jeff-3.1/-3.1.1 radioactive decay data and fission yields ... · 1 jeff-3.1 fission product mass...
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Data Bank ISBN 978-92-64-99087-6
The JEFF-3.1/-3.1.1 radioactive decay data and fission yields sub-libraries
JEFF Report 20
M.A. Kellett International Atomic Energy Agency
O. Bersillon Commissariat à l’énergie atomique
R.W. Mills National Nuclear Laboratory
© OECD 2009 NEA No. 6287
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FOREWORD
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Foreword
The Joint Evaluated Fission and Fusion (JEFF) Project [formed following the merger of the Joint Evaluated File (JEF) and the European Fusion File (EFF) Projects in 1995] is a collaborative effort among NEA Data Bank member countries to develop a reference nuclear data library for use in different energy applications. The first version of the JEF series of libraries, JEF-1, was issued in 1985, followed in 1993 by a second version, JEF-2.2. In 2005, a completely revised third version, JEFF-3.1, was made available. In 2007, the updated JEFF-3.1.1 Radioactive Decay Data and Fission Yields Sub-libraries were also released.
This report describes the development, contents and initial validation of the JEFF-3.1 Radioactive Decay Data and Fission Yields Sub-libraries, including the 2007 update, JEFF-3.1.1, of these sub-libraries.
Many laboratories throughout Europe have engaged in the data evaluation, processing and validation phase. The main contributors to the decay and fission yields files were: CEA and LNHB, France; BNFL, UKAEA and Serco Assurance, United Kingdom; and the IAEA, Austria. Further support was received from the following national industries: COGEMA, Électricité de France and Framatome-ANP from France and British Nuclear Fuels Ltd from the United Kingdom.
The authors acknowledge the dedication of many colleagues in the nuclear data community to the project, without whom such work would not have been possible, in particular: M-M. Bé, J. Blachot, C.J. Dean, R.A. Forrest, T.D. Huynh, C. Mounier, A.L. Nichols, R.J. Perry, B. Roque, O. Serot and J-M. Vidal.
TABLE OF CONTENTS
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Table of contents
Foreword.......................................................................................................................................................... 3
Introduction .................................................................................................................................................... 7
1 Radioactive decay data sub-library production .................................................................................. 9
1.1 Basic data source – NUBASE ........................................................................................................... 9
1.2 JEFF-3.1 – additional data sources .................................................................................................. 9
1.3 JEFF-3.1.1 – additional data sources ............................................................................................... 10
1.4 Library verification and allocation of material number .............................................................. 11
2 Radioactive decay data sub-library contents ...................................................................................... 13
2.1 Summary of the major decay modes in JEFF-3.1/-3.1.1 ............................................................... 13
2.2 Radiation following decay to a metastable state ......................................................................... 13
2.3 Atomic weights and natural abundances ..................................................................................... 14
2.4 Inclusion of total absorption gamma-ray spectrometry (TAGS) measurements .................... 14
2.5 Total number of neutrons per fission )( totalυ ................................................................................ 14
2.6 Values in JEFF-3.1 updated in JEFF-3.1.1 ........................................................................................ 14
2.7 Listing of the main parameters of JEFF-3.1.1 ................................................................................ 14
3 Fission yields sub-library production .................................................................................................. 15
3.1 Introduction ...................................................................................................................................... 15
3.2 Definitions ......................................................................................................................................... 15
3.3 Evaluation ......................................................................................................................................... 16
3.3.1 Fissioning systems ................................................................................................................ 18
3.3.2 Databases and data collection ............................................................................................ 18
3.3.3 Evaluation method ............................................................................................................... 19
3.3.4 Interpolation and extrapolation to fill gaps ...................................................................... 20
3.3.5 Fitting to constraints ............................................................................................................ 23
3.3.6 Isomeric yields ...................................................................................................................... 23
3.3.7 The calculation of cumulative yields ................................................................................. 24
3.3.8 JEFF-3.1.1: A correction to the JEFF-3.1 fission yields ....................................................... 24
4 Library testing and validation ............................................................................................................... 25
4.1 Delayed neutron yields and total energy release from fission .................................................. 25
4.2 Fission pulse decay heat calculations ........................................................................................... 25
5 Conclusions............................................................................................................................................... 35
