.4 to 1.6 of the plan and this annex concern both acts as work with radioactive stoffen23.
Any actions, that is, the preparation, holding, using and discarding of radioactive substances or the use of appliances, is in many cases a notification or a permit in accordance with the nuclear energy Act nodig24. This also applies to work, that is to say the preparing, possession, apply or discard a natural source as far as that is not or is modified due to its radioactive properties.
According to article 2, paragraph 1 (h) of the regulation contains any mention of an Act, among other things, a declaration that the maximum effective dose that a person per year can receive as a result of acts outside the location with that source is less than 10 microsieverts. According to article 2. 6, first paragraph, point (e), of the arrangement contains each application for a permit for an Act, among other things, the maximum total effective dose that a person can receive in a calendar year at any point outside the location where the application for authorisation applies, both as a result of discharges as due to external radiation. The decision also notes in article 3 that rules can be made by the Minister for the determination of the doses25 and methods may be appropriate for the way in which the calculated doses are tested. This annex contains the rules and methods referred to above.
The next dose levels are used: a location limit of 100 µSv in a year, above which no authorisation shall be granted, and a secondary level (SN) of 1 µSv (for air and water discharges) and 10 µSv (for external radiation) in a year where down from an environmental point of view never objection to licensing, provided that the Act is justified.
The SN is a level including the filling in of the ALARA-beginsel26vanuit the Government is not a priority and has the responsibility for applying the holder of the authorization at any time. The licence holder has the obligation to the ALARA principle in practice.
In this annex does not address the application of the ALARA principle and not on whether an act is justified or not.

1.2. Purpose and scope of this annex the purpose of this annex is to give rules for performing a dose calculation. This uses flow charts. Policy choices are also indicated. Figure 1.1 shows a flow chart in the operation of this annex in its entirety again. The rules are only intended for regular emissions and discharges as a result of acts with radioactive substances. This annex consists of the following parts.
Part I ' rules ' (described under 2 through 4 of this annex) In simple cases (for example, for radionuclide laboratories and sealed sources for measurement and control technology) will suffice with the simplified calculation rules of part i. the purpose of part I is to get an answer to the question whether an act a radiation dose under SN. The answer is on a global, conservative way estimated using simple rules without a comprehensive dose calculation.
Part II ' further analysis ' (described under 5 through 7 of this annex) For more complex situations and for those species for which emissions according to the calculation rules from part I the SN is exceeded, further analysis should be carried out a so-called part II of this annex shall apply. In Part II, with the help of flow charts and charting of policy options the methodology of performing a more detailed analysis described, and to consider the most important parameters and the corresponding parameter values. In General will in the implementation of the detailed analysis is more experience and knowledge of the underlying models are needed than when applying the calculation rules from part i. the reports ' dose calculation for the environment at Licensing ionizing radiation part a: discharges to air and water ' DOVIS-A [DOA02] and ' dose calculation for the environment at Licensing ionizing radiation part b: external radiation ' DOVIS-B [DOB02] should be used for the implementation of further analysis.
It is also in part II shows how the results of the detailed analysis, should be reviewed to dose limit and SN.
Figure 1.1 flowchart of the annex 1.3. Sources, emissions and exposure Sources roads are classified into: • sealed sources, including devices that contain such a source • appliances (mainly x-ray equipment and accelerators) • open sources act with three different types of emissions sources within a locatie27 can result in: • external radiation (also called direct radiation) • discharges in air • discharges in water heaters only give external radiation. The same applies, under normal use, for sealed sources. Open sources may give rise to external radiation, but can also spread through discharges to air and water in the area. The roads along which these distributions are tax trails.
The actual exposure of individuals as a result of the emissions through the load paths can then be done in different ways, exposure routes. The three most important are: – external exposure either directly from the source, for example, or indirectly from a cloud of radioactive substances, discharged or after deposition thereof;
– inhalation of airborne radioactive dust particles;
– ingestion of food and water that has become infected by the dispersed radionuclides.
Figure 1.2 Simplified schema from source to load paths through emission types, doses and exposure roads Part I:. Calculation rules 2. Applicability rules 2.1. Toepasbaarheidbeoordeling beforehand.
The calculation rules of part I are for external radiation, discharges to air and discharges to water apply where, with regard to the various emissions from the source (s), the following conditions are met: 1 the only important to expect external radiation dose contributions from external radiation is created as a result of gamma rays and x-rays (d.w.z. that other radiation types, such as neutron radiation , α-and β-radiation, at the relevant point is expected to be a fractional dose contribution);
2 the source can be seen as a contribution the possible dose m.b.t. puntbron28.

If condition 1 or 2 are met, for this type of emissions refer to part II, further analysis.
Discharge in air 3 the only important to expect dose contribution of release to air is created as a result of inhalation.
If condition 3 is met, for this type of emissions refer to part II, further analysis.
Discharge into water 4 the only important to expect dose contribution of discharge into water is created as a result of ingestion.
5 discharge into water shall be done on a sewer system that through a water treatment plant on the surface water discharges.
If not for value 4 or 5 are met, for this type of emissions refer to part II, further analysis.

2.2. after calculation for each type of emission Toepasbaarheidbeoordeling be individually, using the calculation rules and on the basis of the applied amounts of radionuclides, the maximum (theoretically possible) emissions calculated (see parts 3 and 4): – the maximum (theoretically possible) ambient dose equivalent (H * max) for external radiation (from a point source);
– the maximum (theoretically possible) emission in air (Lmax) for discharges in air;
– the maximum (theoretically possible) emission in water (Wmax) for discharges in water;
For each emission species review levels established (H * SN, LSN and WSN) that are supposed to represent the SN (see parts 3.3.4, 4.3.4, 4.4.4).
Review shall be carried out separately for each type of emission: – for external radiation is the calculated H * max checked against H * SN – for discharges in air is the calculated Lmax tested against LSN – for discharges into water is the calculated Wmax tested against WSN for species for which the toetsingniveau is exceeded, reference is made to part II, further analysis.

2.3. Distinction sealed sources, appliances and Open sources In this calculation rules are based on the possible emission types two flowcharts used: one for the category of sealed sources and devices (part 3) and one for the category Open sources (part 4).

3. Flow chart sealed sources and devices 3.1. General this chapter provides rules for the external radiation from devices and sealed sources, but the same calculation methodology also applies to the external radiation from open sources.
A device is an ionizing radiation emitting device as defined in article 1 of the nuclear energy Act. Means a device that ionizing radiation can emit and no radioactive substance, nuclear fuel or ore contains. For example, many devices are found in the medical sector (x-ray equipment for Diagnostics) and in materials research.
A sealed source is formed by radioactive substances that are embedded in or attached to solid support material or are surrounded by a housing of material with the understanding that either the backing material either the housing offer enough resistance in normal conditions of use, any dissemination of radioactive substances.
In practice, this means that the standard as described in ISO 2919/2012 must be met. Sealed sources come in wide variety and are for many purposes. In the industry they are used in devices for measurement and control purposes and in the medical field at radiation equipment.
At appliances and sealed sources is assumed to be only one belastingspad, namely the external radiation released during use. Additionally, this part was adopted (see also section 2.1) that only the existence of x-rays and gamma radiation and that modeling can be spoken by a point source (see footnote 7 in part 2.1) for which the kwadratenwet applies.
The flow chart in Figure 3.1 is given for the calculation, according to the rules described in this chapter, the dose for this load path and.
The following pieces of this part the notes to each of the steps of the flow chart.
In the sequel, ' radiation source ' means that which emits radiation, namely: a device, or a sealed source, whether or not in the form of a device, or an open source figure 3.1 flow chart for calculating doses t.g.v. external radiation both from appliances and sealed sources, as from Open sources 2.0. Scope rules 3.2.1. Sealed sources and open sources Away If the dimensions of the source of radiation are large compared to the distance to the point where the dose is calculated, the kwadratenwet not be applied. The condition is [DOB02]: the point source approximation (kwadratenwet) is only applicable if the distance between the radiation source and the point for which the dose is calculated or (it dose point) is greater than 5 times the largest dimension of the radiant surface on the side of the dose point for shorter distances, reference is made to part II, further analysis.
Bundles by apertures by the presence of foreclosure or diaphragms around the radiation source (s), there is in practice no isotropic space distribution of the radiation, d.w.z. There is talk of a bundle. If the opening angle of the bundle is small, there has been a parallel beam in the middle of which the dose rate remains almost constant (apart from weakening by scattering in air) and for which the kwadratenwet cannot be applied. The condition is [DOB02]: In the center of a radiation beam is the kwadratenwet only applicable if the bundle is tangential, d.w.z. If the space angle (angle) within which the photons are released at least 10 °.
In the case of a smaller space corner, reference is made to part II, further analysis.

3.2.2. Appliances Bundles (x-ray) devices when using (x-ray) equipment is a bundle of photons (primary bundle) produced. If the opening angle in which the photons of the primary bundle release is small, there has been a parallel beam, almost in the middle of which the dose rate remains constant (apart from weakening by scattering in air) and for which the kwadratenwet cannot be applied. The condition is [DOB02]: In the center of the kwadratenwet a primary radiation beam is only applicable if the bundle is tangential, d.w.z. If the space angle (angle) within which the photons are released at least 10 °.
If there is a smaller space corner, reference is made to part II, further analysis.
After weakening and scattering of the primary bundle by an object (a wall or a patient) creates a diffused beam. If the incident is tangential, will also bundle for the scattered bundle, starting from some distance from that voorwerp29 the kwadratenwet apply. The condition is [DOB02]: In a scattered radiation beam is the kwadratenwet only applies if the incident beam is tangential and if the dose rate is calculated for distances greater than 1 meter behind the affected object by the incident beam.
If there have been shorter distances or of dose determination in a different directions than behind the object, reference is made to part II, further analysis.

3.3. external exposure dose 3.3.1. General for the purpose of calculating the effective dose caused by external radiation Eext (the external exposure dose) at this calculation rules in first approximation used the ambient dose equivalent H * (10) [μSv/h].
In section 3.3.3 is H * (10) to the site boundary calculated, assuming the omgevingsdosisequivalenttempo at one point (dose point) located r away from the source. For this are often factory data or measurements available. If these are not available, can be calculated according to the methodology indicated in section 3.3.2.

3.3.2. calculation omgevingsdosisequivalenttempo sealed sources and open sources The omgevingsdosisequivalenttempo in a point (dose point) located at distance r [m] of a sealed source or a certain amount of radioactive substance can be calculated with the following formula: where: = omgevingsdosisequivalenttempo on distance r from the radiation source [µSv/h] A = activity of the source of the regarded radionuclide [MBq] h = source constant for the regarded radionuclide in non shielded source based on the ambient dose rate (see Appendix A) [µSv. m2/(MBq. h)] r = distance between source and dose point [m] O = transmission factor for the regarded radionuclide of fixed or not easy movable shielding between source and dose point The omgevingsdosisequivalenttempo around Appliances appliances is determined by performing a factory, or on the basis of measurements.
At appliances is generally the primary bundle produced by shelling of a target. For the determination of the distance r [m] between radiation source and dose point should then, if conservative approach, to be assumed that the radiation source is located on the site of the target.

3.3.3. Calculation of the maximum ambient dose equivalent to the site boundary (H * max) as already indicated in section 3.3.1, the calculation of the external exposure dose based on the ambient dose equivalent which is in principle an overestimation. In the following paragraphs is the (small) overestimate ambient dose equivalent H * is neglected and (10) calculated.
The value of the annual ambient dose equivalent to the site boundary summoned about all relevant nuclides (or in the case of types of radiation appliances) is H * max.
If the measured, calculated or by the specified value of the omgevingsdosisequivalenttempo factory on a dose point on r [m] away from a radiation source is equal to

and to the kwadratenwet of the application site boundary, then H * max are calculated using the formula: where: H * max = ambient dose equivalent in a year at the site boundary as a result of the radiation source [µSv] = omgevingsdosisequivalenttempo on the dose r-point as a result of the regarded radionuclide or radiation kind [µSv/h] r = distance between radiation source and dose point [m] l = distance between radiation source and site boundary [m] F = transmission factor for the regarded radionuclide or radiation kind of not easy movable shielding between dose point and site boundary
T = number of hours in a year that the radiation source is in use [h] if different values for the omgevingsdosisequivalenttempo in different directions are determined, the value of H * max be calculated on the basis of which direction the highest ambient dose equivalent to the site boundary, with regard to the number of hours of use per belonging to this direction radiation source in a year.
If the source of radiation at different places within the location is used, then the value of H * max calculated on the basis of those places that, compared to the other, the highest omgevingsdosisequivalenttempo to the site boundary, on the basis of the number of hours of use at those places.
More than one source of radiation if more than one source of radiation within a location is present, for to regard point to the site boundary the ambient dose equivalent is calculated separately for each source and then the total H * maxverkregen by the contributions to VIKI.
The sources that rough estimated less than 1 µSv in a year at any point of the site boundary, not to be taken into account need at this summation.

3.3.4. Derived review level for external radiation (H * SN) for external radiation is determined on the basis of a review level that corresponds to an annual indoor ambient dose equivalent equal to the SN (10 µSv). In order to take into account the shielding at stay indoors, direct radiation from a (point) source, a weakening of the ambient dose equivalent outdoors by a factor of 4 (see section 6.5.2).
The review level for external radiation outdoors is equal to: 3.3.5. Review H * H * SN max to The calculated value for H * max should be assessed in the light of the secondary review level H * SN.
If: is the external radiation from the location deemed an external exposure dose smaller than the SN.
If this condition is not fulfilled, reference is made to part II, further analysis.

4. Flow chart open sources 4.1. General Any radioactive substance is considered to be open source if under normal conditions the release of radioactivity cannot be excluded. Therefore must take into account the possibility of exposure of nearby residents as a result of in the air or in the water dispersed radionuclides. In addition, there may be external radiation as is the case with appliances and sealed sources.
Example of uses of open sources is the use of radioactive materials in radionuclide laboratories, nuclear medicine and scientific research.
In Figure 4.1 is the flow chart for the calculation according to the calculation rules of the dose for the three types of emissions to know: • external radiation • discharges in air • releases into water, the following parts of this part the notes to each of the steps of the flow chart.
Figure 4.1 flowchart for Open sources 4.2. External radiation in the calculation according to the calculation rules of the maximum (theoretically possible) ambient dose equivalent (H * max) it is assumed that the open sources are to be regarded as point sources, for which the kwadratenwet can be applied.
The calculation shall be effected in the same way as for devices and sealed sources. For how these calculations are performed, see Chapter 3.

4.3. Discharge in air for the determination and assessment of discharges in air are the following steps: calculation of radio toxicity equivalent for inhalation of the discharged radionuclides (part 4.3.1);
calculation of the (corrected) maximum annual discharges (items 4.3.2 and 4.3.3);
determination of the review level (section 4.3.4);
review of discharges that (part 4.3.5).

4.3.1. calculation of the equivalent for inhalation toxicity (Reinh) radio One radio for inhalation toxicity equivalent (Reinh [Bq]) is the activity that when inhaled a committed effective dose of 1 Sv causes for an adult reference person. For each radionuclide i Reinh, i can be calculated according to which: Reinh, i = radio toxicity equivalent for inhalation of radionuclide i [Bq] einh, i = dose coefficient for inhalation of radionuclide i by adults [Sv/Bq] 30.
For a selection of relevant radionuclides are the calculated values of Reinh given in Appendix A.

4.3.2. calculation of the maximum annual discharge of each radionuclide (AL, i) based on the amount of radioactivity that in one year is used, the type of action (s) and the ability to spread, can for each radionuclide amount of activity the maximum theoretically possible (though, i [Bq]) are calculated that in a year in the air can be discharged. In the calculation of ALL, i shall be summoned on the different operations on radio nuclide and, by means of the correction factor CRL, i, take into account the possible cumulation of long-lived radionuclides in the environment.
The following formula applies: in which: AL, i = maximum (theoretically possible) discharge of radionuclide i in a year in air, corrected for accumulation in the environment [Bq] Ainkoop, i = amount of radionuclide i that in one year is purchased for a certain Act [Bq] pi = parameter for dissemination chance of radionuclide i to the considered Act, see table 4.1.
SI = effectiveness parameter for the filter system for radionuclide i, see table 4.2.
CRL, i = correction factor for discharges in air for the physical half-life of radionuclide i, see table 4.3.
Dispersion parameter p the probability and the degree to which a radionuclide in air spreads, bv in the fume hood or laboratory area and then comes out, depends on the properties of the substance or connection and the action that it be carried out. The values for the range parameter p derived from this distribution opportunity. In table 4.1 are the values that were entered in formula 4.2 should be used for a number of common actions. If the acts for which authorisation is requested should significantly deviate from this, an appropriate choice to be made from the values listed in table 4.1.
Table 4.1 Value of dispersion parameter p for certain acts within laboratory spaces.
Act p simple act with gases handling powders in ' open ' system for example mixing or grinding liquid with boiling point against Strong temperature spontaneous combustion operations – 4 Labeling with volatile nuclide (e.g. iodine) Cooking liquids in ' closed ' system spinning and mix on vortex easy editing of powders in ' closed ' system to the use of noble gas in Storage System – 3 Labeling with non-volatile nuclide provision with simple chemical tracers (eg. RIA) – 2 Short-term very simple wet work, such as pipetting a small volume of a non-volatile compound from a stock solution Simple work in ' closed ' systems such as: – Elution Tc-generator – pull up syringes – Labeling in closed systems – Calibration I-131 capsule Measurements to substances in difficult dispersible form (for example in ampoule) storage of radioactive waste in workspace – 1 parameter filter system s Effectiveness the possible presence of a filter in the discharge channel , can greatly affect the discharged amount of radioactivity. Depending on the effectiveness of such a filter for it regarded radionuclide, serve in the values listed in table 4.2 4.2 formula to be used. For the determination of the effectiveness of the filter can either be used either factory data measurements are carried out. If the effectiveness of the filter is not known, it is necessary to start from an ineffective filter (s = 0).
Table 4.2 value of the parameter s effectiveness by the filter system for the regarded radionuclide.
Effectiveness of the filtration system s Effectiveness ≥ 99.9% 99.99% 4 Effectiveness ≥ 99% ≥ 2 3 effectiveness Effectiveness ≥ 90% 1 Effectiveness < 90% (no filter or ineffective filter) 0 correction factor given the short time period between discharge and CRL inhalation, inhalation in air for the blootstellingspad by waste physical decay not expressly taken into account. To take account of the accumulation in the environment, is a correction factor (CRL) used depending on the physical half-life of that radionuclide. Specifies the disposal of long-lived nuclides heavier counted than the discharge of short-lived. In table 4.3 are the values of CRL that formula 4.2 should be used.
Table 4.3 correction factor (CRL) for discharges in air, depending on the physical half-life (T ½, fys) discharged nuclide.
Physical half-life T1/2, fys correction factor for discharges in air CRL T1/2, fys ≤ 25 years 1 T1/2, fys ≤ 250 years 10 T1/2, fys > 250 years 100 4.3.3. Calculation of the maximum annual emissions from a location (Lmax)

The relationship between all, i and Reinh, i gives, for each radionuclide, the maximum number of radio (theoretically possible) toxicity equivalents of that nuclide that in a year in air is discharged.
The maximum (theoretically possible) emission in air from a location (Lmax), expressed in number of radio toxicity equivalents, is obtained after summation over all radionuclides according to which: Lmax = maximum annual emissions in air from a location (expressed in number of Reinh), summoned about all nuclides ALREADY discharged, i = maximum (theoretically possible) discharge of a given radionuclide in a year in air [Bq] (see formula 4.2) Reinh , i = i for inhalation toxicity radio equivalent of radionuclide [Bq] 4.3.4. Derived review level for discharges in air (LSN) the discharged amount of radioactivity in the air will spread and so in (strong) decreased concentration the site boundary. Based on a conservative approach results in a dilution at least millions, depending on the distance between discharge point and site boundary.
The derived review level (LSN) is defined as the discharge, expressed in number of Reinh, which a inhallatiedosis to the site boundary the size of the SN (1 µSv) caused. In table 4.4, for different distances from the discharge point to the site boundary, the derivative review levels.
Table 4.4 Review levels for discharges in air (expressed in number of Reinh), which is believed to match up to a dose of the SN (1 µSv in a year) on the indicated distances from the discharge point.
Distances from the site boundary to discharge point on the building [m] Review level for discharge into the air, LSN distance ≤ 50 m 1 distance ≤ 150 m 10 meter > 150 m 100 4.3.5. Review Lmax to LSN value for The using formula 4.3 Lmax should be assessed in the light of the derivative toetsingniveaus LSN.
There are two situations as possible. The first is that involving one (effectively) discharge point. The second situation is that where there is a number of discharge points to consider that at different distances from the point of the site boundary are located.
In these two situations must be adhered to: 1) (effectively) One discharge point If the discharge is deemed a dose less than or equal to the SN.
If not, reference is made to part II, further analysis.
2) If more than one discharge point discharge into air can take place through more than one (effectively) discharge point, must, for each discharge point separate the value Lmax to be calculated taking into account the consumption per discharge point, the distance between discharge point and site boundary and the derived review level LSN.
Review shall be carried out on the basis of the following formula: Lmax only values greater than 0.1 (i.e. one tenth of the smallest review level), need to be involved at this summation.
If compliance with the above equation is the total discharge from the location shall be deemed a dose less than or equal to the SN.
If not complying with above equation is for discharges in air referred to part II, further analysis.

4.4. Discharge into water for the determination and assessment of discharges into water are the following steps: calculation of radio toxicity equivalent for ingestion of the discharged radionuclides (part 4.4.1);
calculation of the maximum annual discharges (sections 4.4.2 and 4.4.3);
establishment of the review level (section 4.4.4);
review of discharges that (part 4.4.5).

4.4.1. calculation of the toxicity equivalent for ingestion (Reing) radio One radio toxicity equivalent for ingestion (Reing [Bq]) is the amount of activity that ingestion a committed effective dose of 1 Sv causes for an adult reference person. For each radionuclide i Reing can be calculated according to which: Reing, i = radio toxicity equivalent for ingestion of radionuclide i [Bq] eing, i = dose coefficient for ingestion of radionuclide i by adults [Sv/Bq] 31.
For a selection of relevant radionuclides are the calculated values of Reingin Appendix A.

4.4.2. calculation of the maximum annual discharge of each radionuclide (Aw, i) based on the amount of radioactivity that in one year is used, the method of processing and the ability to discharge into water, can the maximum theoretically possible for each radionuclide amount of activity (AW, i [Bq]) are calculated that in a year in water can be discharged. In the calculation of AW, IIS summoned about the different acts of the appropriate radionuclide and is, by means of the correction factor CRW, i, take into account the possible cumulation of long-lived radionuclides in the environment.
The following formula applies: in which: AW, i = maximum (theoretically possible) discharge of radionuclide i in a year in water, corrected for accumulation in the environment [Bq] Ainkoop, i = amount of radionuclide i that in one year is purchased for a certain Act [Bq] Zi = correction factor for excretion of patients, see table 4.5 Vi = correction factor for risk of discharge at the sewer , see table 4.6 Wi = correction factor for excretion of laboratory animals, see table 4.7 si = effectiveness parameter for the filter, or tank system for radionuclide i, see table 4.8 CRW, i = correction factor for discharges in water for the physical half-life of radionuclide i, see table 4.9.
The parameter values for Z, V and W are dependent on chemical or metabolic properties of the substances in question and of the Act for which they are used.
For the determination of the values can either be used (rather) research results, measurements shall be made either. In the absence of data or if the correction factor does not apply, regard must be had to a value of 1.
Correction factor for excretion of patients Z when administering radiopharmaca to patients will void a (large) part of the activity in the body, but also will radionuclides after shorter or longer time through excretions are excreted and discharged to the sewer. To take account of the effective excretion is a radiopharmacon and toepassingafhankelijk correction factor Z (table 4.5) worked that indicates which part of the administered activity still during the stay in the location (usually the hospital) is excreted and discharged to the sewer.
In table 4.5 are the values that should be used for the formula 4.7 different types of excretory behavior of the radiopharmaca.
Table 4.5 value of the correction factor Z for regarded the activity of the radionuclide, administered to patients, who on the sewer of the location is discharged.
Part of the administered activity within the location is excreted and discharged to the sewer (including physical decay) Z Administration to patients is not applicable 1 Discharge ≥ 50% ≥ 10% 0.5 1 Discharge Discharge Discharge 0.1 0.01 ≤ 1% ≥ 1% Outpatient Administration (d.w.z. resigned from the hospital directly after administration) 0 correction factor for risk of discharge at the sewer V Some radionuclides are located in such a form that can be reasonably assumed that this not through the water drain in the sewer will (for example, fixed, not soluble substances or gases); other substances will easy (er) soluble and so wegspoelbaar. Therefore, there is also a correction factor V (table 4.6) that in the formula should be used and that the number of 4.7 indicates on the disposal of it regarded radionuclide on the sewer.
Table 4.6 value of the correction factor V for risk of discharge at the sewer of the regarded radionuclide.
Chance of discharge on the sewer V Substances in non dispersible form all other substances, gases 0 0.1 correction factor for excretion of laboratory animals W at ministering to experimental animals are partly absorb the feces (solid waste) and not on the sewage discharged; some droppings are washed away. A correction factor W (table 4.7) that should be used in formula 4.7 and indicating which part of the administered activity on the sewer of the location is discharged Table 4.7 value of the correction factor W for the activity of the regarded radionuclide, administered to laboratory animals, which on the sewer of the location is discharged.
Part of administered activity that on the sewer of the location is discharged W Administration to experimental animals does not apply 1 Discharge ≥ 10% 1 1% 1% Discharge ≥ 0.1 0.01 Effectiveness parameter filter Discharge < or tank system s the possible presence of a water purification filter in the discharge channel or a (decline) tank in which the radionuclides discharged stay some time before they are discharged to the sewer , can greatly affect the discharged amount of radioactivity. Depending on the effectiveness of such a filter or tank system for the regarded radionuclide values referred to in table 4.8, 4.7 in formula to be used. For the determination of the effectiveness of the filter, or tank system can either be used either factory data measurements are carried out. If the effectiveness of the system is not known, it is necessary to start from an ineffective system (s = 0).
Table 4.8 value of the effectiveness of the filter parameter s or tank system for the regarded radionuclide.
Effectiveness of water treatment or filter tank system s Effectiveness ≥ 99.9% 99.99% 4 Effectiveness ≥ 99% ≥ 2 3 effectiveness Effectiveness ≥ 90% 1 Effectiveness < 90% (no or ineffective filter or tank) 0 correction factor CRW

To take into account the radioactive decay and accumulation in the environment is a correction factor (CRW) uses depending on the physical half-life of that radionuclide (see table 4.9). Specifies the disposal of long-lived nuclides heavier counted than the discharge of short-lived. In table 4.9 CRWi values that use should be.
Table 4.9 correction factor (CRw) for discharges in water, depending on the physical half-life (T ½, fys) discharged nuclide.
Physical half-life T1/2, fys correction factor for discharges in water CRW T1/2, fys ≤ 5 days 7.5 days, fys 0.001 T1/2 ≤ 0.01 T1/2, fys 0.1 T1/2 ≤ 15 days, fys ≤ 25 years 1 T1/2, fys ≤ 250 years 10 T1/2, fys > 100 250 years 4.4.3. Calculation of the maximum annual emissions from a location (Wmax) the ratio between AW, i and Reing, i gives, for each radionuclide, the maximum number of radio toxicity equivalents (theoretically possible) that in a year in water is discharged.
The maximum (theoretically possible) emission in water from one location (Wmax), expressed in number of radio toxicity equivalents is obtained after summation over all radionuclides according to: where: Wmax = maximum annual emissions in water, from a location (expressed in number of Reing) summoned over all nuclides discharged AW. I = maximum (theoretically possible) discharge of radionuclide i in a year in water [Bq] Reing, i = radio toxicity equivalent of radionuclide i for ingestion [Bq] 4.4.4. Derived review level for discharges in water (WSN) the radioactivity on the sewage discharged will not reach the population directly, but only after (long-term) stay and distribution in the environment. Based on a conservative approach results in a dilution with at least a factor of 108.
The derived review level (WSN) is defined as the discharge, expressed in Reing, which, according to this approach, an ingestion dose the size of the SN (1 µSv) caused.
Since the ingestion dose resulting from a discharge in homogeneous distributed water is supposed to be over a large area, WSN not depending on the distance between discharge point and site boundary (this is in contrast with what applies to discharges in air and LSN).
The value of the derivative review level for discharges in water (WSN), expressed in Reing, is as follows: WSN = 100 4.9 4.4.5. Review The Wmax to WSN using formula 4.8 obtained value for should be assessed in the light of the derived toetsingniveau Wmax WSN.
It is believed that a location from all discharge points at the same sewer discharges, making for discharges in water is not needed to perform some calculation per discharge point (this is in contrast with what applies to discharges in air).
If Wmax/WSN ≤ 1 4.10 is the discharge shall be deemed a dose less than or equal to the SN.
If not, reference is made to part II, further analysis.

Part II:. Further analysis 5. Flow chart and method for further analysis 5.1. Flow chart as mentioned in part 1, in those cases where the calculation rules from part I are not sufficient, a further analysis to be conducted. That is the case if: • non-compliance with the terms of part 2.1 (see also section 3.2), • one or more toetsingsniveau's are exceeded (see parts 3.3.5, 4.3.5 and 4.4.5).
The implementation of this further analysis takes place as shown in the flow chart in Figure 5.1.
In General will in implementing more experience and knowledge of the underlying models are needed than in the application of the calculation rules from part i. the reports ' dose calculation for the environment at Licensing ionizing radiation (DOVIS) part a: discharges to air and water ' DOVIS-A [DOA02] and ' dose calculation for the environment at Licensing ionizing radiation (DOVIS) part b: external radiation ' DOVIS-B [DOB02] should be used for the implementation of further analysis.
The methodology for the further analysis is based on a number of assumptions, e.g. on the particle size-distribution of inhaled radionuclides or the transfer factors (see [DOA02] and [DOB02]). If different assumptions are used in the considered situation, submit it to the application for authorisation to be motivated.

5.2. Overview of the methods 5.2.1. To consider setting emission emission types and size for each emission species for which the calculation rules from part I are not applicable, please state the analysis should be performed to calculate the dose in the area.
Determining the size of each emission emission kind (so the size of the discharge or ambient dose equivalent) for which a more detailed analysis can be determined in two ways: • the size, if that does not lead to an underestimate, equated to the maximum discharge or (for external radiation) the maximum ambient dose equivalent as in part I calculated (see formulas 3.3, 4.4 and 4.10) or • a realistic calculation made according to [DOA02] and [DOB02] of the annual emissions for each emission point , based on own measurements or on factory data. Measurements must be carried out in accordance with appropriate standards or standards of the Dutch Standardization Institute (NNI), or, in absence thereof, in accordance with DIN, ISO or CEN standards. The emission points of the same size for different emission emission kind are summoned.
If the number of number of radionuclides radionuclides and their possible daughters is very large, the further analysis can be limited to a representative selection from that (daughter) nuclides. The choice ought to be substantiated (e.g. through research).
External radiation all relevant radiation types and energies should be involved in the further analysis; in practice will be mainly for environmental aspects of gamma-and x-ray radiation.
Regular and occasional discharges At the calculations are both regular emissions as potential emissions. The latter are unintended and unwanted events, which provide, however, is that these still occur one or more times in a year and that the authorisation therefore is taken into account.
Figure 5.1 flow chart for the calculation methodology at ' further analysis ' continuous vs pulsed discharge in the case of a pulsed or otherwise non-continuous emission (for example, discharges into water after temporary storage in tanks to check the activity discharged) must, if not it can be justified that the consequences will significantly differ from a continuous emission, of a continuous emission shall be uitgegaan32. As annual emission is the sum taken from all pulslozingen in a year.
Filter systems and decay tanks for the determination of the discharge may be taken into account in use size installations aimed at purification of emissions, for example with filter systems in a sewer or chimney or with expiry tanks.
Zuiveringslib, dredged material If a material (such as zuiveringslib or dredging spoils) due to not accidentally discharges increased radioactivity, the resulting doses are, allocated to the lozende source.

5.2.2. dissemination and contamination in the environment on the basis of the calculated emissions for the infection of all relevant environmental compartments and of any food products (fish, cattle, agriculture) determined, and the thereby caused radiation levels in the environment.
For the calculations for air discharges and water discharges refers to DOVIS-A [DOA02]. Describes the calculation of distribution and deposition of radioactive substances in the environment are discussed as well as the calculation of the doses that the result.
For the calculations for remote radiation refers to DOVIS-B [DOB02]. Describes the calculation of external radiation dose discussed from a (shielded) source discussed.

5.2.3. tax trails at a closer analysis of a certain kind of tax should in principle all possible emission paths to be considered. However, depending on the circumstances, some will play a more important role than other tax paths and it will usually be possible to neglect some load paths.
DOVIS-A gives for air and water discharges to what paths are and are not relevant and which models, parameters and parameter values at the detailed Analysis should be used. Comparable data related to external radiation can be found in DOVIS-B [DOB02].

5.2.4. cumulation in time and to consider long-term time horizon will discharge the contamination in the environment, among other things by dispersion, deposition, cumulation, decay and ingrowth of daughter nuclides, change over time.
The contamination in the environment should always be calculated for the situation that after 25 years of continuous discharge is reached, even if there are still no equilibrium is reached. If it is established that a source a shorter time is present, that shorter period may be used.

6. determination of the effective dose 6.1. General on the basis of the calculated contamination of environment and food products, the effective dose calculated for the reference persons.

In this chapter, we will focus on the method of calculating this dose and on a number of concepts that play a role in. In part 6.2 discusses the question of which routes of exposure should be taken into account in the calculation; the reference group is defined in section 6.3, d.w.z. the behavior is defined by the persons to whom the dose should be calculated; in part 6.4 dose models are discussed and finally in part 6.5 illustrates how the multifunctional individual dose (MID) and the current individual dose (AID) should be calculated.
The parameter values (such as the dose coefficients) are given in annex 1.4 of this arrangement.

6.2. exposure the main ways in which human exposure can take place are: via submersie and external exposure, inhalation, ingestion. A further subdivision is possible to load path and as shown below.
External exposure external exposure when calculating the dose should, where relevant, take into account the following load paths: • radiation from a point source, • radiation from a large surface area, • radiation from contaminated soil (groundshine), • on the air reflected radiation from a radiation source (skyshine), • radiation from an infected cloud (cloudshine) Inhalation in the calculation of inhalation dose resulting from the inhalation of radioactive materials in air , account must be taken of • dissemination, decay and ingrowth of daughter nuclides of radioactive particles discharged into air, and, as far as can be expected, with a relevant dose contribution • resuspension • ' coastal spraying ' (i.e. fine water mist submitted by sea) At Submersie at infected air, where relevant, should also take into account the possibility of inclusion of radioactive substances through the skin and by submersie. Submersie is particularly relevant if the radionuclide noble gases present in air.
Ingestion in the calculation of ingestion dose resulting from the inclusion in the body of radionuclides through drink and food, account must be taken of the infection of: • agricultural products • products • fish products • drinking water (including tap water) it is necessary to take into account contamination of crops as a result of: • direct deposition of radioactivity from the air (interception), and • uptake through the roots of radionuclides present in the soil 6.3. Reference person and behavior and critical group the reference person is the (hypothetical) entity for which the dose for a particular emission type and load path and is calculated. For the reference person are assumptions made regarding behavior (reference behavior) and physiological parameters. The reference behavior is the behavior that, given a certain contamination in the environment, to the reference exposure. The concept of behaviour keeps all life habits in: living, working, eating, etc. In determining the reference be conservative, but realistic behavior, assumptions done. Because ' extreme ' behavior or behavior of an individual is not considered, the term reference person is often replaced by the reference group.
For different emission types and tax trails will typically be considered different reference groups.
A critical group always belongs to a particular source or location. It is the reference group that receives the highest individual dose due to all regarded emission types together.
External exposure for the calculation of external exposure dose in a given location, it is assumed to reference persons who live and who on that location 24 hours a day throughout their lives in or near the House, and with a certain degree of shielding.
The critical group in relation to external exposure will therefore consist of reference persons who reside at the place where the ambient dose rate as a result of the considered the highest source or location. That will generally reference persons are those to the site boundary.
Inhalation for the calculation of inhalation dose on a particular location, it is assumed to reference persons who live and who on that location 24 hours a day throughout their lives in or near the House. The air concentration indoors is supposed to be the same as the calculated air concentration outside the home.
Furthermore, it is assumed to be an annual 8,300 m3 air inhalation of breath, corresponding to the flow rate of a grown man those quiet work done.
The critical group related to inhalation, so will consist of reference persons who reside at the place where the air concentration as a result of the considered the highest source or location. This will generally reference persons to or near the site boundary.
Submersie For the calculation of the submersiedosis on a particular location, is, as with inhalation, based on reference persons who live and who on that location 24 hours a day throughout their lives in or near the House. The air concentration indoors is supposed to be the same as the calculated air concentration outside the home.
The critical group related to submersie, so will consist of reference persons who reside at the place where the air concentration as a result of the considered the highest source or location. This group will be the same as for inhalation and will generally consist of reference persons to or near the site boundary.
Ingestion for the calculation of ingestion dose in a given location, it is assumed to reference persons who are a part of their food from their own public-or vegetable garden food, which is located at that location, and the rest of their food purchases elsewhere.
For the foods that are purchased, a certain amount of mixing of more or less contaminated products adopted. On this basis, the average radioactiviteitsconcentratie for the particular food products is calculated in a range of 30 km around the source (food area). For the provenance of the food package are the following assumptions apply: • leafy vegetables – half from private vegetable garden – half from the food area • animal husbandry and arable products – from the food area • fish products – on visbekken (it adopted cause complete mixing) Furthermore, it is assumed to be the average annual consumption of foods of an adult male (see table 6.1).
Because the ingestion dose only partly regional, can generally not be said with certainty from which persons the critical group for ingestion. However, this will often consist of those individuals who have a vegetable garden there, where the deposition radioactive substances on plants (interception) is the highest, or where the concentration of radioactive substances in the soil the highest is. With regard to ingestion of fish, however, will the average Dutch population.
Table 6.1 average annual consumption (for average Dutch grown man) that should be used for regular discharges (TN94).
Food products average annual consumption kg/a or l/a Grains bread, cake etc 71 43 Rice potatoes 6 root vegetables cooked raw leafy vegetables 7 1 4 3 raw Vegetables cooked Excl. tubers and leafy vegetables cooked raw legumes 24 8 3 fresh fruit native exotic fruit preserves 19 17 8 milk (products) fresh Cheese can be kept 114 23 10 23 10 5 Eggs beef pork Chicken ed 6 veal 0.5 other/mixed meat 5 sea fish 3 freshwater fish 0.5 0.5 seafood Soups 26 Oils savory sauces, fats and 264 16 coffee and tea fruit and vegetable juices 20 soft drinks, beer alcoholic drinks, excl. Beer 12 169 Miscellaneous 39 6.4. Individual effective dose (ID) 6.4.1. For each route of exposure is generally on the basis of the radioactivity and/or radiation present in the environment, the annual contribution calculated individual effective dose (ID). This is the dose that an individual can received by unprotected 24 hours a day to the source to be exposed. In the following sections (6.4.2. t/m 6.4.5) is briefly indicated how the external exposure dose Inhalation dose IDinh, IDext, IDsub and the submersiedosis the ingestion dose IDing are to be calculated. These serve as a basis for the calculation of MID and AID (see sections 6.5.2 and 6.5.3.).

6.4.2. external exposure for a detailed description of the calculation methodology for the external exposure dose refers to DOVIS-B [DOB02].
The IDext is calculated on the basis of the external exposure dose dose rate. The general rule is: where: IDext = external exposure dose in a year [Sv/a] = effective dose rate [Sv/h] text = duration of exposure in a year [t/a] for the calculation of IDext is assumed to be uninterrupted stay on site and no protection by clothes, House etc. (please refer to the calculation of the MIDext, section 6.5.2). The duration of exposure text is equal to the number of hours per year that the source is present and the effective dose rate.
The effective dose rate depends on the energy emitted and, among others, of the source geometry, the distance from the source and any foreclosure. For the calculation of the dose rate, for the different load paths (point source, soil contamination, etc.), conversion coefficients calculated and tabulated (see [DOB02]).

6.4.3. Inhalation

For a detailed description of the calculation methodology for the inhalation dose refers to DOVIS-A [DOA02].
On the basis of the calculated concentration of radionuclides in the air (according to DOVIS-A) can the effective annual dose inhalation IDnh as a result of a continuous discharge are calculated according to the following formula: where: IDinh = effective inhalation dose in a year [Sv/a] CL = concentration in air [Bq/m3], of the regarded radionuclide calculated according to Iinh DOVIS-A = yearly breath flow rate of an adult male that light work done [m3/a] einh = dose coefficient for inhalation [Sv/Bq] of the regarded radionuclide by adults (see Appendix A , table a.1) In Appendix A, table a.1 are the dose coefficients einh [Sv/Bq] from [BS01] recorded for a number of (common) radionuclides.
In the event that the above mentioned and tabulated einh inapplicable, the dose calculation be carried out in accordance with the recommendations as indicated in Appendix A, table a.1.
Resuspension and coastal spraying for exposure as a result of resuspension and coastal spraying, where relevant, reference is made to DOVIS-A.

6.4.4. Submersie the presence of radionuclides in the air can also result in a submersiedosis, particularly in the case of noble gases. On the basis of the calculated concentration of radionuclides in the air (according to DOVIS-A) can the effective annual submersiedosis IDsub as a result of a continuous discharge are calculated according to the following formula: where: IDsub = effective submersiedosis in a year [Sv/a] CL = concentration in air [Bq/m3] of the regarded radionuclide calculated according to tsub DOVIS-A [DOA02] = duration of exposure in a year [t/a] esub = dose coefficient for submersie [(Sv/h)/(Bq/m3)] of the regarded radionuclide (see Appendix A , table a.1) In Appendix A, table a.1 are the dose coefficients esub [Sv/Bq] from [BS01] recorded for a number of (common) noble gases.
For the calculation of Esub is assumed to be continuous at spot (tsub = 8,760 hours in a year).

6.4.5 Ingestion for a detailed description of the calculation methodology for the ingestion dose refers to DOVIS-A [DOA02].
On the basis of the calculated concentration of radionuclides in the different food products (according to DOVIS-A) can the effective annual ingestion dose IDing as a result of consumption of food are calculated using the following formula: in which: IDing = effective ingestion dose in a year due to consumption of food [Sv/a] Cv = concentration of the regarded radionuclide in the regarded food product [Bq/kg] or [Bq/L] calculated according to DOVIS-A [DOA02] Iing = annual consumption of the regarded food product (table 6.1) [kg/a] or [ l/a] eing = dose coefficient for ingestion [Sv/Bq] of the regarded radionuclide by adults (see Appendix A, table a.1) In Appendix A, table a.1 are the dose coefficients eing [Sv/Bq] from [BS01] recorded for a number of (common) radionuclides.
In the event that the above mentioned and tabulated eing inapplicable, the dose calculation be carried out in accordance with the recommendations as indicated in Appendix A, table a.1.

6.5. calculation of MID (Multipurpose individual dose) and AID (current individual dose) 6.5.1. General Under multifunction individual dose (MID) is defined as the dose resulting from the use of an area outside the location in such a way that this gives rise to the highest possible dose. The MID is separate from the actual use of that area at any time and takes into account the possible (future) uses. It is thus about the dose for a critical group which, although currently possible even does not exist, but whose existence can be considered in the future cannot be ruled out. In general the use of an area for normal habitation to that highest possible dose. MID is calculated on that basis (see section 6.5.2).
For the calculation of the actual individual dose (AID) is for some dose contributions the current actual use of the area be considered (see section 6.5.3). Starting point remains that all of the features of the environment for the future need to remain as possible and so that there is no too high (long-term) infection in the environment takes place. In other words, the actual use of the environment (the actual existence of the critical group) only plays a role for those tax paths, which do not give more exposure once the source no longer causes emissions.
For the calculation of MID and AID is based on the calculated individual dose contributions (ID) for the different exposure routes and load paths (see section 6.4). For both MID as AID is the calculation from a sum of (adjusted) individual dose contributions. However, other or additional correction factors for AID be applied than for MID. as further elaborated in part 7, for the assessment under the Secondary level is calculated for each emission species MID separately. For the assessment under the location limit is the total AID.

6.5.2. calculation of multifunctional dose MID MID gives the dose for this (potential) residents of the surroundings of a source and is composed of contributions of the various exposure roads which is typically the most important are: external exposure dose dose (MIDinh) (MIDext), inhalation, ingestion dose (MIDing). In the case of noble gases can also be the submersiedosis (MIDsub) play a role.
Multifunctional external exposure dose and afschermingfactoren in the calculation of the external exposure dose for potential residents of an area is continuous exposure assumed and foreclosure by the property itself (see section 6.3).
The value for onafgeschermd at the outdoor air (IDext, see section 6.4.2), is multiplied by a factor that takes into account the shielding provided by the House itself. On the basis of a global estimate of the shielding by a standard home for gamma rays of different energies and different kinds of sources, the value of the afschermingfactor set at 0.25: where: MIDext = annual external exposure dose at habitation, or multifunction external exposure dose [Sv/a] IDext = annual external exposure dose for onafgeschermd at [Sv/a] (see formula 6.1) for the purposes of calculating MIDext the critical group is the group that lives on the location where the effective dose rate is the highest.
Multifunctional Inhalation dose as indicated in part 6.3, is, in the calculation of inhalation dose for the reference group continue at assumed, and does not take into account additional shielding by the House (the concentration indoors is the same as outdoors). The multifunctional Inhalation dose is equal to the inhalation dose IDinh (see section 6.4.3, formula 6.2): for the calculation of the critical group MIDinh is the group who lives at the location where the air concentration is highest.
Multifunctional submersiedosis in a similar way, the multifunctional submersiedosis MIDsub with the submersiedosis IDsub (see section 6.4.4, formula 6.3): for the calculation of the critical group MIDsub is the group who lives at the location where the air concentration is highest.
Multifunctional ingestion dose in the calculation of the multifunctional ingestion dose is the eating behaviour of the reference group as indicated in part 6.3 adopted. In particular: • consumption of half of the leaf vegetables from the kitchen garden • visbekken • consumption consumption fish products mixed from relevant, if a de facto existing drinking water drinking water-inlet in the food area.
• consumption of other food products mixed from food area in the calculation of the radionuclide concentration in the different products (Cv) and so also the relevant dose MIDing contributions (see formula 6.4) shall take into account the above averaging about so-called food areas (see section 6.4): for the calculation of the critical group MIDing is the group that has a vegetable garden at the location where the deposition radioactive substances on plants (interception) is the highest , or where the concentration of radioactive substances in the soil is the highest. In the event of contamination of fish by discharges in water may be the critical group of the Dutch population.
Summation doses of different load paths for the calculation of the MID for the critical group belonging to the individual source or location regarded dose contributions connected with the different emission types, the different paths and different tax exposure roads be added together if they have the same reference persons (can). The group for which the total dose of the highest, the critical group. At the summation should the contributions that rough estimated less than 0.1 µSv in a year amounts are omitted.
The critical group for the calculation of emissions for one type of MID (the group for which the calculated MID the highest is) cannot be defined in advance. For discharges in air, the critical group mostly consist of people who live at the location where the air concentration is highest and also use a vegetable garden near the House. This should be possible at all times.
In summary, for each emission species for which a more detailed analysis, the calculation of the multifunctional individual dose (MID) place by following these steps:

1 calculation of the individual dose contributions per load path and (section 6.4);
IDext, IDinh, IDsub, 2 computation of IDing (section 6.4) where applicable;
MIDext, MIDinh, MIDsub, 3 computation of MIDing, (see above) where applicable;
4 calculation of MID MIDext + MIDinh + MIDsub according to: MID = + MIDing 6.9 for monitoring the SN is separately for each emission species the maximum value of MID (the dose for the critical group).