References ....................................................................................................................................................... 37
TABLE OF CONTENTS
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List of figures
1 JEFF-3.1 fission product mass distributions for seven fissioning systems..................................... 22
2 The calculated total decay heat (β + γ) from fission products following a 235U fission pulse compared to the Tobias Standard (1989) and as a ratio ......................................................... 29
3 The calculated total decay heat (β + γ) from fission products following a 239Pu fission pulse compared to the Tobias Standard (1989) and as a ratio ......................................................... 30
4 The calculated beta decay heat from fission products following a 235U fission pulse compared to the Tobias Standard (1989) and as a ratio ......................................................... 31
5 The calculated beta decay heat from fission products following a 239Pu fission pulse compared to the Tobias Standard (1989) and as a ratio ......................................................... 32
6 The calculated gamma-ray decay heat from fission products following a 235U fission pulse compared to the Tobias Standard (1989) and as a ratio ......................................................... 33
7 The calculated gamma-ray decay heat from fission products following a 239Pu fission pulse compared to the Tobias Standard (1989) and as a ratio ......................................................... 34
List of tables
1.1 Additional nuclei taken from ENSDF .................................................................................................. 10
1.2 Source libraries for JEFF-3.1/-3.1.1 ....................................................................................................... 10
1.3 Nuclei updated using TAGS average energy values .......................................................................... 11
2.1 Decay modes in JEFF-3.1/-3.1.1............................................................................................................. 13
3.1 Changes to cumulative yields for 235U thermal neutron-induced fission resulting from using JEFF-3.1 and JEFF-3.1.1 Radioactive Decay Data Sub-libraries ..................................... 17
3.2 The 39 fissioning systems in JEF-2.2 and JEF-3.1,-3.1.1/UKFY3.6A .................................................. 18
4.1 Average delayed neutron yields following a single fission calculated using JEFF-3.1 and JEFF-3.1.1 ......................................................................................................................................... 27
4.2 Average delayed energy emission following a single fission calculated using JEFF-3.1 and JEFF-3.1.1 ......................................................................................................................................... 28
Main data tables
A Atomic weights and natural abundances included in JEFF-3.1.1 .................................................... 39 B Updated average energy values from TAGS measurements in JEFF-3.1.1 ..................................... 45
C Total number of neutrons per fission )( totalυ ..................................................................................... 46
D Original JEFF-3.1 data, updated in JEFF-3.1.1 ...................................................................................... 47 E Main parameters of the JEFF-3.1.1 Radioactive Decay Data Sub-library ........................................ 51
INTRODUCTION
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Introduction
Radioactive decay data forms an integral part of the nuclear data requirements for nuclear applications The JEF-2.2 sub-library has been extensively used over the past 15 years or more and contains high quality data for 2 345 nuclides covering the needs of most reactor-based calculations. However, as energy ranges increase and new applications and regulatory requests emerge, nuclear data requirements also evolve; hence the need for the release of a new sub-library containing many more nuclei. At the time of its initial release, in May 2005, JEFF-3.1 was the most extensive decay data library available.
Following initial validation studies with the JEFF-3.1 Radioactive Decay Data and Fission Yields Sub-libraries, further revisions were made resulting in the JEFF-3.1.1 Radioactive Decay Data and Fission Yields Sub-libraries, released in 2007.
The construction, contents and some initial validation of the JEFF-3.1/-3.1.1 Radioactive Decay Data and Fissions Yields Sub-libraries is described.
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Chapter 1: Radioactive decay data sub-library production
The Decay Data Sub-group of the JEFF Project decided that post-JEF-2.2 a completely new approach to creating a radioactive decay data library was necessary in order to fulfil the increased scope required by such a library, given the new applications and increased energy ranges in many facilities. The philosophy was to base this new library on data which was seen as representing the actual measured decay properties of each individual nuclide as accurately as possible, without the contamination of global adjustments or theories.
1.1 Basic data source – NUBASE
The basic skeleton of data was taken from the NUBASE-2003 file (Audi, 2003), which contains basic nuclear properties; hence all known isomers were identified from here. This file contains data such as half-life, spin, parity, excitation energy (in the case of metastable states), decay branching ratios and Q-values for all nuclei having experimental evidence of their existence. If a nuclide was not present in this file then it was deemed as not being significantly important for inclusion in the JEFF library, since it had not actually been measured. This is a perfectly sound assumption, given that the goal was to produce a library which was suitable for applications calculations. This exercise resulted in 3 852 nuclei being selected, of which 226 are stable. With recently accepted extensions to the ENDF-6 format (Herman, 2005), stable nuclei can also be entered into a decay data sub-library, meaning that the basic nuclear properties for these stable nuclei can also be included. This had been specifically requested by members of the JEFF Project involved in validation work.