6.5.3. calculation of the actual dose AID the calculation of the actual dose AID is necessary only for the secondary emission species for which MID level exceeds.
If there is any living or, having regard to the zoning plan, habitation possible, AID equal to MID. If there is no habitation (and this according to the zoning plan also is not possible), then be included in the calculation of AID other or additional correction factors applied to MID. AID will in this case smaller than MID. The calculation of AID shall be analogous to that of MID However, for those individual dose, where contributions are not the result of persistent infection of the environment, taking into account the actual current use of the area. The dose eligible contributions resulting from contamination in the air (such as inhalation) or the presence of a bright fixed source. For these contributions is supposed that they no longer exist if the source does not cause more emissions.
For the dose contributions be the result of a persistent infection of the environment (for example, of contamination of the ground) the calculation is performed as for the multifunctional dose MID. These contributions linger even after the source no more emissions caused.
In practice, only the following site-specific dose contributions are corrected to take account of the actual current use of the location: 1 external exposure dose from a fixed source (not from the ground) 2 external exposure dose from the inhalation dose air 3 4 submersiedosis Current exposure correction factors (ABC-factors) the above mentioned doses are directly proportional to the exposure duration. If there is not lived on site, the actual exposure duration shorter than at habitation. In order to take this into account is a correction factor applied, the actual exposure correction factor (ABC factor).
In table 6.2 are the ABC factors given for different destinations. For each situation must be regarded the indicated value to be used. If the actual use not covered by the categories set out in table 6.2, an appropriate choice to be made from the values listed in the table.
Addition dose contributions of different load paths for the calculation of emissions for one type of AID the relevant corrected and uncorrected individual dose contributions connected to the different load paths and roads be added exposure if they the same reference persons (can) treffen summation may the contributions that rough estimated less than 0.1 µSv due to discharges and 1 µSv due to external radiation in a year amounts are omitted. In table 6.3 is indicated for each dose contribution which should be applied to the current correction dose to calculate AID.
To sum up, the calculation of the actual emissions for one type of individual dose (AID) takes place through the following steps: 1 calculation of the individual dose contributions per load path and (section 6.4);
2 establish (partly on the basis of the destinations listed in table 6.2) of the actual use of the location for which the dose is calculated;
3 multiplication of the calculated values with the corresponding correction factor (see table 6.3);
4 addition of the corrected and uncorrected dose contributions;
To substantiate reasonable criterion for the considered emission species (see section 7.2.1), the maximum calculated value of AID. For cross-check with the location limit is then calculated the total AID (see section 7.2.2).
It should be noted that in addition of corrected and uncorrected dose contributions the calculated AID received no actual dose is. The calculated value indicates an overestimation of the currently received dose (if there is no habitation), and also gives them a conservative indication of the future ' inevitable ' dose as a result of persistent infection of radionuclides in the environment.
Table 6.2 Topical exposure correction factors (ABC-factors) for different environmental destinations, t.b.v. the calculation of the AID contribution for: external exposure from a fixed source and from the air, inhalation and submersie (see text).
Environmental destination – category ABC factors *) road transport 0.001 0) Water area intended for (main) 0.01 1) professional shipping ports for passers 0.03 2) marinas and fixed berths for commercial shipping and allotments 0.2 0.1 3) camping sites 4) day recreation area (park, Woods, dunes, water, beach), so no campsites 0.03 5) 0.01 6) motorway car park, other main (City) roads, not through roads not directly adjacent to residential area and roads within industrial areas 0.01 7) Not through road along the source , directly adjacent to residential area (children playing), Taxi rank 8) 0.1 0.01 Pasture or arable 9) Neighbouring industries, institutions, office buildings etc, without habitation 0.2 10) 11) *) if the source generally not in operation 24 hours a day, will have to be corrected where appropriate; If the source is a certain exposure per year, but only during working hours, can not be used for correction (work) at time 0) under the assumption that the normal applicable transport provisions continue to apply 1) a crew of one boat will sail along with never more than 3.6 total days per year at the height of a source stay with Moor at a site applies the ship as part of the site and apply so the labour standards for that site except where it concerns a houseboat 2) the at times at one source will typically not more than 12 days per year (1/30th year) 3) In marinas etc tarries one generally not more than a total of approx 1 month per year. In allotments are staying one generally only during the day 4) On stay many camping sites throughout the summer period 5) sailing, swimming, fishing and sunbathing day recreation will no longer than 8 hours per day for 30 days a year take place exactly at a certain source or establishment 6) a person will under normal use no longer than a total of about 15 minutes a day on a car park to stay 7) Even on a highway with frequent traffic jams – for example for the Coen tunnel – will be a passant averaged over a year never have more than 15 minutes a day just for that one source or establishment. This is also true for continuing (City) roads 8) On a sidewalk in a residential area can someone theoretically for some time per day – for example, children playing. This can, in principle, play outside all year round, not just on days with pleasant weather, which generally applies to recreational areas 9) a farmer will never the whole work time near the site boundary, but in the whole region. In addition, he averaged only 8 hours a day out of 10) the current working time is only approx. 1,800 hours, i.e. 1/5 of a year 11) if the work usually within must in this case both the ABC factor as the afschermingfactor (see section 6.5.2) used Table 6.3 Type correction factors with which the calculated individual dose contributions for the different load paths are multiplied to determine the actual dose AID.
Dose contribution correction no corr.
 
ABC factor a) remov. factor b) c) local bound: external exposure dose from a fixed source • • d) external exposure dose from the air • external exposure dose from the ground • Inhalation dose • submersiedosis • ingestion dose products from our own vegetable garden • local not bound: ingestion dose foods from food areas • ingestion dose fish products • drinking water • a) ingestion dose see tab 6.2;
b) factor (= 0.25) in order to take account of the shielding provided by a standard home against gamma radiation; See also formula 6.6;
c) for these paths is the contribution to AID equal to the individual dose contribution (see § 6.4);
d) at work indoors is both the ABC factor as the afschermingfactor by the building;

7. Cross-check of the outcome to the dose levels 7.1. Review at the secondary level The review at the secondary level is done per each emission species separately. This is the calculated multifunctional individual dose (MID) compared to the to the appropriate emission type of hearing SN.
As for a kind of the emission according to part II MID is lower than SN, so if: for external radiation MID (external radiation) ≤ 10 µSv for air discharges MID (air discharge) ≤ 1 µSv for water discharges MID (water discharge) ≤ 1 µSv than there has been a low emission species that risks to the environment.
For the relevant emission species will in the permit application the calculated value of MID.
As for a kind of the emission according to part II MID is higher than SN, so if: for external radiation MID (external radiation) > 10 µSv for air discharges MID (air discharge) > 1 µSv for water discharges MID (water discharge) > 1 µSv

There is an emission kind that such effects on the environment on the part of the Government that further information is required. In addition to MID on emissions species also serves for the AID to be calculated.
For the relevant emission kind will in the permit application both the calculated MID if the calculated AID.

7.2. Cross-check with the location limit The review to the location limit is done for all emission types together. The total AID is calculated, that is, the current dose of all relevant emission species together. For the purpose of calculating the total AID, the different dose contributions added that the same group of people (can).
The calculated value of the total AID is compared to the location limit of 100 μSv.

Appendix to annex 1 .5a. 1. Dosiscoëfficienten, source constants and Radio toxicity equivalents for the calculation of the radio toxicity equivalents (see part 3) and of the effective dose (see part 6) are the radionuclidespecifieke dose coefficients or source constants from the following references: for the external exposure dose as a result of. point source: source constant h from [Kev96] for the inhalation dose: einh dose coefficients from table 2 and table 5, annex 1.4 of this arrangement for the submersiedosis: dose coefficients esub from table 6, annex 1.4 of this arrangement for the ingestion dose: dose coefficients eing from table 1, annex 1.4 of this scheme In table a.1 are the values of above mentioned parameters for a selection (common) radionuclides. Missing values can be found in above mentioned publications.
In table a.2 are for the same radionuclides Reinh, Reing, given the calculated values of table a.1 – half-life (T1/2, fys), source constant for point source (h), dosiscoëfficienten for inhalation (einh), submersie (esub) and ingestion (eing) for a selection of relevant radionuclides.
Nuclide T ½, fys h [µSv m2/h MBq] einh [Sv/Bq] *) esub [Sv Bq m3/d] eing [Sv/Bq] H-3 12.3 (a) water 1, 8th-11 1, 8th-11 organ 4, 1st-11 4, 2nd-11 C-14 5,730 a vapour 5, 8th-10 5, 8th-10 CO2 6, 2nd-12 5, 8th-10 After 22 2.60 a 0.33-1, 3rd-09 F 3, 2nd-09 P-14.3 32 d 3, 4th-09 M 2, 4th-09 S-87.4 d S anorgan 35.
 
 
 
1, 9th-09 1, 3rd-10 organ.
 
 
 
 
 
 
7, 7th-10 Ca-45 163 d 3, 7th-09 S 7, 1st-10 Ca-0.15 d 47 4.53 2, 1st-09 S 1, 6th-09 Cr-51 27.7 d 0.0054 3, 7th-11 S 3, 8th-11 Fe-2.70 a 0.000 55 7, 7th-10 F 3, 3rd-10 Fe-59 0.17 44.5 d 4, 0E-09 S 1, 8th-09 Co-57 271 d 0.023 1, 0E-09 S 2, 1st-10 Co-0.15 d 58 70.8 2, 1st-09 S 7, 4th-10 Co-60 5.27 a 0.36 3, 1st-08 S 3, 4th-09 Ni-63 96.0 a S element 1, 3rd-09 1, 5E-10 carbonyl 2, 0E-09 Ga-67 0.025 3.26 d 2, 4th-10 M 1, 9th-10 Kr-85 10.8 a 3, 7th-04 2, 2nd-11 Rb-4.58 81 h
0.11 3, 4th-11 5, 4th-11 Sr-8, 1st-10 d 0.1 64.8 85 S 5, 6th-10 Sr-89 50.5 d 7, 9th-09 S 2, 6th-09 Sr-90 29.1 a 1, 6th-07 S 2, 8th-08 Y-90 2.67 d 1, 5E-9 S 2, 7th-09 Mo-99 0.026 2.75 d 9, 9th-10 S 6, 0E-10 Tc-99 m 0.023 6.02 h 2, 0E-11 S 2, 2nd-11 Tc-99 213,000 a 1, 3rd-08 S 6, 4th-10 Ru-103 0.081 39.3 d 3, 0E-09 S 7, 3rd-10 Ru-106 1.01 a 0.034 6, 6th-08 S 7, 0E-09 In-111 0.088 2.83 d 2, 3rd-10 M 2, 9th-10 I-123 0.046 13.2 h 7, 4th-11 F 2, 1st-10 I-125 d 0.034 60.1
5, 1st-09 F 1, 5E-08 I-131 0.066 8.04 d 7, 4th-09 F 2, 2nd-08 Xe-36.4 127 d 0.064 9, 7th-10 Xe-133 0.016 5.25 d 1, 2nd-10 Xe-133 m 2.19 d 1, 1st-10 Cs-134 2.06 a 0.25 6, 6th-09 F 1, 9th-08 Cs-137 30.0 a 0.093 4, 6th-09 F 1, 3rd-08 Ba-140 0.035 12.7 d 1, 0E-09 5, 1st-09 5, 8th-09 F M S 2, 6th-09 La-140 1.68 0.33 1 d, 1E-09 M 2, 0E-09 There-9.30 169 d 1, 1st-09 3, 7th-10 Re-186 3.78 0.004 1 d, 1E-09 M 1, 5th-09 Ir-192 0.139 74.0 d 6, 6th-09 S 1, 4th-09 Au-198 d 0.069 2.69 8, 6th-10
S 1, 0E-09 Tl-201 0.018 3.04 d 4, 4th-11 9, 5E-11 Pb-210 22.3 a 0.003 5, 6th-06 S 6, 9th-07 Bi-210 5.01 d 9, 3rd-08 S 1, 3rd-09 Po-210 138 d 4, 3rd-06 S 1, 2nd-06 Ra-226 1,600 a 0.26 **) 3, 6th-07 F 2, 8th-07 3, 5E-06 M 9, 5th-06 S Th-228 1.91 a 4, 0E-05 S 7, 2nd-08 Th-232 1, 4E10 a 0.36 **) 1, 1st-04 F 2, 3rd-07 U-235 7, 0E8 a 8, 5E-06 S 4, 7th-08 U-238 4, 5E9 (a) 0.26 **) 8, 0E-06 S 4, 5E-08 Np-239 2.36 d 1, 0E-09 S 8, 0E-10 Pu-238 87.7 a 1, 1st-04 F 2, 3rd-07 Pu-239 24,100 a 0.001
1, 2nd-04 F 2, 5th-07 Pu-240 6,540 a 1, 2nd-04 F 2, 5th-07 Pu-241 14.4 a 2, 3rd-06 F 4, 8th-09 Am-241 432 (a) 0.017 9, 6th-05 F 2, 0E-07 *) Lung absorption classes F (ast), M (oderate) and S (low) **) includes daughters table a.2 – correction factors (CRL and CRW) and radio toxicity equivalents (Reing Reinhen) for a selection of relevant radionuclides (see part 3).
Nuclide Reinh CRL [Bq] CRW Reing [Bq] H-3 water 1 5, 6th + 6th + 10 10 1 5, organ 1 2, 4th + 10 1 2, 4th + 10 C-14 100 1 vapor, 7th + 09 + 09 CO2 100 1 100 1, 7th, 6th + 11 Na-22 1 7, 7th + 08 1 3, 1st + 08 P 32 1-2, 9th + 08 0.1 4, 2nd + 08 anorgan S-35.
1 5, 3rd + 08 1 7, 7th + 09 organ.
1 1 1, 3rd + 09 Ca-45 1 2, 7th + 08 1 1, 4E + 09 Ca 47 1-4, 8th + 08 0.001 6, 3rd + 08 Cr-51 1 2, 1 2, 6th 7th + 10 + 10 Fe-55 1 1, 3rd + 09 1 3, 0E + 09 Fe-59 1 2, 1 5, 6th 5th + 08 + 08 Co-57 1 1st + 09 1 4, 8th + 09 Co-58 1 4, 8th + 08 1 1, 4E + 09 Co-60 1 3, 2nd + 07 + 08 1 2 Ni-63, 9th element 10 7 10 6, 7th, 7th + 08 + 09 carbonyl 10 5th + 08 Ga-67 1 4, 2nd, 3rd + 09 + 09 0.001 5 Rb-81
 
1 2, 9th + 10 + 0.001 1, 9th 10 Sr-85 1 1, 2nd + 09 1 1, 8th + 09 Sr-89 1 1, 3rd + 08 1 3, 8th + 08 Sr-90 10 6, 3rd + 06 10 3, 6th + 07 Y-90 1 6, 7th, 7th + 08 + 08 0.001 3 Mo-99 1 1, 0E + 09 0.001 1, 7th + 09 Tc-99 m 1 5, 0E + 10 + 0.001 4, 5th 10 Tc-99 100 100 1, 6th, 7th 7 + 07 + 09 Ru-103 1 3, 3rd + 08 1 1, 4E + 09 Ru-106 1 1, 1 1, 4th + 5th + 07 08 In 111 1-4, 3rd + 09 0.001 3, 4th + 09 I-123 1 1, 4th + 10
0.001 4, 8th + 09 I-125 1 2, 0E + 08 1 6, 7th + 07 I-131 1 1, 4th, 5th + 07 + 08 0.1 4 Cs-134 1 1, 5th + 08 1 5, 3rd + 07 Cs-137 10 2, 2nd + 08 10 7, 7th + 07 Ba-140 1 1, 0E + 09 0.1 3, 8th + 08 La-140 1 9, 1st + 0.001 5, 0E 08 + 08 There-169 1 9, 1st, 7th + 09 + 08 0.1 2 Re-186 1 9, 1st, 7th + 08 + 08 0.001 6 Ir-192 1 1, 5th + 08 1 7, 1E + 08 Au-198 1 1, 2nd + 0.001 1, 0E 09 + 09 + 10 Tl-201 1 2, 3rd 0.001 1, 1st + 10
Pb-210 1 1, 8th + 05 1 1, 4th + 06 + 07, 1st Bi-210 1 1 0.01 7, 7th + 08 Po-210 1 2, 3rd + 05 1 8, 3rd + 05 Ra-226 100 2, 8th 100 + 05 + 06 Th-228 1 2 3, 6th, 5th, 4th 1 1 + 04 + 07 Th-232 100 9, 1st + 03 + 06 4, 3rd U-235 100 100 1, 2nd 100 + 05 2, 1st + 07 U-238 100 1 100 2, 2nd, 3rd + 05 + 07 Np-239 1 1, 0E + 09 0.001 1, 3rd + 09 Pu-238 10 9, 1st + 3rd + 06 03 10 4, Pu-239 100 8, 3rd + 03 + 06 0E Pu-240 100 100 4, 8, 3rd + 03 100 4, 0E + 06 Pu-241 1 4, 3rd + 05 1 2, 1st + 08 Am-241 100 1, 0E + 04 + 06 0E 100 5, a. 2. Different parameter values If, for some reason, to substantiate, the values from table a.1 or the references cited in a.1 cannot be used, it is necessary to perform a calculation on the basis of the methodology indicated in references cited. In particular, account should be taken of the following: i. physiological data For physiological data is ICRP-23 [IC75] to be used, except for botmodel, for which the lung and ICRP-66 [IC93] and ICRP-70 [IC95] should be used.

II. Metabolic models • For the lung model should ICRP-66 [IC93] are used.
• Botdoses should as far as possible For ICRP-70 [IC95] to be used and where data is missing ICRP-30 [IC79].
• For the gastrointestinal tract should ICRP-30 [IC79] to be used, supplemented by the ' gut-factors ' from [NEA88].

References COM98 communication from the Commission on the application of Directive 96/29/Euratom of 13 May 1996 laying down basic safety standards for the protection of the health of workers and the general public against the dangers arising from ionizing radiation; ISBN 92 78 31166 9 DOA02 R.O. Henig; Dose calculation for the environment at Licensing ionizing radiation (DOVIS), part A – discharges to air and water; RIVM report 610310006/2002, (2002) DOB02 J.F.A. Venter, E.I.M. Macdonald, N.B. Verhoef; Dose calculation for the environment at Licensing ionizing radiation (DOVIS), part B – external radiation; NRG 20733 report/02.45655/C, (2002) IAE96 IAEA Safety Series No. 115; International Basic Safety Standards for protection against Ionizing Radiation and for the Safety of Radiation Sources; ISBN 92 00 104295 7 (1996) IC75 ICRP publication 23 (Annals of the ICRP Vol 24 No 1-3); Anatomical, Physiological and Metabolic Characteristics: reference Man; ISBN 00 08 017024 2 (1975) IC79 ICRP publication 30 (Annals of the ICRP Vol 24 No 1-3); Limits of Intake of Radionuclides by Workers; ICRP publication 56 00 08 037364 X ISBN nr IC89 (Annals of the ICRP Vol 24 No 1-3); Age dependent Doses to Members of the Public from intake of Radionuclides: Part I; ISBN 00 08 040763 3 (1989) IC90 ICRP publication 60 (Annals of the ICRP Vol 24 No 1-3); 1990 Recommendations of the Internal Commission on Radiological Protection; ISBN 00 08 041144 4 IC91 ICRP publication No 61 (1990) (Annals of the ICRP Vol 24 No 1-3); Annual Limits on Intake of Radionuclides by Workers Based on the 1990 Recommendations; ISBN no 00 08 041145 2 (1991) IC93 ICRP publication 66 (Annals of the ICRP Vol 24 No 1-3); Human Respiratory Tract Model for Radiological Protection; ISBN no 00 08 041154 1 (1993) IC95 ICRP publication 70 (Annals of the ICRP Vol. 25 No. 2); Basic Anatomical and Physiological Data for use in Radiological Protection: The Skeleton; ICRP publication no 00 08 042665 4 (1995) IBSN IC96 72 (Annals of the ICRP Vol 26 No. 1); Age-dependent Doses to members of the Public from Intake of Radionuclides: Part 5 Compilation of Ingestion and Inhalation Dose Coefficients; ISBN no 00 08 042737 5 Kev96 A.S. Kabango (1996); Handbook Radio Nuclides; ISBN 90 75541 02 3 Koc83 Kocher, D.C. Dose rate conversion factors for external exposure to photons and electrons. Health Physics, 45, 665-686 (1983) NEA88 NEA, Gastrointestinal absorption of selected radionuclides: A report by an NEA expert group, Paris, OECD/NEA (1988) PSA93 P.M. Rafi and j. van der Steen; Directive level 3 PSA, ECN-C-93-057 (1993) TNO94

K.F.A.M. Hamza and c. Kabir; Consumption of product groups, relevant to the radiation exposure, by the Dutch population; TNO report No. V 94,078 (1994) Annex 2.1. Article 2.7, first paragraph, part of the Standard form for the provision of data for high-activity sealed sources 1. Identification number of the high-activity source: 2. identification of the entrepreneur 3. Location (if different from under 2.) and place the source within the location (use or storage) name: name: address: address: country: City: Manufacturer within the location ❑ Supplier □ Other user □ Wired use □ Storage (mobile) □ 4. Registration 5. License start date: registration number: date of issue: expiration date: 6. Features of the high-activity source 7. Receipt of the Radio source nuclide: receipt date: activity on the date of manufacture or the date that the source for the first time on the market within the European Union: retrieved from: name: address: date of manufacture: country: manufacturer/supplier 1: manufacturer ❑ Supplier □ Other user □ name: address: Country: physical and chemical characteristics: solid, metallic Source type-identification 2: Capsule identification 2 : ISO-nace2 at: ANSI-class 2: certificate for particular forms 2:1 In case manufacturer of the sources outside the community, instead, the name and address of the importer/vendor are listed.
2 if available.

Annex 2.2. Article 2.8, third paragraph, part of the standard form for high-activity sealed sources for records 1. Identification number of the high-activity source: 2. identification of the entrepreneur 3. Location (if different from under 2.) and place the source within the location (use or storage) name: name: address: address: country: City: Manufacturer within the location ❑ Supplier □ Other user □ Wired use □ Storage (mobile) □ 4. Registration 5. Permit 8. Operational control of the source date: registration number: date: date of transfer of registration to historical file: date of issue: date: expiration date: date: 6. Features of the high-activity source 7. Receipt of the source date: date: radionuclide: receipt date: date: activity on the date of manufacture or the date that the source for the first time on the market within the European Union: retrieved from: date: name: date: address: date: date of manufacture: country: date: manufacturer/supplier 1: manufacturer ❑ Supplier □ Other user □ date: name: 9. transfer of the source 10. Other data if applicable address: Loss □ date: country: Date transfer: theft □ Date loss: physical and chemical characteristics: transferred to: found □ Date find: fixed, metallic Name: City: Source type-identification 2: address: other information: Capsule identification 2: country: ISO nace2 at: manufacturer ❑ Supplier □ Other user ❑ ANSI class 2: recognized installation: certificate for particular forms 2:1 In case manufacturer of the sources outside the community , instead, the name and address of the importer/vendor are listed.
2 if available.

Annex 3.1. appropriate to the articles 3.4 to 3.7 Registration expertise Part A:. Continuing education Activity points system t.b.v. Notes Rating to achieve Minimum points per 5 years at re-registration or retraining proof of participation in a course approved by the designated setting 10 points per day: 60 points General Coordinating coordinating expert expert: 70 points or retraining with exam proof of positive result on exam/course approved by the designated setting key at 15 points per day Attending symposia and congresses proof of participation in a designated institution approved symposium, Congress, etc. 5 points per day coordinating expert: 20 points General Coordinating expert: 60 points (Poster) presentation at symposium, conferences, guest lecturer Proof via programme of the symposium 10 points per lecture publication in journal Submitted magazine 5 points per publication publication in magazine Submitted magazine referred to 10 points per publication teach at recognized training institute or approved periodic training course program 2 points per hour take part in (Inter) national commissions list of participants 10 points per Commission per year membership in one or more Trade Union Confederation proof of membership of one or more of the associations on a list by the designated setting 2 points per year Part B: Core competencies General Coordinating expert to meet the core competencies to extraordinarily registered as general coordinating expert should this person to show on the following core competencies: core competency 1: the General Coordinating expert can convincingly managing multiple local supervisory experts and content to a radiation protection unit in order in complex organisations the system of radiation protection to give form and content. This means he prior written internal permissions based on risk analysis made (RI&E s) can grant for all actions (and work) with ionizing radiation in or by the Organization (entrepreneur). He can point the first officer for compliance with all the relevant (radiation) regulations including the complex permit nuclear energy Act granted for both the entrepreneur and the Government (inspections) and can therefore organize internal monitoring on a regular basis, for example by keeping audits. Also in non-compliance, incidents and other unexpected events on radiation applications related to the Organization (entrepreneur) the radiation protection expert can take the initiative to take control of the situation and to problem solution and with measures to prevent recurrence.
In this context, it is a matter of the General Coordinating expert: 1. can set up a radiation protection unit;
2. in consultation with the entrepreneur to draw up a policy plan for radiation protection;
3. the regulations in force and can apply;
4. all (potential) radiation risks;
5. contact and maintained with all relevant stakeholders in the organisation;
6. can participate in relevant formal and informal;
7. employees of the radiation protection unit can control content, motivating and coaching;
8. appropriate can respond to radiation incidents;
9. a Kernergiewetdossier can carry up to date;
10. an audit plan can establish and implement;
11. a radiation can write annual report;
12. adequate security measures; and 13. bright can communicate to all relevant stakeholders in non-compliance.
To achieve this, the General Coordinating expert: 1. is aware of his role in the organisation;
2. can interpret and implement laws and regulations, including related regulations;
3. the good practices in the box knows and can apply;
4. effective consultation can organize or participate in it effectively;
5. familiar with the diffusion models of global activity in water, soil and air and this can apply or can be applied;
6. the ecological risks of intended or unintended discharges of activity by the organization can assess and evaluate;
7. the radiation safety in the design and use of particle accelerators can apply;
8. the local and (inter) national rescue and disaster organizations;
9. to draw up a response plan incidents/disasters.
Core competency 2: The General Coordinating expert can communicate with and provides proactive advice to all sections in the Organization and beyond on radiation matters. He can be both in depth and in width over radiation protection business advise and can be seen as a reliable partner. At new developments of this at an early stage he may notify the substance in order to be able to assess and optimize the radiation protection aspects. He can be a good licensing (amending) application drafting. The General Coordinating expert can at the above take into account all the stakeholders and with the basic principles of radiation protection (justification, the ALARA principle and the dose limits).
In this context, it is a matter of the General Coordinating expert: 1. shielding and dose calculations in complex situations can assess itself;
2. targeted can communicate;
3. clear and professionally can give informed advice; and 4. because of his knowledge authority can build up.
To achieve this, the General Coordinating expert: 1. the method and the contents of the publications of national and international organizations; and 2. good knowledge of the physical basis of the discipline and this can apply.
Core competency 3: The General Coordinating expert can actively work on their own professional development and to that of others, both within and outside the Organization (information and instruction, active participation in study days and (International) conventions). This means he scientific publications can translate to for the practice of the radiation protection further relevant information and thus can build this field. Along with other general coordinating the radiation protection culture in Netherlands experts he can actively propagate and is itself from the ethical and communicative aspects of the discipline.

In this context, it is a matter of the General Coordinating expert: 1. critical can reflect on scientific publications, calculation models and regulation and on opinions;
2. can actively participate at congresses and symposia;
3. literature retrieval in databases and the way kent;
4. the foundations of the field of radiation protection;
5. information and instruction can give, lectures, education, posters and effectively with the press can handle;
6. the ethical aspects of the field of radiation protection can discuss; and 7. in a debate on convincing arguments using debate techniques.
To achieve this, the General Coordinating expert: 1. up the subject matter of the training radiation protection expert State;
2. the fundamentals of epidemiology box can apply;
3. the normative and ethical basic principles that are related to the field of study; radiation protection and the elaboration of them in national and international codes;
4. the radiation protection aspects of the culture;
5. the relationship between exposure and health effect and can appoint;
6. risk can make comparisons;
7. the methods for risk communication;
8. basic principles of radiobiology well governed, of molecular effects to health damage, for the entire dose range from low to high;
9. the stralingsongevallencasuïstiek; and 10. for example, the scientific discussions on the validity of the Linear Non-Threshold hypothesis and the relationship between the effects of low versus high exposures.

Part C:. Core competencies coordinating expert core competency 1: the coordinating expert can convincingly adequate advice and indications of preventive nature give substance to an organization, control and relevant laws and regulations (including nuclear energy Act granted license) in the field of ionizing radiation.
In this context, it is a question that the coordinating expert: 1. an adequate risk inventory and evaluation (RI&E), related to the business purpose taking into account the employees ' interests; is aware of the tension between different disciplines or interests and that in practice to achieve smooth and flexible can handle without purpose (a safe workplace);
2. adequate work plans and procedures, evaluate and improve;
3. opinions (both asked if unsolicited) can towards risk reduction policy and practical implications for staff, visitors of the Organization and the environment and this policy can propagate and implement adequate and convincing in the organisation;
4. the tension between the application of the ALARA principle and the associated costs can handle;
5. his position in the Organization and to the outside world can properly estimate (Organization sensitivity) and therefore proportionate and in an administrative context can act;
6. on the basis of knowledge of different detection methods can adequately advise and judgments on the use/application of certain procedures at well-known and (sometimes) unknown radiation sources;
7. in the case of new and renovation can advise on the desired architectural facilities with respect to radiation safety;
8. reliable and reproducible radiation levels, a surface infection, the activity (for example in excretions) and the dose (tempo) can measure (measure, measurement, statistics);
9. can set up monitoring systems and regular quality audits;
10. appropriate personal protective equipment may advise for the distinct work/acts (route of exposure) and situations (for example, a pregnant exposed worker);
11. to exposed workers can award the most suitable form of person dosimetry;
12. can interpret and describe measurement data obtained in the context of standards and limits;
13. with radiometric quantities can count;
14. foreclosure can perform calculations, can determine exposure paths and derived operational limits and the effective dose (follow) by external radiation and internal infections can compute (via rules of thumb, ICRP models and measurements).
To achieve this, the coordinating expert: 1. (for) knowledge of the mathematics, physics and chemistry at the level of secondary education exam;
2. a collection of basic skills to be able to read professional literature and apply the content (Mathematics: integrating/differentiate, statistics, math skills, work with spreadsheets (spreadsheets) etc.);
3. knowledge of the three main principles of radiation protection (justification, ALARA, limits);
4. knowledge of the basic anatomy and physiology of man;
5. for all applied radiation shielding calculations can make types;
6. the nuclear energy Act granted authorization may interpret and know when they need to be amended;
7. the site boundary can calculate dose – including through the published models – and in addition the staff and visitor doses within the site boundary;
8. knowledge of current and relevant laws and regulations and the necessary administration adequately in this regard;
9. knowledge of security of radiation sources;
10. a the requirements sufficient licence application or amendment or revision can;
11. all dose-and related concepts that are mentioned in the regulations and can work;
12. the requirements which are to be made a nuclear energy Act file and this can apply for the Organization;
13. know the rules apply and which are per part of the life cycle/logistics beheersketen of radioactive materials and sources/appliances;
14. a format in special, guarded and controlled zones, including description of required architectural facilities and access procedures;
15. familiar with transport regulations (ADR) relating to radioactive substances, to determine whether the requirements of ADR class 7 must be met, labels can (re), a transport can perform index-provision and a transport document to fill in correctly;
16. the current ICRP models for internal-infection calculations know and can count, including the common concepts such as you, SEE and SAF;
17. the ALARA principle can be applied to operations and activities of varying complexity;
18. is aware of the environmental aspects of ionising radiation (health effects on plants, animals and ecosystems);
19. familiar with the nuclides card (or analog) and the data contained therein can apply in calculations;
20. sufficient knowledge and understanding of the radiobiology to risk estimates and related advice to (among other pregnant) exposed;
21. effective, targeted (work) instruction and information, both individually and in groups;
22. knowledge of the physical and radiobiologische properties of Alpha radiation, beta radiation, positrons, photons, neutrons, protons and ionizing radiation emitting devices (especially x-ray equipment) and sources;
23. secondary effects kent at high-energy radiation (bremsstrahlung; (γ, n)-comments);
24. broad general knowledge of the background radiation (type, type, origin, dose tax per source term and belastingspad).
Core competency 2: The coordinating expert acting a (threatening) incident or undesirable event adequately.
In this context, it is a question that the coordinating expert: 1. in the case of an (imminent) incident, under pressure and on location can adequately assess the urgency/risk size;
2. (further) contamination of the environment can occur by applying the right measures;
3. the appropriate measures, detection and measurement methods can choose, initiate and/or apply or apply and let the resulting measurement can interpret results;
4. to draw up and carry out a decontaminatieplan;
5. the responsibility that came with his role to take on active fit;
6. If necessary, a different situation that has arisen within a day can bring back to normal work situation (unless physically impossible);
7. within an hour a first dose estimation can give on the basis of measurements and data as stated in the Handbook Radio nuclides (or similar);
8. to ensure that, in consultation with the leadership of the Organization adequate direction and cooperation with other experts and disciplines (for example with the Department of communication/awareness), including notification to the Inspection in accordance with an authorization code;
9. can evaluate the incident and the findings to policy and internal procedures translates.
To achieve this, the coordinating expert: 1. oversees the situation quickly because he is familiar with the sources and the location, because of audits and regular contacts, familiarity with the work/actions;
2. practical rules of thumb, and if it applies smoothly;
3. knowledge of (external) decontaminatiemethoden for people and areas;
4. assesses when the situation acute medical assistance as a result of radiation incidents;
5. exposed persons (or those who think to be exposed) reassures on substantiated way and the feeling of safety in the workplace.
Core competency 3: The coordinating expert can actively work on their own professional development and in particular to those of others within the organization.
In this context, it is a question that the coordinating expert: 1. with all stakeholders (from low to high in the Organization) can effectively communicate about radiation risks and practices;

2. the field of radiation protection in the broad sense can see and can acquire a certain depth;
3. radiation risks in a social context, both within and outside the Organization;
4. the relationship between the radiation risks and those of other agents and risks in the workplace can compare to the (health) risk policy and in doing so take account of differences in risk perception;
5. readable protocols can work drafting and reviewing;
6. can reflect on his own standards and values, integrity and ethics;
7. open can suggest intervision and criticism;
8. can reflect on his own risk perception in relation to radiation exposure;
9. the border of its expertise can recognize and bijschoolt himself.
To achieve this, the coordinating expert: 1. at the system of radiation protection practical interpretation can give;
2. sufficiently in the literature and on the internet knows the road to the own knowledge up to date and is familiar with the system of vocational training in Netherlands;
3. familiar with the properties and risks of non-ionising radiation;
4. global is familiar with the source terms and practices or work activities in the (inter) national nuclear industry; the medical applications (nuclear medicine incl. cyclotron, radiotherapy, radiodiagnosis); the industrial world (oil/gas, dredging, non-destructive testing) and aviation.

Annex 3.2. , belonging to the articles 3.16 to 3.19 Declaration of the figure and the format in the second column in the table of the elements (A) to (D) of this Annex: Rating/notation treatment objective Meaning 1 overall, high familiarity with 2 main aspects quantitative understanding with subject can work 3 detailed, quantitative good familiarity with the subject + necessary ± optional component A :. Training in the field of radiation protection for sealed sources and x-ray equipment with a moderate risk (level 4A) topic Rating/Notation Mathematics – exponential functions 2 – Charts (linear and logarithmic axes) 2 – statistics (partitions, standard deviation) 1 General issues – physical and chemical structure of matter 3 – ionization, excitation 3 – Nuclides map 3 radioactivity – Ratio – protons neutrons 1 – radioactive decay, half-life 3 – Decay formula with half-life 3 – Decay and constant formula 3 – mother-daughter connections 1 – specific activity 3 – α- β-, γ-decay, electron, catch 2 – Characteristic x-rays 2 – Augerelektronen 1 – Expiration schedules 2 – particulate matter and energiefluentie and density 2 natural radioactivity – U-and Th decay series 1 – Kosmogene – other natural radionuclides radionuclide 1 1 – 1 – Cosmic Radiation Doses t.g.v. natural radioactivity 2 artificial radioactivity and x-ray radiation – nuclear fission, fission products 1 – nuclear reactions, active sections 1 – other resources 1 – t.g.v. artificial radioactivity and x-ray radiation Doses 2 β-and β-emitters spectra Energy electron radiation – 2 – interaction with matter (ionizing ability , Watch, stopping power) 2 – Lecture 3 – 2 – 1 Electron accelerators Bremsstrahlung x-ray and γ-radiation-electromagnetic radiation energy spectrum, dual nature, 2 – Kwadratenwet 3 – Interaction processes with matter 2 – Dependence effects of energy 2 – Attenuation coefficients 3 – half-thickness 3 generating x-rays: – x-ray tube 2 – 2 – 2 – radiation energy spectrum quality Influence tube voltage, tube current, mAs-number, field size, Cap, anode material, filters 2 Heavier charged particles (such as Alfa's) – interaction with matter 1 – Lecture 2 – nuclear reactions , active sections 1 – particle accelerators 1 Neutrons – types of neutrons (energy groups) 1 – interaction with matter 1 – neutron sources and generators 1 detection methods With gas-filled detectors: – Related spectrum peak and tube voltage 3 – ion Chambers 3 – proportional counters 2 – G.M. counters 3 Scintillation detectors: – Inorganic and organic crystals 2 – Fluid scintillatietellers 2 – semiconductor detectors 2 – detection methods based on photographic effects 2 – thermoluminescence detectors 2 – detection methods for Neutron 2 – dead time , geometry, self absorption 2 – Telrendement, Telstatistiek (intrinsically-) 2 – 1 – spectrometry, pulshoogteanalyse 2 Dosimetry – absorbed dose 3 – radiation weighting factors and tissue weighting factors 3 – equivalent dose 3 – Kerma 1 – effective dose Exposure 3 – 1 – β-dosimetry 3 – rules of thumb m.b.t. β-γ-dosimetry dosimetry 3 – 3 – Related exposure and absorbed energy in different materials 2 – rules of thumb m.b.t. γ-Γ-radiation dosimetry 3 – Specific constant 3 Dose meters – ion Chambers 2 – 2 – energy dependency TLD dosimeters 2 – method of calibrating detectors 3 – principle of Bragg-Gray 1 – Ongevallendosimetrie 1 biological effects of radiation – Concepts : somatic/genetic – early/late effects 1 – concepts: stochastic/deterministic effects 2 – tissue weighting factors 2 – factors of influence on the biological effect: radiation conditions and environmental factors 1 – Somatic Effects: Early effects in global and partial irradiation 2 – Late effects 2 – genetic effects 2 – epidemiological data 1 – dose-effect relations 1 – risk estimates 2 standards and legislations, (inter) national organisations – (Inter) national organisations m.b.t. radiation safety, cohesion 1 – historical development 1 ICRP Recommendations : – radiation protection principles 2 for current international arrangements: Netherlands – European basic safety standards 1 Dutch legislation: – nuclear energy Act (KEW) 1 – radiation protection and radiation protection Decision implementing arrangements 3 – licensing laws 3 – transport agreements (decision transport fissile materials, ores and radioactive substances, ADR class 7) 2 practical radiation protection; security measures a) external radiation 1. Theory – Principle protection measures (time, distance, shielding); isolation of β-particles 2 – electrons 2 – heavy particles 2 Shielding radiation of photons: – Narrow-beam geometry 3 – Broad-beam geometry; point source, structure factors (buildup factor) 2 – Choice material as a function of photon energy 2 – calculation of scattered radiation 2 – use of graphs on weakening and transmission 1 2 3 – blocking of neutron radiation. Practice aspects – Limit exposure (factor time-distance-shielding) 3 practical implementation guards for: – charged particles 1 – Photons 3 – Neutrons 1 specific protection measures at: – strong β-sources; x-ray equipment for radiography sources 2 – 2 – particle accelerators 1 – Individual Controls 2 practical radiation protection; security measures b) internal contamination Practice aspect – leak test sealed sources 1 Practical radiation protection; security measures c) transport of radioactive substances 1 Practical radiation protection; security measures d) risk assessment – sealed sources 2 – x-ray equipment 2 – particle accelerators 1 Practical radiation protection; security measures e) measures in the event of accidents personal radiation accidents – external radiation 2 – Organizational operations, internal and external 1 Practical radiation protection; security measures f) organisational aspects – roles and responsibilities monitoring and coordinating expert 2 – implementing administration and management 2 practical skill/Practical topics 1. Operation and use of radiation measuring equipment for: a. Equivalent dose rate – Photons + – electrons + b activity measurement, fixed and fluid samples – β-rays, β-rays, soft ± ± – hard – photons + c Energy spectrometry – photons ± 2. Protection against external radiation: a. Shielding of radiation – electrons, β-radiation, gestation, bremsstrahlung + photons: – half-thickness + – narrow and wide beams + b. influence of distance between source and object + c. Design and constructing a foreclosure at: radioactive sources: – photons + x-ray devices: – scientific-medical, industrial ± ± d. safe handling: – sealed radioactive sources + – x-ray devices + 3. Protection against internal contamination: safe handling of non sealed sources – use of personal protective equipment + 4. Practical problem approach a. Activiteitsbepaling of – fixed monster ± b. Double infections – control of body parts and clothing ± Part B: Training in the field of radiation protection for radioactive sources with a moderate risk (level 4B) Subject Rating/Notation Mathematics – exponential functions 2 – Charts (linear and logarithmic axes) 2 – statistics (partitions, standard deviation) 1 General issues – physical and chemical structure of matter 3 – ionization, excitation 3 – Nuclides map 3 radioactivity – Ratio – protons neutrons 1 – radioactive decay, half-life 3 – Decay formula with half-life 3 – Decay and constant formula 3 – mother-daughter connections 1 – specific activity 3 – α- β-, γ-decay, electron, catch 2 – Characteristic x-rays 2 – Augerelektronen 1 – Expiration schedules 2 – particulate matter and energiefluentie and density 2 natural radioactivity – U-and Th-Kosmogene series 1 – radionuclides decay 2 – other natural radio nuclides 2 – 2 – Cosmic Radiation Doses t.g.v. natural radioactivity 2 artificial radioactivity and x-ray radiation – nuclear fission, fission products 1 – nuclear reactions, active sections 1 – other resources 1 – t.g.v. artificial radioactivity and x-ray radiation Doses 2