A second important assumption in deriving the nuclei to be included was to ensure that the decay daughter(s) from any given nuclei would also be present. Hence ensuring that complete decay chains could be formed throughout.1
NUBASE contains basic nuclear property information and, in order that the JEFF library would be able to meet modern-day requirements for decay heat calculations, spectroscopy and activation analysis, many nuclei needed much more data, specifically decay radiation spectra. A number of additional source libraries, as described below, were then used in order to flesh out the initial NUBASE skeleton.
1.2 JEFF-3.1 – additional data sources
Three fully evaluated libraries, from within Europe, were used to replace individual NUBASE files, for almost 600 nuclei in all, with the extensive decay data information contained therein. These files tend to be the most comprehensive in both content and quality. Two libraries already in the ENDF-6 format (Herman, 2005) came from the United Kingdom [UKPADD-6.4 and UKHEDD-2.4 (Nichols, 2005)] and the other from France through the Decay Data Evaluation Project (DDEP) (Bé, 2004) maintained at the Laboratoire National Henri Becquerel (LNHB). The latter project’s data are made available via their website (Bé, 2004) in tabular form, but were made available to the authors in the ENSDF format (Tuli, 1987), before being converted into the ENDF-6 format with the SDF2NDF code (Bersillon, 2009).
Further files were also selected from the ENSDF library (Tuli, 1987) – these files contain decay data derived from basic nuclear structure data. Approximately 900 nuclei were selected after verification that they contained sufficient data to allow calculation of their energy balance to a consistency of
1. It should also be noted that in the production procedure of the fission yields data, the condition was imposed that only nuclei which existed in the decay data file could be created following a fission event.
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better than 2%. During the early construction and initial testing phase, a small number of additional nuclei, with an energy balance inconsistency of greater than 2%, (see Table 1.1) were additionally converted from the ENSDF file and included into the JEFF-3.1 release, since the need for their spectral data was seen as critical in certain applications.
Table 1.1: Additional nuclei taken from ENSDF
Nuclei Material number Energy balance 38-Sr-93 0968 ~8.6%
41-Nb-101 1105 ~2.2% 50-Sn-126 1562 ~4.0% 51-Sb-131 1619 ~2.5% 52-Te-123 1652 ~2.7% 56-Ba-142 1862 ~3.0%
In a large number of cases for important nuclei, particularly fission products, several evaluations were available from the different sources given above. As such, a qualitative choice was made based on the comparison of the depth of information available in each source library. In each case a complete isotopic evaluation file was taken from the most appropriate source, hence it should not be assumed that data, such as half-life, are identical to those contained in NUBASE, for all of the nuclei present.
A complete breakdown showing the number of nuclei taken from each available source is shown in Table 1.2.
Table 1.2: Source libraries for JEFF-3.1/-3.1.1
Source JEFF-3.1 JEFF-3.11 Change NUBASE 2 351 2 310 -41 ENSDF 909 892 -17 LNHB 116 115 -1 UKHEDD-2.x 116 116 0 UKPADD-6.x 360 419 59 Total 3 852 3 852 0
1.3 JEFF-3.1.1 – additional data sources
The initial decay heat benchmarking of JEFF-3.1, along with the work of the OECD/NEA Working Party on International Evaluation Co-operation Sub-group 25 (WPEC-25) (Kellet, 2007), highlighted some problems in the individual prediction of the gamma and beta decay heat components, the total decay heat prediction being satisfactory. It was suggested that average energy values as determined through Total Absorption Gamma-ray Spectroscopy (TAGS) experiments could help to alleviate this situation. Hence a limited number of 29 nuclei (see Table 1.3) had their average energies updated from the high quality work of Greenwood, et al. (1997). The nuclei updated were only those where a detailed evaluation was not available, and hence the nuclei measured by this group were considered. Further evaluation work is required before the inclusion of data from the remaining nuclei measured can be considered. The WPEC-25 subgroup concluded that further TAGS experiments are merited and a list of appropriate nuclei was formulated. The inclusion of such data into a future version of the library will be considered as and when data become available on a case by case basis.