β-and β-emitters spectra Energy electron radiation – 2 – interaction with matter (ionizing ability, watch, stopping power) 2 – Lecture 3 – 2 – 1 Electron accelerators Bremsstrahlung x-ray and γ-radiation-electromagnetic radiation energy spectrum, dual nature, 2 – Kwadratenwet 3 – Interaction processes with matter 2 – Dependence effects of energy 2 – Attenuation coefficients 3 – half-thickness 3 Heavier charged particles (such as Alfa's) – interaction with matter 1 – Lecture 2 – nuclear reactions, active Neutron Cross sections 1 – types of neutrons (energy groups) 1 – interaction with matter 1 – neutron sources and generators 1 detection methods With gas-filled detectors : – Related spectrum peak and tube voltage 3 – ion Chambers 3 – proportional counters 3 – G.M. counters 3 Scintillation detectors: – Inorganic and organic crystals 3 – Fluid scintillatietellers 2 – semiconductor detectors 2 – detection methods based on photographic effects 2 – thermoluminescence detectors 2 – detection methods for Neutron 2 – dead time, geometry, self absorption 2 – Telrendement, Telstatistiek (intrinsically-) 2 – 2 – 2 – total-body pulshoogteanalyse spectrometry, counters 1 Dosimetry – absorbed dose 3 – radiation weighting factors and tissue weighting factors 3 – 1 – 3 – Kerma dose equivalent dose 3 – effective dose Exposure 3 – 1 – β-dosimetry 3 – rules of thumb m.b.t. β-γ-dosimetry dosimetry 3 – 3 – Respect exposure and absorbed energy in different materials 2 – rules of thumb m.b.t. γ-Γ-radiation dosimetry 3 – Specific constant 3 Dose meters – ion Chambers 2 – 2 – energy dependency TLD dosimeters 2 – method of calibrating detectors 3 – Ongevallendosimetrie 1 biological effects of radiation – concepts: somatic/genetic – early/late effects 1 – concepts: Stochastic/deterministic effects and tissue factors 2 – factors of influence on the biological effect: radiation conditions and environmental factors 1 – Somatic Effects: early effects in global and partial irradiation 2 – Late effects 2 – genetic effects 2 – epidemiological data 1 – dose-effect relations 1 – risk estimates 2
Standards and legal regulations, (inter) national organisations – (Inter) national organisations m.b.t. radiation safety, cohesion 1 – historical development 1 radiation protection ICRP Recommendations: – principles 2 – internal radiation 2 for current international arrangements: Netherlands – European basic safety standards 1 Dutch legislation: – nuclear energy Act (KEW) 1 – radiation protection and radiation protection Decision implementing arrangements 3 – licensing laws 3 – transport agreements (decision transport fissile materials, ores and radioactive substances, ADR class 7) 2 practical radiation protection; security measures a) external radiation 1. Theory – Principle protection measures (time, distance, shielding); isolation of β-particles 2 – electrons 2 – heavy particles 1 Shielding radiation of photons: – Narrow-beam geometry 2 – Broad-beam geometry; point source, structure factors (buildup factor) 2 – Choice material as a function of photon energy 2 – calculation of scattered radiation 2 – use of graphs on weakening and transmission 1 2 3 – blocking of neutron radiation. Practice aspects – Limit exposure (factor time-distance-shielding) 3 practical implementation guards for: – charged particles 1 – Photons 3 – Neutrons 1 specific protection measures at: – strong β-sources; sources for radiography 2 practical radiation protection; security measures b) internal contamination 1. Theory – Incorporation routes; concepts of metabolism, concentration, retention and excretion 2 – standard man 2 General transport model of the ICRP, transfer coefficients, dosimetriemodellen of the ICRP: 1 – General 1 – Lungs 1 – gastrointestinal tract 1 – bone 1 – ' Submersion ' 1 background and use of tables and others details of ICRP for dose calculations when: – inhalation and ingestion 1 – Wound infection 1 – ' Submersion ' 1 – use of retention and excretion models of ICRP 1 – Radio 1 2 toxicity. Practice aspects – Limit exposure, general principles 2 – directive Radionuclide Laboratories 2 – Format nuclides laboratories 2 – maximum permissible surface contamination 1 – design requirements for nuclides laboratories 1 – personal protective measures 1 – working methods, hygienic precautions 1 – waste treatment, discharge standards 1 – control methods – surface infections Decontaminatiemethoden 1 1 – air contamination 1 – discharges 1 – leak test sealed sources 1 Practical radiation protection; security measures c) transport of radioactive substances 1 Practical radiation protection; security measures d) risk assessment – sealed sources 2 – non-sealed sources 2 practical radiation protection; security measures e) measures in the event of accidents personal radiation accidents – external radiation 2 – contamination of clothing and skin; decontamination 2 – internal contamination 2 – Organizational operations, internal and external 1 Practical radiation protection; security measures f) organisational aspects – roles and responsibilities monitoring and coordinating expert 2 – implementing administration and management 2 practical skill/Practical topics 1. Operation and use of radiation measuring equipment for: a. Equivalent dose rate – Photons + – electrons + b. activity measurement, fixed and fluid samples – β-rays, β-rays, soft ± ± – hard – photons + c. measurement of contamination on surfaces – α-β-radiation radiation + – + – + d. photons Energy spectrometry – photons + 2. Protection against external radiation: a. Shielding of radiation – electrons, β-radiation, gestation, bremsstrahlung + photons: – half-thickness + – narrow and wide beams + b. influence of distance between source and object + c. Design and constructing a foreclosure at: radioactive sources: – photons + d. safe handling: – sealed radioactive sources + 3. Protection against internal contamination: a. safe handling not sealed sources – use of personal protective equipment + b. use of laboratory facilities – fume hood + – glovebox ± 4. Practical problem approach a. identification of radioactive nuclide (n) in samples of ± b. Activiteitsbepaling – fixed sample + – liquid monster + c. Approach of local laboratory infection – security measures, organisation + – determination of nature and extent infection + – decontamination + d. Double infections – control of body parts and clothing + – decontamination of simple skin infections ± Part C:. Training in the field of radiation protection for low-risk sealed sources and x-ray equipment (level 5A) Subject Rating/Notation Mathematics – Charts (linear and logarithmic axes) 2 General issues – physical and chemical structure of matter 1 – ionization, excitation 1 – Nuclides map 1 radioactivity – Ratio – protons neutrons 1 – radioactive decay, half-life 2 – Decay formula with half-life 2 – specific activity 1 – α-, β-, γ-decay, electron capture Decay schemes Characteristic x-rays 1 – 1 – 1 natural radioactivity – Doses t.g.v. natural radioactivity 1 artificial radioactivity and x-ray radiation – Doses t.g.v. artificial radioactivity and x-ray radiation Energy spectra and electron radiation – 1 β β-emitters 1 – interaction with matter (ionizing ability, watch, stopping power) 1 – Lecture 2 – Bremsstrahlung 1 – Electron accelerators 1 x-ray and γ-radiation-electromagnetic radiation energy spectrum, dual nature, 1 – 3 Kwadratenwet – Interaction processes with matter 1 – energy Dependence effects 1 – half-thickness 2 generating x-rays: – x-ray tube Radiation quality energy spectrum 1 – 1 – 1 – Influence tube voltage, tube current , mAs-number, field size, Cap, anode material, filters 1 Heavier charged particles (such as Alfa's) – interaction with matter 1 – Recommendation 1 detection methods With gas-filled Ionization detectors: – rooms 1 – G.M. counters 1 Scintillation detectors: – Liquid scintillatietellers 1 – detection methods based on photographic effects 1 – thermoluminescence detectors 1 – Telrendement, (intrinsically-) 1 – spectrometry, pulshoogteanalyse 1 Dosimetry – absorbed dose 2 – radiation weighting factors and tissue weighting factors 2 – dose equivalent 2 – effective dose 2 – rules of thumb β-γ-dosimetry m.b.t. dosimetry 2 – 2 – rules of thumb m.b.t. γ-Γ-radiation dosimetry 2 – Specific constant 2 dose meters – ion Chambers 1 – TLD 1 – method of calibrating detectors 2
Biological effects of radiation – concepts: stochastic/deterministic effects 2 – tissue weighting factors 2 – Somatic Effects: Early effects in global and partial irradiation 1 – Late effects 1 – genetic effects 1 – dose-effect relations 1 – risk estimates 1 standards and legislations, (inter) national organisations – (Inter) national organisations m.b.t. radiation safety, cohesion 1 radiation protection ICRP Recommendations: – principles 1 for Netherlands applicable international arrangements: – European basic safety standards 1 Dutch legislation : – nuclear energy Act (KEW) 1 – Decision radiation protection and radiation protection 2 – implementing arrangements licensing laws 3 – transport agreements (decision transport fissile materials, ores and radioactive substances, ADR class 7) 1 Practical radiation protection; security measures a) external radiation 1. Theory – Principle protection measures (time, distance, shielding); isolation of β-particles 2 – electrons 1 – heavy particles 1 Shielding radiation of photons: – Narrow-beam geometry 1

– Broad-beam geometry; point source, structure factors (buildup factor) 1 – Choice material as a function of photon energy 1 – use of charts on weakening and transmission 2 2. Practice aspects – Limit exposure (factor time-distance-guard) practical implementation guards for: 1 – 2 – 3 – charged particles Photons Neutrons 1 specific protection measures at: – strong β-sources; x-ray equipment for radiography sources 1 – 1 – personal control resources 1 Practical radiation protection; security measures b) internal contamination Practice aspect: – leak test sealed sources 1 Practical radiation protection; security measures c) transport of radioactive substances 1 Practical radiation protection; security measures d) risk assessment – sealed sources 2 – x-ray equipment 2 practical radiation protection; security measures e) measures in the event of accidents personal radiation accidents – external radiation 1 – Organizational operations, internal and external 1 Practical radiation protection; security measures f) organisational aspects – roles and responsibilities monitoring and coordinating expert 1 – implementing administration and management 1 Practical skill/Practical topics 1. Operation and use of radiation measuring equipment for: Equivalent dose rate – Photons + – + 2 electrons. Protection against external radiation: a. Shielding of radiation – electrons, β-radiation, gestation, bremsstrahlung + photons: – half-thickness + – narrow and wide beams + b. influence of distance between source and object + c. Design and constructing a foreclosure at: radioactive sources: – photons ± x-ray devices: – scientific-medical, industrial ± ± d. safe handling: – sealed radioactive sources + – x-ray devices + 3. Protection against internal contamination: safe handling of non sealed sources – use of personal protective equipment + 4. Activiteitsbepaling approach of practical problem – fixed monster ± Part D:. Training in the field of radiation protection for low-risk radioactive sources (level 5B) Subject Rating/Notation Mathematics – Charts (linear and logarithmic axes) 2 General issues – physical and chemical structure of matter 1 – ionization, excitation 1 – Nuclides map 1 radioactivity – Ratio – protons neutrons 1 – radioactive decay, half-life 2 – Decay formula with half-life 2 – specific activity 1 – α-, β-, γ-decay, electron capture Decay schemes Characteristic x-rays 1 – 1 – 1 natural radioactivity – U-and Th decay series 1 – radionuclides Kosmogene 1 – other natural radionuclides 1 – cosmic rays
1 – Doses t.g.v. natural radioactivity 1 artificial radioactivity and x-ray radiation – t.g.v. artificial radioactivity and x-ray radiation Doses 1 β-and β-emitters spectra Energy electron radiation – 1 – interaction with matter (ionizing ability, watch, stopping power) 1 – Lecture 2 – Bremsstrahlung 1 – Electron accelerators 1 x-ray and γ-radiation-electromagnetic radiation energy spectrum, dual nature, 1 – 3 Kwadratenwet – Interaction processes with matter 1 – energy Dependence effects 1 – half-thickness 2 Heavier charged particles (such as Alfa's) – interaction with matter 1 – Recommendation 1 detection methods With gas-filled detectors : – ion Chambers 1 – G.M. counters 1 Scintillation detectors: – Liquid scintillatietellers 1 – detection methods based on photographic effects 1 – thermoluminescence detectors 1 – Telrendement, (intrinsically-) 1 – spectrometry, pulshoogteanalyse 1 Dosimetry – absorbed dose 2 – radiation weighting factors and tissue weighting factors 2 – 2 – 2 – dose equivalent dose effective dose 2 – rules of thumb m.b.t. β-γ-dosimetry dosimetry 2 – 2 – rules of thumb m.b.t. γ-Γ-radiation dosimetry 2 – Specific constant 2 dose meters – ion Chambers 1 – TLD 1 – method of calibrating detectors 2 biological effects of radiation – Concepts : Stochastic/deterministic effects 2 – tissue weighting factors 2 – Somatic Effects: Early effects in global and partial irradiation 1 – Late effects 1 – genetic effects 1 – dose-effect relations 1 – risk estimates 1 standards and legislations, (inter) national organisations – (Inter) national organisations m.b.t. radiation safety, cohesion 1 radiation protection ICRP Recommendations: – principles 1 for Netherlands applicable international arrangements: – European basic safety standards 1 Dutch legislation: – nuclear energy Act (KEW) 1 – Decision radiation protection and radiation protection 2 – implementing arrangements licensing laws 2 – transport agreements (decision transport fissile materials , ores and radioactive substances, ADR class 7) 1 Practical radiation protection; security measures a) external radiation 1. Theory – Principle protection measures (time, distance, shielding); isolation of β-particles 2 – electrons 1 – heavy particles 1 Shielding radiation of photons: – Narrow-beam geometry 1 – Broad-beam geometry; point source, structure factors (buildup factor) 1 – Choice material as a function of photon energy 1 – use of charts on weakening and transmission 2 2. Practice aspects – Limit exposure (factor time-distance-shielding) 3 practical implementation guards for: – charged particles 1 – Photons 2 – Neutrons 1 specific protection measures at: – strong β-sources; sources for radiography 1 – personal control resources 1 Practical radiation protection; security measures b) internal contamination 1. Theory background and use of tables and others details of ICRP for dose calculations when: – inhalation and ingestion 1 – Wound infection 1 – Radio 1 2 toxicity. Practice aspects – Limit exposure, general principles 1 – directive Radionuclide Laboratories 1 – Format nuclides laboratories 1 – maximum permissible surface contamination 1 – design requirements for nuclides laboratories 1 – personal protective measures 1 – working methods, hygienic precautions 1 – waste treatment, discharge standards 1 – control methods – surface infections Decontaminatiemethoden 1 1 – air contamination 1 – discharges 1 – leak test sealed sources 1 Practical radiation protection; security measures c) transport of radioactive substances 1 Practical radiation protection; security measures d) risk assessment – sealed sources 2 – non-sealed sources 1 Practical radiation protection; security measures e) measures in the event of accidents personal radiation accidents – external radiation 1 – contamination of clothing and skin; decontamination 1 – internal contamination 1 – Organizational operations, internal and external 1 Practical radiation protection; security measures f) organisational aspects – roles and responsibilities monitoring and coordinating expert 1 – implementing administration and management 1 Practical skill/Practical topics 1. Operation and use of radiation measuring equipment for: a. Equivalent dose rate – Photons + – electrons + b. activity measurement, fixed and fluid samples – β-rays, β-rays, soft ± ± – hard – photons + c. measurement of β-radiation contamination on surfaces – + – photons + d. Energy spectrometry – photons + 2. Protection against external radiation: a. Shielding of radiation – electrons, β-radiation, gestation, bremsstrahlung + photons: – half-thickness + – narrow and wide beams ± b. influence of distance between source and object + c. Design and constructing a foreclosure at: radioactive sources: – photons ± d. safe handling: – sealed radioactive sources + 3. Protection against internal contamination: a. safe handling not sealed sources – use of personal protective equipment + b. use of laboratory facilities – fume hood + – glovebox ± 4. Practical problem approach a. identification of radioactive nuclide (n) in samples of ± b. Activiteitsbepaling – fixed sample + – liquid monster + c. Approach of local laboratory infection – security measures, organisation + – determination of nature and extent infection + – decontamination + d. Double infections – control of body parts and clothing + – decontamination of simple skin infections ± Annex 3.3. , part of article 3.20 Part A:. Health Physics training for medical specialists who use x-ray equipment The end terms are provided with the indications K = knowledge (knowledge); V = skills (skills) and C = competences (competences). These three categories are in the listed order hierarchically subordinate: a higher category designation implies that also comply with the above must be satisfied (K < V < C).
Core competence 1 The medical specialist are properly justified medical procedure carried out in such a way, that the patient receives a reasonable low radiation exposure, where the overall risk of the procedure for the patient is kept as low as possible (the ALARA principle). Furthermore, the medical specialist within the clinical context the appropriate image acquisition technique with the appropriate diagnostic image quality (C).

Further characterization of the context

The procedures under examination will typically be carried out in appropriate areas (guarded or controlled zones), such as operating rooms, catheterization rooms or angio areas. Often – but not always and everywhere, depending on the local appointments – the screening carried out or supported by a MBB'er, a nurse or an OK Assistant. During the procedure is its medical specialist (the client in accordance with the law BIG) responsible for (optimization of) both the dose that the patient receives as that of the present in the investigation or treatment area employees.
In this context, it is a question that the medical specialist 33:1. According to accepted professional medical standards acts with regard to the justification of the exposure. PROLARA-concept34 it worked, which means, that radiation risk is weighed to the total outcome of the medical procedure concerning risks and life expectancy (C);
2. the medical procedure with appropriate (for example, in terms of projection capabilities) and for the specific purpose of slide/set optimal equipment, such as pediatric treatments, prolonged procedures (V);
3. the x-ray equipment on the appropriate approach for a specific slide/protocol, using the available options and tools to dose reduction (V);
4. takes care of correct patient positioning without using screening and choose the desired projection modes if possible directly without the experimental method with screening to use (C);
5. acts according to standards (Good Medical Practice) for specific procedures in order to ensure the total slide/slide/time limit (C).
To achieve this, the medical specialist35:6. understands the nature of x-rays and the way in which it is produced and further the electromagnetic spectrum, x-ray spectra, x-ray interaction of radiation with matter, cosmic background radiation (K);
7. the function describes the parts of the imaging chain (K);
8. image quality overall describes in terms of resolution (spatial and temporal), signal-to-noise ratio and contrast and the distinction between, for example, appointed and recognizes high and low contrast images, etc. (K/V);
9. familiar with the impact of adjusting different setting parameters, or the use of various options on image quality and patiëntendosis and this applies: tube voltage, kilovolt (kV); tube current (mA); filters (extra bundelopharding); wedge filters, aperture (restrict field size); pulsed audit (spectrum peak,-length, frequency); frame rate; securing last picture (Last Image Hold); movie mode (cine; securing exposure value (set point)); high-dose/low-dose exposure control; magnification; Sprinkle jets roster; projection and angulatiestanden (PA, LAT etc.); automatic exposure control; geometry (position x-ray tube/position image receiver and reverse kwadratenwet), the use of contrast; route planning (road mapping) and applies this where appropriate (V);
10. know and apply the principles of radiation protection: justification; ALARA, dose limits for workers (K/V);
11. is familiar with the relevant basic and operational quantities (absorbed dose, inaugural skin dose, organ dose (dose equivalent), effective dose, dose-area product, detector dose) (K);
12. overall the dose distribution in and around the patient describes (attenuation curve, contributions from scatter radiation) (K);
13. the function of the built-in Setup in the x-ray dose meter (dose-area Product, CAP); is aware of dose reference values for diagnostic procedures and in common situations a clinical physicist, see, for example, if an estimate of an organ dose or the effective dose is needed after an intense/long slide/procedure (K/V);
14. realizes, that special Pediatric slide/slide/adjust protocols exist and the parameters at the screening of children in various age groups (V);
15. the procedure and that follows if incorrect or unintended exposure has taken place (V/C);
16. the advantages and disadvantages of applying shielding on the patient (for example, gonad shielding, bismuth-cover, etc.) (K);
17. not reticent in dealing with an urgent (pregnant) patient in which screening is required (V).
Core competence 2 The medical specialist works in a safe manner according to the ALARA principle with x-rays to avoid unnecessary exposure of himself, the other employees and any assistants (C).

Further characterization of the context In general it will work according to usual protocols (Good Medical Practice) lead to optimized patiëntendoses and relatively low doses for the employees, in other words: dose reduction for the patient is usually congruent with a lower dose for the doctor and the circulation Assistant. Nevertheless, there must be – especially at high employment offers and at certain procedures – additional attention be given to protective measures for the employees. The dose limits for the medical specialist and the associates may not be exceeded.
In this context, it is a question that the medical specialist: 18. dosismeter carries a double if necessary or compulsory (V);
19. results of person dosimetry to workload and type of procedures performed on specific slide/equipment (V);
20. the suitable shielding tools (for example, a ceiling mounted movable lead glass) (C);
21. is aware of the position that all employees taking around a patient who is by light and that he for the procedure is not essential bystanders a larger distance lets keep or ask to leave the room (C);
22. not reticent in the care and treatment of patients that the (acute) (possible) are radioactive because of a prior medical examination or as a result of nuclear radiation incidents/accidents (V);
23. Special attention to pregnant employees (dose limit fetus, application of the ALARA principle, meet the required (hospital) rules, risk perception) (C).
To achieve this, the medical specialist: 24. the basic principles of radiation protection (time, distance, shielding) know and apply in practice to avoid unnecessary exposure to (V);
25. the relevant dose limits kent (effective dose and equivalent dose to selected organs, for example, extremities, crystalline lens) for exposed (radiological) workers and non-exposed workers (non-radiological workers, such as nursing, helpers) (K);
26. know which positions around a patient can better be avoided during screening (if possible) and this applies (K/V);
27. the specific measures to be taken if employees are pregnant (K);
28. is familiar with the relevant operational dose quantities (personal dose equivalent, Hp (10) and ambient dose equivalent H * (10)) (K);
29. understand the relationship between the result of a personal dose measurement and the effective dose (depending on the position of the dosimeter, lead equivalent of the lead apron, kV-setting and so on) and take this into account (V);
30. familiar with the risks of radioactivity that is applied in special medical procedures, such as the Sentinel lymph node method (sentinel node) with 99mTc and the localization of non-palpabele tumors with 125I and handles in such a way, that the risk remains low (V);
31. the function and effectiveness of shielding available tools (lead aprons, thyroid collar, loodglas glasses) (K).
Core competency 3 The medical specialist puts on request or if necessary radiation risks from global to the patient, their family or others involved.
In addition, communicates the medical specialist with clinical physicists, MBB'ers, nurses/OK-assistants and radiation experts about the optimization of radiation protection in the Department. It is also the exposure of the patiëntenblootstelling except employees and third parties, as well as the legal limitations. The medical specialist does not hesitate when necessary experts (medical physicist, radiologist) to consult (C).

Further characterization of the context since the medical specialist is responsible for the administered radiation dose to the patient, he must know and be able to explain the risks involved. Because some of the knowledge has a limited shelf life, it is important that the medical specialist the fundamental principles of the health physics and related fields understand, so that he is able to keep his knowledge.
In this context, it is a question that the medical specialist: 32. the limits of his own knowledge and expertise on the effects of radiation and to formulate the right questions about it know, recognizes and, if necessary, support to the designated experts (such as MBB'er or medical physicist) (C);
33. If necessary with all stakeholders communicates about matters relating to radiation protection (V);
34. radiation risks in the perspective of the other risks and the social context (V);
35. stralingsrisicoperceptie (C) reflects on his own.
To achieve this, the medical specialist: 36. to a breastfeeding patient explains, that exposure to x-ray radiation is no reason to interrupt or discontinue the breastfeeding, but a contrast agent administered may have (K, V);
37. the various crucial factors of (radiation) risk perception and also takes into account the pitfalls to communicate effectively on radiation risks (V);

38. a global knowledge of the non-ionising radiation risks compared to those of ionizing radiation (K);
39. distinction to make between know facts and assumptions concerning the risks of ionizing radiation (K);
40. recognizes that there is a complicated relationship between, on the one hand, scientific knowledge of radiation protection and, on the other hand, the sometimes outbursts of social unrest and personal emotions about this (K);
41. the justification as the key to acceptance of medical exposure to ionising radiation (K);
42. is aware of the different professional roles of MBB'ers, clinical physicists, management experts etc. (K);
43. knowledge of the effective dose values of the most important, most common medical procedures (K);
44. the dose concepts understands those in radiation protection are used (absorbed dose, equivalent dose, effective dose, organ dose, inaugural-skin dose, fetal dose, eye lens dose, extremities dose) (K);
45. basic knowledge of the relevant aspects of the radiobiology of man: stochastic effects, tissue reactions, teratogenic and genetic effects (K);
46. is aware of the relevant laws and regulations on medical radiation applications (K).

Part B: Health Physics training for dentists and Orthodontists indication Used for level of knowledge and skill Level: L = low, a global familiar with principles. M = medium, sufficient knowledge of topic to be able to apply in practice. H = high, detailed knowledge and understanding, sufficient to instruct others.
In the initial training is skill obtained in the practical implementation of the said topics, including interpretation of the normal image and images of deviations (Pathology). For continuing education can be assumed and the practical skill is sufficient to updating/refreshment.
 