Additional nuclei were also available from the updating that had been made of the two libraries from the United Kingdom (UKPADD-6.7 and UKHEDD-2.5) (Nichols, 2007) providing a further fifty high quality detailed evaluations.
Hence, following the May 2005 release of the JEFF-3.1 library, and as a consequence of the initial decay heat benchmarking a moderately revised version, JEFF-3.1.1, was released in November 2007.
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Table 1.3: Nuclei updated using TAGS average energy values2
Material number Nuclide Material
number Nuclide
0929 37-Rb-90 2006 59-Pr-148 0930 37-Rb-90M 2007 59-Pr-148M 0931 37-Rb-91 2008 59-Pr-149 0970 38-Sr- 95 2010 59-Pr-151 1812 55-Cs-139 2053 60-Nd-153 1814 55-Cs-141 2054 60-Nd-154 1863 56-Ba-143 2055 60-Nd-155 1864 56-Ba-144 2098 61-Pm-152 1865 56-Ba-145 2101 61-Pm-153 1908 57-La-142 2102 61-Pm-154 1909 57-La-143 2105 61-Pm-156 1910 57-La-144 2106 61-Pm-157 1911 57-La-145 2149 62-Sm-157 1960 58-Ce-148 2150 62-Sm-158 2005 59-Pr-147
1.4 Library verification and allocation of material number
The JEFF-3.1 libraries store all data in the internationally accepted ENDF-6 format (Herman, 2005). Recent enhancements allowing the storage of basic nuclear properties for stable nuclei (i.e. spin, parity, atomic weight) were adopted, being the first library to do so. Also the isotopic abundances for all appropriate nuclei (taken from NUBASE-2003) have been added as the last line in the Comments section (MF=1 MT=451) as a more appropriate place in the format is not yet available. The isotopic abundances and atomic weights are listed in Table A (see Main data tables).
Throughout the construction process the library has been constructed and checked with the standard ENDF Utility Codes STANEF, CHECKR and FIZCON (Dunford, n.d.). Significant enhancements, implemented by members of the JEFF project, were added to the official FIZCON code v7.00 for the verification of decay data (Perry, 2003) and also minor corrections to the official versions (7.00/7.01) of both CHECKR and FIZCON were also implemented following problems noted in checking the JEFF-3.1 sub-library, most notably the checking of the symbol field for metastable states and the inclusion of stable nuclei. Users should be warned that earlier versions of the checking codes should not be used in testing this library.
The current versions of the JEFF-3.1 Radioactive Decay Data Library pass through the CHECKR utility code (v7.01) without a single error, other than that pertaining to the material number allocated. This can be completely ignored as the standard procedure within the ENDF-6 format for material number assignment is too limited to be implemented in this library. The material number is limited to 4 figures, where normally the first 2 are the atomic number of the nuclei in question and by allowing for 2 metastable states, only 33 isotopes may be entered per element based on incrementing the second 2 figures by 3 per ground state nuclei.3 Due to this limitation the nuclei in the JEFF-3.1/ 3.1.1 Radioactive Decay Data and Fission Yields Sub-libraries are simply numbered sequentially from 1 to 3 852, as many elements have more than 33 isotopes and a small number of isotopes have 3 metastable states.
The FIZCON code generates a small number of warning messages, most of which can safely be ignored. For others the messages relate generally to the limits of current knowledge as available at the time of the library construction. Future enhancements could well reduce their number.
As far as possible appropriate authors, laboratory codes and evaluation dates have been included in the files for the benefit of the user.
2. For details of the average energy values before and after the addition of the TAGS values, see Table B in the final section of this report – Main data tables. 3. For example the lightest stable isotope of the element with atomic number ZZ is given the material number ZZ25, then ZZ28 for the next isotope etc., e.g. 92-U-234 (the lightest stable isotope of uranium) is given 9225; 92-U-235 is then 9228; 92-U-235M is 9229, and so on with 92-U-236 given 9231; 92-U-237 given 9234 and 92-U-238 given 9237, etc.
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Chapter 2: Radioactive decay data sub-library contents
The JEFF-3.1/-3.1.1 Radioactive Decay Data Sub-libraries contain data for 3 852 nuclei, ranging from the neutron (0-nn-1) to roentgenium 272 (111-Rg-272), and include data for all experimentally observed nuclei – as determined from the NUBASE-2003 evaluation of nuclear and decay properties (Audi, 2003). Spectral data are provided for 1 480 nuclei in the JEFF-3.1 release and for 1 521 nuclei in JEFF-3.1.1, i.e. an additional 41 nuclei. A total of 226 stable nuclei are also included, i.e. nuclei for which no finite half-life has been determined.
2.1 Summary of the major decay modes in JEFF-3.1/-3.1.1
A summary of the number of nuclei decaying via one dominant decay mode is given in Table 2.1. The table gives the number of nuclei which decay via only one decay mode, or where all other minor decay branches contribute less than 0.01% of the total decay.
Table 2.1: Decay modes in JEFF-3.1/-3.1.1
Decay mode* JEFF-3.1 JEFF-3.11 β – 892 892 β+ 822 823 Α 243 243
Stable 226 226 IT 222 224 P 069 069 N 025 025
2β– 018 018 2p 012 012 2β+ 011 011 SF 009 009 2n 004 004 β+,p 002 002 Β–,n 001 001 β+,n 001 001
* Note that decays to the ground and metastable states have been summed for the sake of simplicity.
2.2 Radiation following decay to a metastable state
The decay data files have been constructed such that radiation from the subsequent decay of the metastable state of a daughter nuclide, populated from the initial decay of the parent nuclide, are contained in a separate file for that metastable state – this may differ from certain other decay data libraries.
For example, in the case of the 661.657-keV γ-ray following the 55-Cs-137 β–-decay, this line arises from the subsequent 100% internal transition of daughter 55-Ba-137M, and hence the data are to be found in the 55-Ba-137M file.
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2.3 Atomic weights and natural abundances
Basic nuclear property data (spin, parity, atomic weight, etc.) for the 226 stable nuclei, including natural abundances, are taken from the NUBASE-2003 evaluation. Table A1 lists the atomic weights and the natural abundances for the 226 stable nuclei, and the 61 extremely long-lived nuclei, i.e. typically having a half-life of 109 years or more and having a measurable natural isotopic abundance, present in the JEFF-3.1.1 library.2 The natural abundances are not currently included as part of the ENDF-6 format and so are included as the final line of the Comments section of each evaluation (MF=1 MT=451).
2.4 Inclusion of total absorption gamma-ray spectrometry (TAGS) measurements
Following some initial decay heat benchmarking of the JEFF-3.1 sub-library it was noted that significant differences were observable at various decay times between the gamma and beta components of the decay heat when compared with evaluated experimental data. The total decay heat predictions, however, compared favourably with experimental data. Thus the JEFF-3.1.1 sub-library was released, which includes updated values for the average energy release components based on values obtained via the Total Absorption Gamma-Ray Spectrometry measurements of Greenwood et al. (1997). A total of 29 nuclei were updated (see Table 2.3) with the numerical values provided in Table B.
2.5 Total number of neutrons per fission ( totalυ )
The library contains (in MF=1 MT=452) data for the total number of neutrons from fission for the 27 major spontaneous fissioning systems and these are listed in Table C, many of which are taken from (Manero, 1972) or systematics (further details are given in the individual Comments section for each evaluation).
2.6 Values in JEFF-3.1 updated in JEFF-3.1.1
Although the JEFF-3.1 library has now been withdrawn, for reference purposes, Table D lists the main parameters of the JEFF-3.1 release for those nuclei which were updated in JEFF-3.1.1 – other than for those nuclei adjusted through the inclusion of data from TAGS measurements, which are given in Table B.
2.7 Listing of the main parameters of JEFF-3.1.1
A complete listing of the main parameters of the JEFF-3.1.1 Radioactive Decay Data Sub-library is given in Table E, i.e. the allocated material number (from 1 to 3 582), nuclide symbol (including both atomic and mass numbers, plus metastable state designation, e.g. 11-Na-24M), spin and parity, excitation energy (in eV) for the metastable states, half-life (with the percentage uncertainty), decay modes and branching fractions (expressed as a percentage), number of radiation spectra included in the library for that nuclide, average light-particle, electromagnetic and heavy-particle energies (in eV) and finally the original source library of the evaluation. The half-lives are all stored in the ENDF-6 format in seconds, but for convenience are given in this table in the most appropriate unit, where the number of seconds in a year is that used in NUBASE-2003, i.e. 1 year = 365.2422 days = 31 556 926 seconds.