Topic level 1 atomic structure, radiation production and interaction of radiation – construction of matter — ionization, excitation – electromagnetic radiation – Kwadratenwet – interaction radiation with matter; Photo – and compton effect – Dependence effects of photon energy – Verzwakkingscoëfficienten and transmission L 2 Radiological quantities and units – absorbed dose – radiation weighting factor and equivalent dose – tissue weighting factors and effective dose – Gray, sievert L 3 physical properties of x-ray equipment – construction and operation x-ray tube; production of radiation – radiation quality and energy spectrum – Influence tube voltage on dose and contrast – influence of tube current on dose and contrast – Effect of filtering – Bundle boundary M 4 principles of radiation detection – dosimeters (both personal and ruimtedosimetrie) – use of dosimeters (both personal and ruimtedosimetrie) – imaging systems (film, SPP, CCD, CMOS and others).
L 5 principle of and procedures for justification – cost – benefit analysis (justification of the protocol/procedure in General and for the specific patient in particular).
H 6 principles of radiobiology, biological effects of radiation – interaction of radiation and living tissue – factors of influence on the biological effect – Stochastic and deterministic effects – principle of linear dose – effect relationship L 7 Risks on tumors and hereditary abnormalities – latency – genetic effects M 8 action of tissue reactions (deterministic effects) L 9 General principles of radiation protection including optimization – Effect of distance – Effect of filtering – Effect of it – justification , ALARA and dose limits – Shielding effect of materials H 10 application of radiation protection – Stralingsrisicoinventarisatie and Ruimtedosimetrie – – –-nalysis – person dosimetry organisational measures – H 11 application of radiation protection compared to patients – application justification principle – Choice equipment – Choice shooting technique in relation to diagnostic question – Bundle boundary – effects of filtering – Choice receptor – Choice shooting technique – policies of x-rays and pregnancy – quality assurance and error recognition – use of lead collar (shield) and lead apron – determination of need other protective measures H 12 application of radiation protection in relation to staff and employees – when is person dosimetry – radiation acts necessary in pregnancy – architectural aspects H 13 Diagnostic reference levels – Intra – oral shots – additional – oral recordings – Special recordings (including CBCT) – comparison with other recording techniques M 14 Risk during pregnancy and for the fetus M 15 quality assurance and quality promotion – Reference doses – Practice instructions and protocols – standardization of shooting technique – image optimization and image editing M 16 national regulations, and (inter) national guidelines – ICRP-European directives – KeW and radiation protection Decision – notification and authorization – clinical practice guideline NMT and field standards M strand C :. radiation safety training for the use of CBCT appliances by dentists Topic level 0 the contents of the level Stralingshygiene for dentists and Orthodontists known supposed 3 physical properties of CBCT – principle of CBCT – CBCT systems – options for exposure settings – Check volume and resolution – Effect of tube voltage – Effect of tube current – Effect of beam hardening M 4 principles of radiation detection at CBCT – Image acquisition systems – principle of CT image reconstruction – Partial volume effect – 3D rendering and visualization M 5 principle of and procedures for justification – costs – benefits analysis (justification of the protocol/procedure in General and for the specific patient in particular) regarding CBCT.
H 10 application of radiation protection at CBCT – Effect of bundle boundary and limit Volume of Interest – Effect of number of basic projections – Effect of shooting angle – resolution – risk analysis and required shielding around unit.
H 11 application of radiation protection compared to patients – effects of exposure settings on the patiëntendosis H 12 application of radiation protection in relation to staff and employees – radiation load on the environment at CBCT sets – effects of exposure settings on the ambient dose H 13 Diagnostic reference levels – for operations with quality assurance and quality promotion at a CBCT 15 CBCT – control of proper function – required training of user H 16 national regulations, and (inter) national guidelines – radiation protection – risk analysis – Decision Shielding around CBCT-phone – notification/licence – justification – SedentexCT – comparison with other recording modalities – Practice instructions and protocols H 17 Interpretation and Diagnostics – Anatomy and the normal image – Implantology – Endodontics – Gnathologie – Traumatology – Other pathology – recognizing errors in exposure setting, positioning and consequences of mechanical problems.
– Artifacts H Part D:. Health Physics training for radiation oncologists oncologist Following end terms as general learning objective knowledge and understanding on the basics of radiation physics, radiation applied physics, radiobiology and radiation protection. The final terms are provided with the indications K = knowledge (knowledge): facts, principles, theories, practices; V = skills (skills): cognitive and practical and C = competences (competences): responsibility and autonomy. These three categories are in the listed order hierarchically subordinate: a higher category designation implies that also comply with the above must be satisfied (K < V < C). So a competency requires mastery of the related skills and knowledge.

D. final objectives health physics for radiation oncologists oncologist 1.
Radiobiology Knowledge K1 knowledge of the interaction of radiation at the molecular level K2 Explains DNA damage from K3 knows the cellular effects and mechanisms of cell death K4 has knowledge of repairing radiation damage K5 explains the celoverlevingscurves K6 has knowledge of the hierarchical structure of normal tissue systems (compartments, cell proliferation, turnover time, end cell system, renewal system, expanding system) K7 has knowledge of differences in sensitivity to induction stralingsgeïnduceerde tumor and latent period between solid tumors and leukemias K8 Explains the effect of oxygen, sensitizers (sensitizers) and protective means K9 Explains the effect of time-dose fractionation, linear energy transfer (lineïeke energy transfer, LET), different radiation modalities and the interaction between cytotoxic therapy and radiation K10 has knowledge of predictive testing radiation K10a1 Explains differences in response between healthy tissue and tumors as the basis for radiotherapy K10a2 defines and explains stochastic and teratogenic effects of radiation and tissue reactions skills V1 Brings knowledge of clinical and radiological Anatomy , physics and biology to diagnosis and therapy Competencies No 2.
Basic Knowledge of Radiation Physics K11 Has knowledge of the structure of atoms and nuclei K12 has knowledge of radioactive decay K13 has knowledge of radio isotopes K13a1 Appoints and explains the interaction mechanisms K13a2 Specifies types and order of magnitude of radiation exposure by natural and artificial sources K13a3 has knowledge of principles of shielding calculations skills V2 analyzes the properties of particles and electromagnetic radiation

V2A performs simple risk analysis for radiation sources Competencies No 3.
Applied Radiation Physics for radiotherapy Knowledge K14 explains the working principle of an x-ray tube from K14a understands the operation of CT/CBCT K15 explains the working principle of a linear accelerator and radiation protection Accelerator space around a K16 has knowledge of collimatiesystemen K17 has knowledge of equipment for brachytherapy including radiation protection aspects K18 (expired) K19a explains the quantities absorbed dose, kerma, organ-and effective dose with corresponding units K20 defines the absorbed dose in the target volume at external radiation K21 Defines absorbed dose in the target volume with brachytherapy K22 gives examples of algorithms for 3D-dose calculations K23 explains how these techniques are applied: conformatietherapie, IMRT (intensity modulated radiation therapy), IGRT (image guided radiation therapy), Stereotactic radiotherapy and particle therapy K23a has knowledge of the physical concepts associated with the dose distribution of photons electrons and protons bundles skills V3 Past ' treatment planning ', including 3D-planning , IMRT and virtual simulation. These procedures are applied to the treatment of the patient to prepare for V4 evaluates the benefits of conformatietherapie and other special radiotherapy techniques (IORT (intraoperative radiotherapy), Stereotactic radiotherapy) V5 Fits calculation methods for 2D-dose calculations far V6 Examines treatment options in view of the forecast V7 Develops a treatment strategy based on scientific evidence and makes a trade off per patient for curative or palliative external radiotherapy and/or brachytherapy V8 Analyzes and interprets scientific research to change treatment practices V9 develops a strategy for radiotherapy treatment and apply engineering V10 Fits treatment plans to with regard to the individual situation of the patient, such as condition before treatment and toxicity of the radiation therapy and systemic treatments V11 evaluates and manages patients with external radiotherapy and/or brachytherapy radiation treatment to be treated V12 Fit for those patients, for example, to large acute toxicity for which that; including adjustment for missed dose radiotherapy treatment for patients on the Competencies C1 Light and any aftercare treatment comments C2 recommends for an appropriate dose and its fractionation schedule for curative or palliative external radiotherapy and brachytherapy C3 Verifies a treatment plan for start of the external radiotherapy/brachytherapy in cooperation with clinical physicists and MBB'ers and is aware of the consequences of each action C4 determines the risk of external radiotherapy and brachytherapy treatment plan C5 Is involved in IMRT planning and other techniques such as Stereotactic radiation, particle therapy and IGRT C6 Authorizes a radiotherapy treatment Select patients for therapy with combined modalities C7 C8, the clinical responsibility for applying radiotherapy along with systemic products (and where appropriate in cooperation with other medical specialists involved in systemic therapies) for both outpatient and clinical patients C9 Takes responsibility for the clinical implications of IGRT C10 Takes responsibility for the clinical implications and procedures governing brachytherapy with closed and open sources 4.
Concepts and principles of radiation protection Knowledge K24 explains the General principles of radiation protection, including ALARA K25 explains the risk of induction of secondary tumors from K26 Has knowledge of the meaning of the radiation weighting factor K27 Light equivalent dose including the tissue weighting factor K28 explains what the health effects of radiation exposure of workers and population as well as the mode of protection and the relevant dose limits K29 clarifies the approach unexpected/non-intended exposures K30 describes the European and national legislation K31 describes the scientific basis of radiation protection skills V13 Analyzes stochastic effects and tissue reactions V14 Explores unexpected/non-exposure of patients referred to Competencies C11 Is involved in quality assurance and follows the security policy C12 takes the lead in unexpected/non-medical patient exposures referred to Part E:. Health Physics training for radiologists building the following learning outcomes is a direct translation of the tables of the European MEDRAPET-report where the original numbering and system are maintained with respect to the parts of Radiology, nuclear medicine for radiologists, nuclear medicine and Interventional Radiology. This includes the learning objectives in the field of health physics defined where the terms knowledge (K), (V) skills and competences (C) be used in ascending hierarchical order. For the benefit of the visibility in this document are the attainment targets for the various target groups indicated with the addition ' r ' for all radiologists, ' i ' for intervention and radiologen ' n ' for nuclear radiologists (eg. KR. 1 or Cn. 7). As for Word for each part is a corresponding piece from the MEDRAPET report freely translated and on the Dutch situation calibrated and expressed.
Since all according to the new training trained radiologists in Netherlands some traditionally carry out nuclear-medical operations are some attainment targets for nuclear radiologists transferred to the attainment targets for all radiologists, in accordance with the suggestion in the MEDRAPET report. Some of these have been adapted with regard to the required knowledge level and have a suffix ' a ' got (eg. Kn. 2a). To as much as possible, to follow the European source document these learning objectives in original form the additional learning objectives for nuclear radiologists. Some specific additions are marked with en.

E.1. health physics terms End for radiologists 1.1 Radiation Physics Knowledge KR. 1 Makes an overview of sources and properties of ionizing radiation KR. 2 Appoints and explains the interaction mechanisms KR. 3 Appoints and explains the mechanisms of radioactive decay KR. 4 explains the interaction of x-rays with matter and the consequences for imaging, image quality and radiation exposure KR. 5 makes a list of the definitions, quantities and units kerma , absorbed dose (Gy), organ (energy) and effective dose (Sv) and light these concepts, as well as for exposietempo and dose rate skills Vr. 1 Fits radiation physics to make the optimal choice for the imaging modality Vr. 2 Fits radiation physics to optimize the protocols, use the minimum exposure required to achieve the level of image quality that is required for the task Vr. 3 uses the laws of Physics in order to minimize and optimize the contrast scattering Vr. 4a uses the correct terms to characterize the exposure of the daily recordings, by information sessions and CT examinations and defines body risk, genetic risk and the risk of cancer and appoints the (limited) applicability 1.2 Equipment Knowledge KR. 6 explains the mechanism of generating x-rays KR. 7 appoints the components of an x-ray Setup and explains the process of generating x-rays KR. 8 explains the function of filters and apertures KR. 9a shall appoint the usual digital image sensors , explains their function and the relative advantages and disadvantages KR. 10a explains the operation of grids and the effect on image quality and exposure skills Vr. 5 Checks image quality continued to recognize and correct technical defects to q.6 asks for the best picture quality, technical innovation and dose reduction at the lowest cost q.7 coordinates the commissioning of new equipment with the other members of the core team (MBB'er , medical physicist, management expert) Vr. 8 Used the technical characteristics of the specific equipment and quality-improvement and dosisreducerende taking advantage of all possibilities within the limits of the unit Competences Cr. 1 choose the most suitable equipment for the patient based on the available resources 1.3 radiobiology Knowledge KR. 11 Describes radiation effects on cells and DNA KR. 12 describes cellular mechanisms of radiation response, recovery and cell survival KR. 13 Describes radiation effects on tissues and organs KR. 14 Explains differences in radiation response between healthy tissue and tumors as a basis for radiotherapy KR. 15 defines and explains stochastic and teratogenic effects of radiation and tissue reactions KR. 16 Describes types and order of magnitude of radiological risks as a result of medical exposure skills Fri. 9 Informs patients about their health problems and the planned procedure/operation Vr. 10a communicates the radiation risk in perspective of justification and optimization of the research or the treatment with the patient in an understandable way if there is a significant deterministic or stochastic risk or when the patient has a question 1.4
Radiation hygiene General Knowledge KR. 17 describes the basic principles of radiation protection, as set forth by the ICRP KR. 18 Specifies types and order of magnitude of radiation exposure by natural and artificial sources KR. 19

Describes the concept of dose determination and dose measurement for patients, staff and the public professional exposed KR. 20 clarifies the nature of the exposure and the relevant dose limits for the worker, including organ doses and dose limits for pregnant workers, caregivers, family members and the general public KR. 21nl Lists indicated and non-indicated investigations at questions according to guidelines on skills q.11 communicates with the referrer about justification; sets if necessary another search for Fri. 12a Fits justification in the daily radiological practice and at medical-scientific research, taking into account existing guidelines, but also in individual cases (e.g. poly morbidity) Competences Cr. 2 takes responsibility for the choice of the imaging modality for the individual patient (radiological recording, CT, or MRI alternatives like echo), which increased the risk of the disease , age, gender and size of the patient, the dose level of the procedure and exposure of various critical organs is taken into account Cr. 3 Informs both the patient and the staff about pregnancy-related issues in the health physics Cr. 4 takes responsibility for the policy t.a.v. patient dose in different imaging modalities and is aware of the height of the associated specific patient doses 1.5 health physics in Radiology (x rays) knowledge KR. 21 Defines ALARA and applicability in a radiological work environment KR. 22 Light the concepts and tools for dose control in diagnostic radiology for both adult and pediatric patients KR. 23 explains the factors that affect image quality and dose in diagnostic radiology KR. 24 describes the methods and tools for dose control in diagnostic radiology: recordings, screening, CT, mammography and those for pediatric patients.
KR. 25 explains the basic concepts of measurement and calculation of patient doses for the different modalities in diagnostic radiology KR. 26 describes the main considerations relevant to the health physics when designing a Radiology Department KR. 27 makes a review of the diagnostic procedures outside the Radiology Department be created with associated relevant considerations on the radiation hygiene KR. 28 Makes an overview of expected doses (reference person) for common diagnostic procedures KR. 29 describes the quantitative risk and the dose determination for workers and the general public in the diagnostic radiology KR. 30 Light the concepts and tools for optimizing health physics Kr. (a) en light the ethical and legal aspects concerning the radiation exposure of volunteers in medical research skills Vr. 13 Optimizes Imaging protocols to use by default implementation procedures (SOPs) and to adapt them to the specific dimensions of the patient specific Pediatric protocols Used Vr. 14a and weighs the different anatomical proportions of an adult patient and tissue composition that affect the setting of the equipment, but also the increased risk, the sensitivity and the specific pathology of each age group Fri 15 chooses the best compromise between risk-benefit ratio, image quality, and radiation exposure on a case by case basis fr. 16 shall monitor the use of personal protective equipment. Supports monitoring of the workplace and of individuals. Supports the determination of the exposure, research and follow-up, health surveillance and recording of this Vr. radiological protection measures 17 Fits in diagnostic radiology (making withdrawals, screening at interventions, CT, mammography and pediatric patients) and advises on using Vr. 18 remains in the daily practice within the directive/reference levels Fri 19 Makes dimension-specific protocols for high-dose procedures organ doses and effective doses Vr 20 Treasure for diagnostic studies , based on measurable exposure parameters (DOP, DLP) Vr. (a) nl Reports radiation exposure of volunteers/patients due to medical research in clinical trials for ethical and regulatory approval Competences Cr. 5 advises patients about radiation-related risks and benefits of a planned procedure Cr. 6 takes responsibility for justification of radiation exposure for each individual patient, with special attention to pregnant patients Cr. 7 takes responsibility for the choice and the implementation of the diagnostic procedure with the lowest dose assuming a given request by a referrer Cr. 8 takes responsibility to optimize the recording technique/the protocol that is used for a given diagnostic procedure based on patient-specific information Cr. 9 takes responsibility for the procedures at high-dose (CT, intervention procedure) apply a to the dimension of the patient and to the problem statement adapted individually protocol Cr. 10 implements the concepts and tools for optimizing the health physics Cr. (a) nl takes responsibility for complying with legal and ethical requirements at the exposing volunteers to radiation in medical research or patients in clinical studies 1.6 Quality Knowledge k-r. 31 Defines quality management in radiology, the management and responsibilities, describes a program for quality control and radiation protection for diagnostic radiology KR. 32 Makes an overview of the main components of image quality and patient exposure the relationship with KR. 33 explains the principles of diagnostic reference levels skills Vr. 21 Fit standards for acceptable image quality. Performs analysis of incorrect recordings. Understand the effects of images of poor quality on the diagnostic reliability Vr. 22 Avoids unnecessary radiation exposure during pregnancy to screen for the examination by the patient (warning signs, questionnaire, pregnancy test, etc.)
Fri 23 checks the appropriate protection measures at exposure of a pregnant patient twice (dimensions and positioning of the x-ray field, focus-skin distance, right bundle filtration, reduction and fixation of the slide duration, excluding non-essential projections, avoidance of repeated recordings) Develops a Department policy to the Vr 24 doses for the employees to keep Competencies ALARA Cr. 11 oversees quality control procedures and on all equipment with which patient exposure is connected Cr. 12 takes responsibility for establishing formal working methods (SOPs) Cr 13 takes responsibility for organizational matters and the implementation of responsibilities and local appointments Cr. 14 takes responsibility for organizing the radiological workflow with exposures that are not referred to or accidentally be done and for the adequate handling of such an event 1.7 laws and regulations Knowledge KR. 34 Makes an overview of national and international organizations that are involved in legislative processes on radiation hygiene KR. 35 specifies the relevant legislative framework (decisions , directives, regulations, etc.) that the medical application of ionising radiation in Netherlands and in the EU controls KR. 36 specifies the relevant legislative framework that in the practice of diagnostic radiology in Netherlands is directing skills Vr. 25 and applies the relevant regulations and guidelines for each clinical situation in radiology Competences Cr. 15 Takes responsibility to comply with the legal requirements concerning occupational and public radiation exposure Cr. 16 takes responsibility to meet the ALARA principle concerning occupational and public radiation exposure Cr. 17
Takes responsibility to in accordance with the regulations for the protection of the patient to work (DRN's, where applicable) 1.8 Additional learning objectives for aios radiology in the beginning of the training These learning objectives are an additional selection from that for nuclear radiologists on education in the beginning of the training because of the (limited) use by all radiologists of open and sealed sources for diagnostic purposes (see later in this document; the original numbering has been retained). This additional learning objectives apply only to the Protocol implemented by the radiologist nuclear medical operations. Some learning objectives (complemented by ' a ') are adapted for the target group, in which the starting point is that a nuclear radiologist/nuclear medical on the Department is primarily responsible for the whole of the radiation protection aspects. The radiologist performs certain operations Protocol.
1.2 radiation protection in nuclear medicine patient Knowledge Kn. 1 Specifies the relevant framework of laws and regulations on the exercise of nuclear medicine in Netherlands Kn. 2 makes a list of expected doses for the used nuclear medical operations Kn. 3 explains the order size from the radiation risk as a function of the patient dose, gender, age and the treatment prognosis Kn. 8a has knowledge of the principles and the associated process of administration of radiopharmaceuticals (intravenously , oral and inhalation) and has basic knowledge of the physiological behavior of radiopharmaceuticals and its consequences for the absorbed doses Kn. 9a

Has knowledge of the action to be taken after incorrect administration of radiopharmaceuticals Kn. 13 explains the options for optimizing the patient dose for CT during the use of combined imaging modalities such as PET/CT, SPECT/CT etc.
Un skills. 1a applies the principles of justification (assessment of risk/benefit) and has knowledge of optimization (including ALARA) taking into account existing guidelines on indications for the used nuclear medical operations Fits for each carried out diagnostic nuclear Un. 3a medical operation the European and national laws, regulations, recommendations and standards in relation to clinical indications that Identifies 10 patient safety. the use of low-dose CT in the multimodal imaging procedures Competences Cn. 1 advises patients about the risks and benefits of a planned nuclear medical operation Cn. 2 takes the responsibility for the justification of the radiation exposure of each patient, with special consideration for pregnant patients Cn. 3 based on the application of the referring physician responsibility for the choice and implementation of the nuclear medical operation with the least dose load, taking into account both the availability of radiopharmaceuticals as with other imaging modalities whether or not ionizing radiation exposure, which for the patient give Cn. 4 takes responsibility to comply with reference doses where applicable 1.10 radiation protection for employees and environment in nuclear medicine Knowledge Kn. 17 Describes general rules for working with open and sealed radioactive sources (quality control/marking) e. 2. Additional competences radiation protection for intervention radiologen 2.1 Radiation Physics Knowledge Ki. 1 understands the special requirements of imaging and the Visual quality aspects in vetting skills Vi. 1 Fits radiation physics to intervention to optimize protocols, with minimal exposure is used to reach the desired procedure-outcome 2.2 Equipment Knowledge Ki. 2 represent and understand in detail the following properties of slide/equipment: flat-panel/image intensifier-detectors (including problems with image intensifiers such as geometric distortion , effects of magnetic fields in the vicinity), continuous and pulsed acquisition (including frame rate, automatic brightness control, high-dose rate-screening, film recordings, ' last image hold ' and ' road mapping ') skills Vi. 2 uses the technical properties of the specific device, from day to day, which all quality-improvement dosisreducerende opportunities and, with the limitations of the intervention-slide/tripod are recognised Competences Ci. 1 choose the best equipment for intervention the patient population , based on the available resources/facilities 2.3 radiobiology Knowledge Ki. 3 light radiobiologische dose-effect relation (s) that are relevant to Interventional Radiology with regard to patient safety, including discussion on the physical and biological background; response of tissue after irradiation at the molecular, cellular and macroscopic level; models of stralingsgeïnduceerde tumors, genetic risks; and radiation effects for adults, children and on the conception 2.4 radiation protection in Interventional Radiology (x rays) knowledge Ki. 4 Defines ALARA and the applicability in the intervention practice Ki. 5 explains the meaning of justification and optimization as applied for intervention practices Ki. 6 clarifies the concepts and tools to for adult and pediatric patients the dose to master at intervention procedures Ki. 7 light the factors that affect image quality and dose in interventional radiology Ki. 8 describes the methods and tools for dose management in the Interventional Radiology Ki. 9
Explains the basic concepts for patient dose measurement and calculation in the Interventional Radiology Ki. 10 describes the main considerations relevant to radiation protection in the design of an intervention room Ki. 11 Makes an overview of expected doses (reference person) for the main intervention procedures Ki. 12 Explains quantitatively the risk and the dose determination for workers and public in interventional radiology Ki. 13 Explains and discusses the most recent evidence of low-dose effects on intervention radiologen skills Vi. 3 optimizes the procedure protocols by Sops and to scale to the patient Choose per situation Vi. fit 4 the best compromise between the ratio disadvantage/advantage, image quality, outcome of the procedure and the radiation exposure Vi. 5 oversees the use of personal protective equipment by the intervention executive role Center, supports the monitoring of workplaces and persons and determining the exposure, further investigation and follow-up, the health monitoring and capturing of these Vi. 6a provides advice on radiation protection measures and applies it to all relevant bodies Vi. 7 estimates of the effective dose due to of intervention procedures based on measurable exposure parameters (DOP, skin dose) Vi. 8 treasure in when a high skin dose is to be expected Vi. 9 Calculates the risk to the patient from the measured values of the dosimetriegrootheden that are used to harmful biological effects Competences Ci. 2 advises patients about radiation-related risks and benefits of a planned intervention procedure Ci. 3 Takes for each individual patient that undergoes an intervention procedure the responsibility for the justification of the radiation exposure , with special attention to pregnant (or possibly pregnant) patients Ci. 4 takes responsibility to optimize the technique/the protocol to a particular intervention procedure is used, based on the specific needs of the patient Ci. 5a takes responsibility for applying the principles of justification (balancing pros and cons), optimization (including ALARA) and setting up reference levels (if relevant, otherwise determining expected doses) in order to protect the patient against unnecessary radiation risk Ci. 6 takes responsibility for applying the optimal (adapted to the size and the problem) individual reporting for high-dose procedures (TIPS etc.)
CI. 7a takes responsibility for avoiding high skin doses, which can cause deterministic effects and for the optimization of the procedure as deterministic effects are unavoidable Ci. 8 Follows patients to see whether there are deterministic effects Ci. 9 takes responsibility for dose constraint and performs routines in which dose constraint of the staff ensure 2.5 Quality Knowledge Ki. 14 Defines quality management in interventional radiology. Explains the roles and responsibilities.
Ki. 15 lists the important components of image quality and the relationship of these with the exposure of the patient to a procedure Ki. 16a explains the principle of diagnostic reference levels at intervention procedures where relevant for or else the expected doses. Understand the effects of images of poor quality from intervention procedures skills Vi. 10 understands the effects of images of poor quality from intervention procedures Vi. 11 Avoids unnecessary exposure of the patient during intervention procedures by the techniques used to optimize (positioning and sizing of the bundle, gonad shielding, focus-skin distance, right bundle filtration, limit the slide time and capturing them, no unnecessary projections) Vi. 12 develops a Department policy to the doses of the intervention staff and staff as low as reasonably possible to keep 2.6 Law- and regulations Knowledge Ki. 17 specifies the relevant regulatory framework applying to the practice of Interventional Radiology in Netherlands skills Vi. 13 applies the found relevant directives to each clinical situation in interventional radiology Competences Ci. 10 takes responsibility for meeting the guidelines for the protection of the patient (including reference levels per procedure, where applicable) e. 3 additional attainment targets health physics for nuclear radiologists 3.1 patient radiation protection in nuclear medicine Knowledge Kn. 1 Specifies the relevant framework of laws and regulations on the exercise of nuclear medicine in Netherlands Kn. 2 makes a list of expected doses for the usual nuclear medical operations Kn. 3 explains the order size from the radiation risk as a function of the patient dose, gender, age and the treatment prognosis Kn. 4 explains the principles and tools to determine the custom activity for Pediatric nuclear medical operations (EANM pediatric dosing table) Kn. 5 explains the relevant regulations on the choice for out-patient treatment with radionuclides or recording of the patient, including dismissal criteria Kn. 6 Explains the principle and procedure of quality management for non-imaging equipment such as activiteitsmeters (dosiskalibratoren) and measuring probes (probes) Kn. 7 Explains the principle and procedure of quality management for imaging equipment, such as gamma cameras, SPECT, PET (and the combination with CT) Kn. 8a describes the principles and the associated process of administration of radiopharmaceuticals (intravenous, oral and inhalation) and has basic knowledge of the physiological behavior of radiopharmaceuticals and its consequences for the absorbed doses Kn. 9

Describes the action to be taken after incorrect administration of radiopharmaceuticals Kn. 10 explains the clinical consequences of therapy with radiopharmaceuticals to a (possible) pregnant patient or patient getting pregnant in the weeks after administration Kn. 11 describes the procedures how to deal with incontinent patients Kn. 12 explains the most important factors that determine the optimization of image quality versus the administered dose (activity) such as: the choice of collimator, energy window or tomografisch reconstruction algorithm Kn. 13 explains the options for optimizing the patient dose for CT during the use of combined imaging modalities such as PET/CT, SPECT/CT etc.
Kn. 14 explains the basics of MIRD-schedule, including time integrated activity in the source-region (cumulative activity) and time integrated activiteitscoëfficiënt (residence time) Kn. 15 States on the basis of a radioactive iodine uptake measurement which procedure is used to treat a benign thyroid condition Kn. 16 lists the therapeutic nuclear medical operations on that less frequent or in specialized institutes are carried out and the corresponding special radiation protection aspects Kn. (a) nl Lists indicated and non-indicated investigations at questions according to guidelines on the ethical and Light 25 Kn. legal aspects concerning the radiation exposure of volunteers in medical research involving radiopharmaceuticals are administered skills UN. 1 applies the principles of justification (assessment of risk/benefit) and optimization (including ALARA), taking into account existing guidelines on indications for nuclear medical Un operations. 2 decision which radiopharmaceuticals and procedures are used, in compliance with dose reference levels UN. 3 adjusts for any diagnostic or therapeutic operation European and national laws , regulations, recommendations and standards related to patient safety UN. 4 evaluates the radiation risk for embryo/fetus in relation to the benefits of a nuclear medical operation UN. 5 determines the application rate (activity) for pediatric patients, depending on the body mass organ doses and effective dose Un 6 Calculates from at times, using to that end developed software tools to apply Un 7 Choose the procedure for the treatment of benign thyroid disease on the basis of the data obtained by the radioactive iodine uptake measurement UN. 8 establishes a patient-specific treatment plan (along with a clinical physicist) for a given nuclear medical therapy UN. 9 Designs to follow policy for appropriate security measures for the inpatients that therapeutic doses radiopharmaceuticals administered have gotten UN. 10 Identifies clinical indications that the use of low-dose CT in multimodal imaging procedures allow UN. 11 Designs suitable measures for the settlement of unintentional or accidental exposure to radioactivity , eg. extravasale Un administration. 17 Reports radiation exposure of volunteers/patients due to medical research in clinical trials for ethical and regulatory approval Competences Cn. 1 advises patients about the risks and benefits of a planned nuclear medical operation Cn. 2 takes the responsibility for the justification of the radiation exposure of each patient, with special consideration for pregnant patients Cn. 3 based on the application of the referring physician responsibility for the choice and implementation of the nuclear medical operation with the least dose load, taking into account both the availability of radiopharmaceuticals as with other imaging modalities, which may or may not ionizing radiation exposure to the patient give Cn. 4 takes responsibility to comply with reference doses where applicable Cn. 5 takes the responsibility for it on the basis of patient-specific information to optimize the type of radiopharmaceutical and the administered dose (activity) that is used for a particular diagnostic nuclear medical operation Cn. 6 takes the responsibility to optimize the CT-patient dose at multimodal imaging modalities, depending on the clinical situation and the characteristics of the imaging device Cn. 7 Monitored quality control procedures for all equipment that is relevant to patient exposure (e.g. activiteitsmeters, measuring probes, imaging equipment such as gamma cameras, SPECT, PET) Cn. 8 takes responsibility for nuclear medical operations concerning therapeutic indication and compliance with authorized protocols Cn. 9 takes responsibility for applying the optimal dose (activity) for a given therapeutic nuclear medical operation as provided for in a patient-specific treatment plan (drawn up together with a clinical physicist) Cn. 10 Implements standard protocols for all diagnostic nuclear medical operations that take place regularly Cn. 11 Implements standard protocols for all therapeutic nuclear medical operations which are carried out regularly in a clinic Cn. 12 Implements standard protocols for handling unintentional or accidental exposure to ionising radiation Cn. 13 Advises breastfeeding patients about temporary or permanent abandonment of this according to the radiopharmaceutical administered and the administered dose activity Cn. 14 Advises both male and female patients about the period during which they conception should occur after a radionuclide therapy Cn. 21 takes responsibility for complying with legal and ethical requirements at exposing volunteers to radiation in medical research or patients in clinical trials 3.2 radiation protection for employees and environment in nuclear medicine Knowledge Kn. 17 Describes general rules for working with open and sealed radioactive sources (quality control/marking) Kn. 18 describes the main considerations relevant to the radiation protection in the design of a new Department of nuclear medicine , including a radionuclide laboratory for the preparation of radiopharmaceuticals or acts with open sources Kn. 19 Explains the nature and sources of internal and external radiation exposure for employees at the Department of nuclear medicine and for the public Kn. 20 explains the quantitative risk and the method of dose determination for employees at the Department of nuclear medicine Kn. 21 Makes an overview of nuclear medical operations that a potentially high dose on the extremities or the eye lens can cause , such as the use of high-energy Kn bètastralers. 22 explains the quantitative risk and the method of dose determination (as applicable) for public exposure, related to nuclear medical operations Kn. 23 Describes to which legally must be met on the management and use of open and closed radioactive sources; including the requirements for storage, blocking, capturing data and control (audit) Kn. 231 Describes where legal to to be met with regard to the management and disposal of radioactive waste and the transport of radioactive material Makes a list of 24 Kn. the relevant dose limits for employees (including organ doses), for pregnant employees and the general public as well as for family members and caregivers Kn. 25 moved to 3.1 Kn. 26 makes a overview of the relevant issues concerning occupational exposure associated to all the specialized procedures that are carried out in the own clinic and light this, eg. radiosynovectomie, bètastralers ' targeted'-therapies with alpha or 1 Original numbering held Un skills. 12 Develops a departmental policy for safe handling of open and sealed radioactive sources (including storage, foreclosure, administration, transport, waste) Develops a departmental policy to Un 13 both the dose of employees by external beam radiation as those by internal contamination (inhalation, ingestion) as low as reasonably achievable UN. 14 Identifies procedures that require special operational radiation protection measures , eg. additional shielding or remote control UN. 15 Identifies procedures that require special dose monitoring, e.g. vingerdosimetrie or provision of internal contamination Un Identifies procedures that require 16, that to the patient (and family and caregivers) instruction is given on how to minimize the radiation exposure (external and internal) UN. 17 moved to 3.1 UN. 18 develops policy in the Organization to optimize the exposure of patients and staff to ionizing radiation for medical operations and procedures all specialized nuclear Competencies Cn. 15 takes responsibility to comply with legal requirements and the ALARA principle with regard to occupational exposure and exposure of public on the own Department (ionizing) radiation Cn. 16 takes responsibility for establishing formal working methods (SOPs) Cn. to carry out procedures at the 17 implements a – with associated risks – appropriate monitoring program for workers for both external beam radiation and internal contamination Cn. 18 implements a departmental policy to pregnant workers to protect against internal-infection Cn. 19 Implements instructions to patients who leave the Department after a diagnostic nuclear medical operation , particularly with indium-111

CN. 20 Gives instruction to patients who are being made redundant after therapy with radionuclides (clinical or outpatient), in particular if iodine-131 is administered for the treatment of thyroid cancer or hyperthyroidism Cn. 21 moved to 3.1 Cn. 22 Implements standard protocols for all specialized procedures that are regularly carried out in the private clinic Annex 5.1. Article 5.2, part of the warning sign that is applied to indicators to which for lighting purposes radionuclides have been added, is a warning sign that such a size that it is recognizable to the naked eye. It concerns the following figure: Figure 1: Model of the warning sign to which for lighting purposes radionuclides have been added.
The background is yellow and the lines and the picture are black.
This warning sign shall be placed in such a way that starting from the outside of the pointing tool observable without the instrument first opened or taken apart.

Annex 5.2. , part of article 5.3 checking the construction after the production of indicators used for lighting purposes radioactive substances.

(I) the tests may be carried out on parts of the indicators. However, they are, if possible, with the entire pointing tool.

II Tests be performed on prototypes of each party indicators with the aim to determine whether the composition of the radioactive paint, the material used and the manufacturing method such that the components of the pointing device and the entire pointing device meet the prescribed standards. Prototype-testing is done on a suitable sample. The test includes: 1. Determining the used radionuclide and the activity thereof, and where relevant of the mark or warning sign referred to in article 28, point (e) of the Act radiation protection. According to an appropriate method is used the radioactive substance. A certificate in respect of the producer of the radioactive paint is sufficient.
a. by appropriate measurements, the activity of the radioactive substance.
b. the presence of any required markings is determined by Visual inspection (T 1 GBq for H-3 in light cells and Pm 10 MBq for Pm-147 in luminous paint).
c. the required markings must be visible to the naked eye from the outside of the pointing tool to be recognizable.
2. testing the construction (a). The adhesion of the paint containing radioactive substances to the dial is tested by the dial to attach to a trillingsapparaat and the dial for at least an hour to make it vibrate with a frequency between 20 and 30 vibrations per second and a vibration acceleration of not less than 2 g. b. Hands are bent on a cylinder of 2.5 cm diameter. If the length of the pointers exceed 1.5 cm, a cylinder with a larger diameter can be used, but this diameter should never be longer than the length of the pointer. If because of the construction of the pointing tool no bend test can be performed, a vibration test carried out in the same manner as described in (a).
c. after running the tests described (a) and (b) the attachment of the radioactive paint on the tested parts examined, for example by means of ultraviolet radiation or by measurement of the activity. There should be no loss of activity of significance occurred.

III during the manufacture of indicators, of which the prototypes are tested as described under II, it checks to see if the indicators and their parts correspond to those which have been tested as a prototype. This review includes at least a full Visual inspection of each pointing tool on cracking or flaking of the paint containing radioactive substances, imperfections in the transparent part of the casing of the pointing tool and the presence of warning and markings, if these are required.

Annex 5.3. , part of article 5.7 for the in the schedule with ' ✦ ' operations and activities with the following products (consumer goods), which is a limited risk of exposure of humans to have the effect, apply the prohibitions referred to in articles 23, 24 and 25, paragraph 1 of the decision does not, as far as the number of radiation protection at any time of the year does not exceed the specified number of items present.
Article of use Nuclide (Detail) trade waste collection Use Luminescence sources 3 H (500 pieces) ✦ ✦ ✦ (500 pieces) fluorescent starters 85Kr ✦ ✦ ✦ (1,000 pieces) (1,000 pieces) light stockings 232Th ✦ (1,000 pieces) antistatic agents 210Po, 241Am ✦ (10 pieces) welding rods 232Th ✦ (1,000 pieces) gas discharge tubes 60Co ✦ ✦ 232Th (50 pieces) Camera lenses (10 pieces) Thoriumhoudende lamps with an activity less than 100 Bq 232Th ✦ ✦ ✦ Annex 5.4. , part of article 5.8 of the in the schedule with ' ✦ ' operations and activities with the following products (consumer products) added the following radionuclides are not involved in a summons referred to in article 25, paragraph 4, of the decision in so far as the number of stralingsbescherming at any time of the year does not exceed the specified number of items present.
Article of use Nuclide (Detail) trade waste collection Exempted Use smoke detectors (500 pieces) ¹ 241Am 226Ra ✦ ✦ ✦ ✦ (500 pieces) Luminescence sources 3 H (500 pieces) ✦ ✦ ✦ 85Kr (500 pieces) fluorescent starters (1,000 pieces) ✦ ✦ ✦ (1,000 pieces) light stockings 232Th (1,000 pieces) antistatic agents 210Po, 241Am ✦ (10 pieces) welding rods 232Th ✦ (1,000 pieces) gas discharge tubes 60Co ✦ ✦ 232Th (50 pieces) Camera lenses (10 pieces) Thoriumhoudende lamps with an activity less than 100 Bq 232Th ✦ ✦ ✦ ¹ exemption on the basis of article 5.11.

Annex 5.5. , part of the articles 5.9 to 5.11 Approved detectors are: make Type Nuclide activity 1.
AFA-Minerva F 712 Am-241 30 km becquerel 2.
AJAX 131 series Am-241 30 km becquerel 3.
Apollo Series 30 Am-241 34 km becquerel 4.
Apollo Series 60 Am-241 34 km becquerel 5.
Apollo Series 90 Am-241 34 km becquerel 6.
Apollo XP 95 Am-241 33 km becquerel 7.
Al Arco 1 Am-241 34 km becquerel 8.
Aritech DI 612 Am-241 34 km becquerel 9.
Aritech DI 622 Am-241 34 km becquerel 10.
Aritech DI 650 Am-241 33.3 km becquerel 11.
Aritech DI 650L Am-241 33.3 km becquerel 12.
Aritech DI 651 Am-241 33.3 km becquerel 13.
Aritech DI 651L Am-241 33.3 km becquerel 14.
Aritech DI 722 Am-241 34 km becquerel 15.
Aritech DI 722 I Am-241 34 km becquerel 16.
Aritech DI 722 R Am-241 34 km becquerel 17.
Aritech DI 860 Am-241 34 km becquerel 18.
Aritech DI 860F Am-241 33.3 km becquerel 19.
Aritech DI 860M Am-241 33.3 km becquerel 20.
Aritech DI 861 Am-241 34 km becquerel 21.
Aritech DI 870 Am-241 33.3 km becquerel 22.
Aritech DI 33.3 km becquerel 871 Am-241 23.
Aritech DI 900 series Am-241 34 km becquerel 24.
Aritech DI 950 Am-241 34 km becquerel 25.
Aritech DI 950B Am-241 33.3 km becquerel 26.
Aritech DI 950F Am-241 33.3 km becquerel 27.
Aritech DI 950 m Am-241 33.3 km becquerel 28.
Aritech DI 970 Am-241 33.3 km becquerel 29.
Aritech DI 2072 Am-241 34 km becquerel 30.
Autronica BJ-20 Am-241 34 km becquerel 31.
Autronica BJ-20B Am-241 34 km becquerel 32.
Autronica BJ-20B/Ex Am-241 34 km becquerel 33.
Autronica BJ-30 Am-241 34 km becquerel 34.
Autronica BJ-31 Am-241 34 km becquerel 35.
Autronica BJ-31/Ex Am-241 34 km becquerel 36.
Autronica BJ-3 Am-241 34 km becquerel 37.
Autronica BJ-4 Am-241 34 km becquerel 38.
Black Decker A 9422 Am-241 34 km becquerel & 39.
Black Decker A 9423 Am-241 34 km becquerel & 40.
Black Decker A 9424 Am-241 34 km becquerel & 41.
Black Decker A 9425 Am-241 34 km becquerel & 42.
Black Decker A 9426 Am-241 34 km becquerel & 43.
Black Decker A 9427 Am-241 34 km becquerel & 44.
Black Decker A 9428 Am-241 34 km becquerel & 45.
Black Decker A 9430 Am-241 34 km becquerel & 46.
Black Decker A 9431 Am-241 34 km becquerel & 47.
Black Decker & SMK 12 Am-241 34 km becquerel 48.
Black Decker SMK & 6 d Am-241 34 km becquerel 49.
Black Decker SMK 20 Am-241 34 km becquerel & 50.
BRK 1451 Am-241 37 km becquerel 51.
BRK 1451 E Am-241 37 km becquerel 52.
BRK 1551 Am-241 37 km becquerel 53.
BRK 1800 EC Am-241 37 km becquerel 54.
BRK 1800 EC-TD Am-241 37 km becquerel 55.
BRK 1800 ETN-v Am-241 37 km becquerel 56.
BRK 4220 SB Am-241 37 km becquerel 57.
BRK 4919E Am-241 37 km becquerel 58.
BRK 83R Am-241 37 km becquerel 59.
BRK 83RI Am-241 37 km becquerel 60.
BRK 83 p Am-241 37 km becquerel 61.
BRK 86RACE Am-241 37 km becquerel 62.
BRK 86RACHE10 Am-241 37 km becquerel 63.
BRK 76RD SA Am-241 37 km becquerel 64.
BRK SA76 CEC Am-241 37 km becquerel 65.
BRK SA83R12CEC Am-241 37 km becquerel 66.
BRK SA88UK Am-241 37 km becquerel 67.
BRK SA88 CEC Am-241 37 km becquerel 68.
BRK SA90 CEC Am-241 37 km becquerel 69.
BRK SA90TT Am-241 37 km becquerel 70.
BRK SA97CEC Am-241 37 km becquerel 71.
BRK SA120C-UK Am-241 37 km becquerel 72.
BRK SA150CEC Am-241 37 km becquerel 73.
BRK SA1201UK Am-241 37 km becquerel 74.
Cerberus F7 series Am-241 30 km becquerel 75.
Cerberus F8 series Am-241 15 km becquerel 76.
Cerberus BR8 series Am-241 15 km becquerel 77.
Cerberus F9 series Am-241 30 km becquerel 78.
Ceberus BR9 series Am-241 30 km becquerel 79.
Cerberus BR20 series Am-241 30 km becquerel 80.
Chloride Ghent 7201-01 Am-241 30 km becquerel 81.
Chubb DS1 Am-241 37 km becquerel 82.
Chubb Firepower Am-241 34 km becquerel 83.
Deltronic (Ikea Family fire detector) (SS-750) 168101 Am-241 40 km becquerel 84.
Detectomat 1430 Ra-226 5 km becquerel

Detectomat 1431 Am-241 30 km becquerel 85.86.
DiCon 300 Am-241 37 87 km becquerel.
DiCon 300 B Am-241 37 km becquerel 88.
DiCon 300 AP Am-241 37 km becquerel 89.
DiCon 300 I Am-241 37 km becquerel 90.
DiCon 350 Am-241 37 km becquerel 91.
DiCon 370 MB Am-241 37 km becquerel 92.
DiCon 330 M Am-241 37 km becquerel 93.
DiCon 570 M Am-241 37 km becquerel 94.
DiCon 570 MC Am-241 37 km becquerel 95.
DiCon 670 M Am-241 37 km becquerel 96.
DiCon 670 MC Am-241 37 km becquerel 97.
DiCon 670 MRC Am-241 37 km becquerel 98.
DiCon SA900 Am-241 33 km becquerel 99.
Distrilec SMA 950 Am-241 37 km becquerel 100.
E. I 100 series Am-241 34 km becquerel 101.
E. I EGG-131 Am-241 37 km becquerel 102.
E. I EGG-141 easi-fit Am-241 37 km becquerel 103.
E. I EGG-150 Am-241 37 km becquerel 104.
E. I EGG-151TL Am-241 37 km becquerel 105.
E. I EGG-161 easi-fit Am-241 37 km becquerel 106.
ELRO RM100 Am-241 37 km becquerel 107.
ELRO RM105 Am-241 37 km becquerel 108.
ELRO RM110/2 Am-241 37 km becquerel 109.
ELRO RM120 Am-241 37 km becquerel 110.
ELRO RM200 Am-241 37 km becquerel 111.
Esser 1054 Am-241 12 km becquerel 112.
Esser 1056 Am-241 12 km becquerel 113.
Esser 1061 Am-241 5 km becquerel 114.
Esser 1061-Ex Am-241 5 km becquerel 115.
Esser 1062 Am-241 5 km becquerel 116.
Esser 1071 Am-241 5 km becquerel 117.
Esser 1963 Am-241 5 km becquerel 118.
Esser 1963-Ex Am-241 5 km becquerel 119.
Esser 1973 Am-241 5 km becquerel 120.
Esser 1979 Am-241 5 km becquerel 121.
Am-241 37 km becquerel family Gard FG 888 122.
Ferm FR-100 Am-241 34 km becquerel 123.
Ferm FR-105 Am-241 34 km becquerel 124.
Ferm FR-150 Am-241 34 km becquerel 125.
Fire Sentry 0914 Am-241 37 km becquerel 126.
First Alert FG888LCE Am-241 37 km becquerel 127.
First Alert SA 76 Am-241 37 km becquerel 128.
First Alert SA 88 EC Am-241 37 km becquerel 129.
First Alert SA 88 UK Am-241 37 km becquerel 130.
First Alert SA120C Am-241 37 km becquerel 131.
First Alert SA150TT Am-241 37 km becquerel 132.
Flamingo S1201 Am-241 37 km becquerel 133.
Fritz Fuss 60,000 Ra-226 5 km becquerel 134.
Fritz Fuss 60,020 Ra-226 5 km becquerel 135.
Fritz Fuss 60,500 Am-241 30 km becquerel 136.
Fritz Fuss 60,520 Am-137 241 30 km becquerel.
Fritz Fuss 62050 Ra-226 5 km becquerel 138.
Fritz Fuss 62051 Am-241 30 km becquerel 139.
Fritz Fuss 62150 Ra-226 5 km becquerel 140.
Fritz Fuss 62151 Am-241 30 km becquerel 141.
CA45 easy Hapé alert Am-241 37 km becquerel 142.
CA46 easy Hapé alert Am-241 37 km becquerel 143.
Alert Am-241 37 km becquerel CA47 easy Hapé 144.
CA48 easy Hapé alert Am-241 37 km becquerel 145.
Hekatron 131 series Am-241 30 km becquerel 146.
Hekatron 136 series Am-241 30 km becquerel 147.
Hekatron 141 series Am-241 30 km becquerel 148.
Hekatron 149 151 series Am-241 30 km becquerel.
Hekatron 531 series Am-241 30 km becquerel 150.
Hekatron 551 series Am-241 30 km becquerel 151.
Hochiki SIF-E Am-241 37 km becquerel 152.
Hochiki SIH-E Am-241 19 km becquerel 153.
101 Am-241 40 km becquerel Homewatch 154.
105 Am-241 40 km becquerel Homewatch 155.
106 Am-241 40 km becquerel Homewatch 156.
Honeywell TC 100 c Am-241 34 km becquerel 157.
IMS 102 CN Am-241 33 km becquerel 158.
Jameson Home Products CD 1 Am-241 37 km becquerel 159.
Jameson Home Products CD 23 Am-241 37 km becquerel 160.
Kidde Safety 0914 Am-241 37 km becquerel 161.
Kidde Safety 0915 Am-241 37 km becquerel 162.
Kidde Safety 0916 Am-241 37 km becquerel 163.
Kidde Safety 0916LL Am-241 37 km becquerel 164.
Kidde Safety 0918 Am-241 37 km becquerel 165.
Kidde Safety 1275 Am-241 37 km becquerel 166.
700 Am-241 Kilsen KL-18.5 km becquerel 167.
Kilsen KL-700A Am-241 168 18.5 km becquerel.
James Stuart GD 22 Am-241 34 km becquerel 169.
170 0905 Am-241 37 km becquerel lifesavers.
Maple Chase I240C Am-241 37 km becquerel 171.
Maple Chase Firex A Am-241 37 km becquerel 172.
Maple Chase FXB-1 Am-241 37 km becquerel 173.
Maple Chase FX-830 Am-241 37 km becquerel 174.
Menvier MID-610 Am-241 26 km becquerel 175.
Menvier MID-710 Am-241 34 km becquerel 176.
Minimax IMX 1001 E Am-241 3 km becquerel 177.
Minimax IMX 1111 E Am-241 3 km becquerel 178.
Minimax IMX 1101 E Am-179 241 3 km becquerel.
Nittan NID 58F Am-241 26 km becquerel 180.
Nittan 2 IC Am-241 26 km becquerel 181.
Nittan ST-I Am-241 34 km becquerel 182.
Nortron EW-1 Am-241 37 km becquerel 183.
Notifier CP-18.5 km becquerel 184 651st Am-241.
Notifier CPX-551 Am-241 37 km becquerel 185.
Notifier CPX-751E Am-241 186 18.5 km becquerel.
Nugelec DIF-910 Am-241 33 km becquerel 187.
Plasplugs SA 110 Am-241 33 km becquerel 188.
Plasplugs SA 111 Am-241 33 km becquerel 189.
Plasplugs SA 112 Am-241 33 km becquerel 190.
ProMax SD 170 h Am-241 37 km becquerel 191.
Ranex RX 2550 Am-241 40 km becquerel 192.
Smokeguard SS-168 Am-241 40 km becquerel 193.
Smokeguard SS-328 Am-241 40 km becquerel 194.
System Sensor 400 series Am-241 37 km becquerel 195.
System Sensor 196 500 series Am-241 37 km becquerel.
System Sensor 1151st Am-241 18.5 km becquerel 197.
System Sensor 1251E Am-241 18.5 km becquerel 198.
System Sensor 1451E Am-241 37 km becquerel 199.
System Sensor 1551E Am-241 37 km becquerel 200.
Telenorma BD101I Ra-226 5 km becquerel 201.
Telenorma BD102IA Am-241 30 km becquerel 202.
Telenorma NIM 100 Am-241 30 km becquerel 203.
Thorn Security MF300 series Am-241 33 km becquerel 204.
Thorn Security MF500 series Am-241 33 km becquerel 205.
Thorn Security MF 601 Am-241 33 km becquerel 206.
Thorn Security MF 601 H Am-241 33 km becquerel 207.
Thorn Security MF 601 L Am-241 33 km becquerel 208.
Thorn Security MF 612 Am-241 33 km becquerel 209.
Thorn Security MF 612 H Am-241 33 km becquerel 210.
Thorn Security MF 612 L Am-241 33 km becquerel 211.
Thorn Security MF 901 Am-212 241 33 km becquerel.
Thorn Security MF 912 Am-213 241 33 km becquerel.
Thorn Security P series Am-241 33 km becquerel 214.
Thorn Security PF series Am-241 33 km becquerel 215.
Universal DET U.D. 09 Am-241 34 km becquerel 216.
Westinghouse HRD-2A Am-241 19 km becquerel 217.
Zettler A610 Am-241 19 km becquerel 218.
Zettler A670 Am-219 241 19 km becquerel.
Zettler IR3 series Am-241 18.5 km becquerel 220.
Z. Z310 Am-241 34 km becquerel 221.
Z. Z610 Am-241 34 km becquerel 222.
Z. ZP 610 Am-241 34 km becquerel 223.
Z. ZP 710 Am-241 34 km becquerel 224.
GE Security ZP710-2 Am-241 225 33.3 km becquerel.
GE Security ZP710EX-1 Am-241 226 33.3 km becquerel.
GE Security EA10E-2 Am-241 227 33.3 km becquerel.
GE Security I-Am-241 33.3 km becquerel 228 17001.
GE Security ISDI2000 Am-241 33.3 km becquerel 229.
GE Security Z610-1 Am-241 33.3 km becquerel 230.
GE Security Z610A-1 Am-241 231 33.3 km becquerel.
GE Security I-7001 Am-241 232 33.3 km becquerel.
GE Security ISDP2004 Am-241 33.3 km becquerel 233.
GE Security E610-3 Am-241 234 33.3 km becquerel.
GE Security E610U-2 Am-241 235 33.3 km becquerel.
GE Security ECIOU-3 Am-241 236 31.5 km becquerel.
GE Security SIGA-5.18 241 km becquerel IPHS Am-237.
GE Security SIGA-IPHSI Am-241 238 5.18 km becquerel.
GE Security SIGA-IPHSB Am-241 5.18 km becquerel 239.
GE Security SIGA-IS Am-240 241 37 km becquerel.
GE Security SIGA-ISI Am-241 241 37 km becquerel.
GE Security XLS IS Am-241 37 km becquerel Annex 5.6. , part of article 5.11 the indication referred to in article 5, paragraph 1 (c) and paragraph 2 (a), in accordance with the prescribed text and image below. The image must be at least 1 cm in diameter. The text must be legible at a distance of 0.5 metres.
Image: text: This smoke detector contains a very small amount of radioactive material, which is not dangerous to the user, if the smoke detector is installed, operated and maintained as is written in the manual.

Annex 6.1. , part of article 6.1 of this annex, the following definitions shall apply: • a: activity referred to in article 1 of the decision radiation protection;
• D: D value, determined in accordance with table 1 of the document ' Dangerous Quantities of Radioactive Material (D-Values) ', EPR-D-Values 2006, of the International Atomic Energy Agency (IAEA) 36, with the lowest value is taken.

Classification of radioactive substances as referred to in article 6.1:1 artificial radioactive substances radioactive substances Category: nuclear batteries sterilization, research and blood irradiation teletherapy equipment fixed, multi beam teletherapy or Other artificial radioactive substances of which: A/D > 1000 2 artificial radioactive substances for: industrial range photography brachytherapy (stralingsdosis rate of 2.0 Gy or higher) or other artificial radioactive substances : 1,000 > A/D > 10 3 artificial radioactive substances: high activity sources in hard industrial measuring equipment source t.b.v. bemetingsapparatuur oil and gas extraction (well logging) or Other artificial radioactive substances of which: 10 > A/D > 1 for the purposes of this table, the format in a category only determined using the A/D value if: a. the radioactive substance is not classified in a category by explicit indication in the table; or b. different radioactive materials are used or stored in one room, without separate security measures per substance and the aggregated A/D value does not lead to classification in a category that is lower than the category in which the individual substances are classified on the basis of explicit indication.
In the situation, referred to in subparagraph (b), the total activity of the radioactive substances in the category format considered as one whole. To this end, the A/D-value is determined according to the formula: in which: • Ai, n = activity of any radioactive substance or sealed source i with radionuclide n • Dn = D value for radionuclide Annex 7.1. , part of article 7.2



List of activities where possible exemption values are exceeded No. Type industry no. kind of efficacy No. Natural resources for which notification or approval or otherwise regulation by the competent authority in the framework of the Kew could apply 1 thermal phosphoric production 1.1 Storage 1.1.1 substances released as a result of the production of elemental phosphorus, phosphoric acid and derivative products, such as cotrellstof Cotrellstof, calcinaat, cotrellslurry and cotrellslurry, calcinaat 1.3 1.2 production 1.2.1 Decontamination or cleaning 1.3.1 Infected installation parts to be repaired or serviced 1.4 1.4.1 Infected plant parts 1.5 internal material-cotrellslurry Cotrellstof 1.5.1 and 1.5.2 (re) use Oven wall material and ovenuitruimmateriaal 1.5.3 Substances released during decontamination, maintenance or cleaning work 1.5.4 Infected plant parts 1.6 discharge into the water or air 1.6.1 substances released as a result of the production of elemental phosphorus. , phosphoric acid and derivative products 1.7 Transfer to third parties for (re) use or for waste 1.7.1 Phosphorus slag, cotrellstof, cotrellslurry, calcinaat and infected plant parts 2 zinc production 2.1 Storage 2.1.1 substances released as a result of the production of zinc, such as Transfer to third parties for (re) cobaltkoek 2.2 use or waste 2.2.1 Cobaltkoek and infected installation parts 3 steel production 3.1 3.1.1 Storage substances released as a result of the ore preparation 3.1.2 Substances released during decontamination of installation components 3.1.3 substances released at coke production 3.2 internal material reuse 3.2.1 substances released as a result of the ore preparation 3.3 discharge into the air or water 3.3.1 substances released as a result of the production of pig iron or coke and as a result of the ore preparation 2.1 Transfer to third parties for (re) use or for waste 3.4.1 Filter fabric and infected plant parts 4 Titanium oxide pigment production 4.1 Storage 4.1.1 (waste) substances released as a result of the production of titanium oxide pigment 4.2 Transfer to third parties for (re) use or 4.2.1 as waste (waste) substances released as a result of the production of titanium oxide (TiO 2) Discharge pigment 4.3 4.3.1 Discharges on water (surface) 5 power generation 5.1 Storage 5.1.1 Infected installation parts 5.1.2 Substances released during decontamination, maintenance or cleaning work 5.2 Decontamination or cleaning 5.2.1 Infected installation parts 5.3 5.3.1 Infected installation parts to be repaired or serviced 5.4 discharge into air 5.4.1 substances released as a result of the production of electricity such as oil, gas or kolenstook 6 oil or gas Storage 6.1 6.1.1 6.1.2 installation components Contaminated sludge and scales and other products released during normal production, decontamination, maintenance or cleaning work 6.2 Decontamination or cleaning 6.2.1 With scales or sludge infected plant parts 6.3 repair or maintenance, demolition of installations 6.3.1 With scales or sludge infected installation components 6.4 Product (re) use 6.4.1 Infected plant parts 6.5 discharge into the air or water 6.5.1 substances released as a result of the production of oil or Gas Transfer to third parties 6.6 6.6.1 Infected plant parts 6.6.2 sludge and scales and other products released during normal production, decontamination, maintenance or cleaning work 7 Operation of mineral minerals, Sands and secondary (raw) materials 7.1 Times, break and micromiseren 7.1.1 Zircon sands, bauxite, tantalite, columbite, coltan, struversiet, baddeleyte, monaziet, scheelite, ilmenite, rutile, slag and phosphorus spodumene 7.2 Storage 7.2.1 7.2.2 installation components Contaminated sludge and scales and other products released during normal production , decontamination, maintenance or cleaning work 7.3 7.3.1 7.3.2 If Transfer to third parties as 7.2.1 7.2.2 8 glass industry 8.1 Application Zircon Alumina Casting (ZAC) as refractory materials in glass furnaces 8.1.1 ZAC-stone 8.2 Replacement ZAC-stone 8.2.1 Waste-ZAC-Stone 9 Fine ceramics 9.1 Storage 9.1.1 Zircon sands 9.2 Mixing 9.2.1 Zircon sands 10 Foundries 10.1 Mixing 10.1.1 Zircon sands 10.2 Forms 10.2.1 Zircon sands 10.3 material (re) use 10.3.1 Formed zircon sands 10.4 Storage 10.4.1 Zircon sands 10.4.2 Zircon sands that are no longer reused 10.5 10.5.1 Zircon sands Transfer to third parties
10.5.2 Zircon sands that are no longer reused 11 (metal) surface treatment 11.1 Plasma spray coating and plasma 11.1.1 Zircon oxide or yttrium oxide 11.2 11.2.1 Cerium oxide Polishing 11.3 use of blasting and polishing compounds based on zircon connections 11.3.1 grinding wheels and other instruments based on zircon connections 7.1 Transfer to third parties 11.4.1 waste of coatings and used blasting and polishing agent 12 Production of welding electrodes and welding rods 12.1 12.1.1 Zircon oxide storage and production thoriumhoudend, tungsten and zircon sands 12.1.2 rutile ore and ilmenite 13 raw materials welding and plumbing companies 13.1 Storage welding electrodes and welding rods 13.1.1 Zirkoonhoudend substances Zirkoonhoudende Thoriumhoudende Wiglassen 13.3 13.3.1 Sharpening 13.2 13.2.1 substances substances 14 Ground-civil engineering (GWW) 14.1 14.1.1 Phosphorus Storage of building materials snail 14.2 Material (re) use as building materials 14.2.1 snail 15 Phosphorus chemical industry 15.1 Storage 15.1.1 Chlorides of rare earths and zircon 15.2 Preparation Fluid Cracking Catalyst (FCC) 15.2.1 Chlorides of rare earths and zircon 15.3 Decontamination 15.3.1 Infected plant parts or cleaning (with radiumscales) 15.4 repair or maintenance 15.4.1 Infected installation components (with radiumscales) 15.5 Transfer to third parties for (re) use or for waste 15.5.1 Infected installation components (with radiumscales) 16 Fertilizer production 16.1 16.1.1 Storage substances released as a result of the production of fertilizer 16.1.2 Sludge that released during cleaning or Decontamination decontamination 16.2 16.2.1 Infected plant parts to be repaired or serviced 16.3.1 Infected installation components 16.4 16.3 Transfer to third parties for (re) use or as waste 16.4.1 Infected plant parts 17
Demolition companies 17.1 17.1.1 Storage slag wool slag wool plants 17.2.1 17.3 17.2 demolition of Transfer to third parties for (re) use or as waste slag wool 17.3.1 released during demolition waste storage 18 18.1 18.1.1 to process radioactive waste Processing Save 18.2.1 radioactive waste in landfill 18.2 is 18.3 18.3.1 Deponie radioactive waste in landfill is 19 Veem companies 19.1 Storage 19.1.1 19.1.2 recommendations Tantalum minerals and scrap thereof snails 19.1.3 Zircon sands , bauxite, tantalite, columbite, coltan, struveriet, baddeleyte, monaziet, scheelite, ilmenite, rutile, slag and phosphorus 19.1.4 spodumene 19.1.5 Infected installation parts sludge and scales and other products released during normal production, decontamination, maintenance or cleaning work 20 gas transport 20.1 Storage 20.1.1 Infected installation parts 20.1.2 sludge and scales released during normal production, decontamination, maintenance or cleaning work 20.2 Decontamination or cleaning 20.2.1 With scales or sludge infected installation parts 20.3 repair or maintenance 20.3.1 With scales or sludge, demolition of plants infected plant parts 20.4 20.4.1 Infected (re) use Product installation parts 21 research institutes 21.1 Kwalitetsonderzoek 21.1.1 Trial materials minerals (ores and ore concentrations), snails etc. not intended for the nuclear fuel cycle 21.2 Storage 21.2.1 Material that is released in which enrichment may occur 22 transportation companies of natural materials 22.1 22.1.1 Storage related to transport Substances involved in all the aforementioned work 22.2 loading and unloading on location 22.2.1 Substances involved at all the aforementioned work 22.3 actually 22.3.1 Transport substances whose transport activity (Bq-total) is greater than 10 times the exemption values and the activity concentrations (Bq/g) is higher than the exemption values set out in annex 1, table 1 of the decision 23 Scrap metal-scrap processing and trade companies that fall under the decision detection Radioactive Contaminated Scrap scrap scrap Processing 23.1.1 23.1 23.2 discard scrap 23.2.1 Contaminated Scrap 23.3 storage of scrap iron scrap Contaminated 23.3.1 24 industrial cleaning or cleaning companies 24.1 Cleaning of infected materials, devices etc., parts and other materials Contaminated equipment 24.1.1 Annex 7.2. , part of article 7.3 method of summation and assessment of doses as a result of work 1A. Weighted summation of activities and activity concentrations from natural sources at radionuclide decay chains for cross-check with notification or approval natural materials will often radionuclides from the same decay chain (parent and daughter nuclides) M + or Msec (further with M +). In that case there are three situations: a. the activity of the daughter nuclides is equal to the activity of the mother nuclide M b. There are more daughter nuclides present than according to the decay chain can be expected or c. There are fewer daughter nuclides present than according to the decay chain can be expected.
For the summation and weighting of the activities or activity concentrations for the assessment under the exemption or release values in annex 1 of this regulation, in any of these situations the indicated method applied.

a. the activity of the daughter nuclides is equal to the activity of the mother nuclide M

The exemption or release value of the decay chain M + (the mother nuclide including the daughter nuclides) is taken. The daughter nuclides are not considered, but are (indirectly) at the summons.

b.1. There are more daughter nuclides present than according to the decay chain can be expected there should be a choice from the following three methods: i. it is assumed that there is a (secular) equilibrium between the parent nuclide and part of the daughter nuclides and that there is still some remaining daughters. The latter concentrations are weighted with the release values for the daughters are given and summoned with the outcome of the weighting of the balance.
II. it is assumed that the mother nuclide in (secular) equilibrium with the daughter nuclides and the parent nuclide has the activity or activity concentrations of the daughter nuclide with the highest activity activity concentrations respectively. Then the exemption or release values for M + apply.
III. all radionuclides from the decay chain are separately considered and therefore included in the (weighted) summation using their respective exemption or release values.

b.2. the daughter nuclides are present, but the mother nuclide is in the process eliminated (specialisation of point b) there must be a choice from the following two methods: i. it is assumed that the mother nuclide is present and in (secular) equilibrium with the daughter nuclides and the parent nuclide has the activity or activity concentrations of the daughter nuclide with the highest activity or activity concentrations. Next is the exemption or release value for M +;
II. all actually be apart from the decay chain radionuclides present considered and therefore included in the (weighted) summation using their respective exemption or release values.

c. There are fewer daughter nuclides are present then according to the decay chain can be expected there should be a choice from the following three methods: i. the activity or activity concentrations is overrated by assuming that the daughter nuclides in (secular) equilibrium with the mother nuclide. Then the activity activity concentrations of the parent nuclide taken respectively and are the exemption or release values for the whole decay chain M +;
II. for the activities or activity concentrations of the daughter nuclides including the mother nuclide in (secular) equilibrium, the entire relevant decay chain M + a activity or activity concentrations assumed to be equal to the lowest activity measurement respectively of (one of) the daughter nuclides. The chain is then weighed summoned with the remaining part of the activity activity concentrations respectively of the mother nuclide and, where appropriate, one of the daughters that are higher than in (secular) equilibrium;
III. all nuclides of the decay chain are separately considered and all feed into the (weighted) summation using their exemption or release values.

1B. Radionuclides used in the measurement and summation of activities or activity concentrations of natural resources not be regarded for the purposes of assessment referred to in point 1A of this annex, the activities and activity concentrations of the below mentioned under (a) to (d) (natural) radionuclides not included in the summation and therefore for the purposes of this review not determined.

a. in the case of non-discharges i. the radionuclides not listed in table 1 of annex 1 of the decision;
II. the radionuclide K-40, in building materials in the ground-, road-or water construction, iii. U-235sec and daughters as far as natural resources do not come from or formed in processes where an enrichment of the radionuclides from the U-235 decay chain can take place;
IV. Th-234;
v. radionuclides with a half-life of less than 10 days, unless part of a parent-subsidiary chain in equilibrium (M +).

b. by waste in air or water the radionuclides not listed in table 2 to annex 1.1.

c. by waste in water i. Th-234;
II. Ra-223;
III. Ra-224;
IV. all nuclides from the U-235 decay chain.

d. in addition, i. you do-234 not determined to be as the amount of activity or activity concentrations at the weighted summation is equated to those of you-238sec and ii. Th-230 not determined as the amount of activity or activity concentrations at the weighted summation is equated to those of you-238sec, unless there can reasonably be expected the Th-230 activity/activity concentrations clearly higher than the U-238 activity/activity concentrations.

2. Method for the determination of doses due to natural sources by waste and non-discharges in the determination of the dose resulting from ingestion, inhalation or external radiation are in principle all radionuclides (and their dose coefficients). However, this provision can also using so-called key-radionuclide or trigger.
For members of the public can be conservative but realistic doses initially estimated.
On the external radiation dose can, as the distance between the source and the border location is larger, a coarser, but realistic, conservative estimate. If the external radiation dose with this rough estimate comes out less than 10 µSv ambient dose equivalent [H * (10)] in a calendar year is a further calculation unnecessary. These 10 µSv is the secondary level for external radiation (SN-ext). The H * (10) is not entirely equal to the effective dose [E] as a result of a 24-hour stay, but can be considered equal. Can be specified: E < 10 µSv in a calendar year or E 17 years) of table 2 of annex 1.4. ^ [31] for the last column values for the to use eing (e (g) > 17 years) of table 1, annex 1.4.
^ [32] this may be of interest, for example, for discharges in air that only under certain weather conditions, for which the usually used weather statistics (on annual basis) are not applicable in the dispersion calculation.
^ [33] In the description of the final terms for the male double form chosen in order to avoid every time he/she.
^ [34] PROgnosis-based Lifetime Attributable Risk Approximation.
^ [35] the items listed in this and the two following, analog sections are the actual learning objectives of the course stralingshygiëne.
http://www-pub.iaea.org/MTCD/publications/PDF/EPR_D_web.pdf ^ ^ [36] [37] DOVIS a: Dose calculation for the environment at Licensing ionizing radiation, part A-discharges to air and water, RIVM report 610310006/2002 DOVIS, 2002 B: dose calculation for the environment at Licensing ionizing radiation, part B-external radiation, NRG 20733 report/02.45655/C, 2002