1. Tables A, B, C, D and E are presented in the final section of this report – Main data tables. 2. Note that due to an incorrect conversion factor, the atomic weights given in the now-withdrawn JEFF-3.1 library are inaccurate and should not be used.
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Chapter 3: Fission yields sub-library production
This chapter summarises the methodology underlying the JEFF-3.1 fission product yield evaluation, which was adopted from the United Kingdom evaluation UKFY3.6A.
Note that the JEFF-3.1/-3.1.1 Fission Yields Sub-library is actually two distinct sub-libraries within the Evaluated Nuclear Data File (ENDF) format, one for neutron-induced fission (NFY) and the other for spontaneous fission (SFY). However, as these two distinct sub-libraries are evaluated within one unique system, and tend to be used simultaneously in most applications, they are generally referred to in the singular as the JEFF-3.1 (or JEFF-3.1.1) Fission Yields Sub-library.
3.1 Introduction
In the United Kingdom the evaluation of fission product yields for use in computer libraries was pioneered at Harwell in the 1960s (Crouch, 1977, 1985). Development of these has continued to the present day. The UKFY1 library (Banai, 1987) was adopted for JEF-1 after detailed review (James, 1987). Subsequent work produced UKFY2, which was adopted for JEF-2. The UKFY2 evaluation including methodology, experimental data and review of discrepancies is described in three reports (James, 1991, 1991a, 1991b). The UKFY3.6A library is a continuation of this work and is based upon UKFY3 (Mills, 1995). The library is in the ENDF-6 format. Both independent (pre-delayed neutron emission) and cumulative (post-delayed neutron emission) yields are available, together with their standard deviations.
3.2 Definitions
The atomic number and mass number of the fissioning nucleus are denoted by Zf and Af respectively. For the neutron-induced fission of a nuclide of mass number Atarget, Af = Atarget + 1, while for spontaneous fission, Af is the mass number of the fissioning nuclide. The subsequent fission product nuclide is specified symbolically by the triplet (A,Z,I), where A and Z are respectively the mass number and atomic number, and I indicates the isomeric state (I = 0 for the ground state, I = 1,2,… for the first, second,… metastable states). If a fission product has no isomers, or if we are referring to the sum of yields for all its isomers, we use the doublet (A,Z).
The independent yield y(A,Z,I) is the number of atoms of (A,Z,I) produced directly from one fission, after the emission of prompt neutrons (but before the emission of delayed neutrons). It can be written as the product of three factors:
y(A,Z,I) = Y(A) f(A,Z) R(A,Z,I)
where the sum yield Y(A) is the sum of independent yields (before delayed neutron emission) of all fission products of mass number A; f(A,Z) is the fractional independent yield of all isomers of (A,Z); and R(A,Z,I), the isomeric yield ratio, is the fraction of (A,Z) produced directly as isomer I.
From the definition, it follows that:
( )∑ =Z
AZf 1 for all A
and:
( )∑ =I
I,Z,AR 1 for all (A,Z)
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so that:
( ) ( )∑=ZI
I,Z,AyAY for all A
The usefulness of these formulae derives from the fact that, with the exception of delayed neutron (β–,n) emission and the few very long-lived α decays, all the radioactive decays of fission products are β– or β+, or isomeric transitions, and in none of these is A altered. Thus, to a very good approximation, the fission products can be considered as belonging to distinct mass chains.
The cumulative yield c(A,Z,I) of (A,Z,I) is the total number of atoms of that nuclide produced over all time after one fission. If the nuclide is stable and at the end of a mass chain, the cumulative yield is the total number of atoms remaining per fission, and is termed the chain yield Ch(A).
Similarly, for a nuclide with a much longer half-life than any of its precursors, c(A,Z,I) is very nearly equal to the amount of it produced at a time short compared to its half-life but long compared to those of its precursors. However, for a radioactive nuclide for which this is not the case, some atoms will have decayed before all have been produced, so that at no time will there actually be c(A,Z,I) atoms per fission present. An equivalent definition that is more useful is the following: immediately at the end of an “infinite” irradiation at the rate of 1 fission per second, c(A,Z,I) is the rate of decay of (A,Z,I) if that nuclide is radioactive, or its rate of production if it is stable. Consequently cumulative yields are useful in computing total fission product decay energies and delayed neutron emission rates.
The sum yield Y(A) and the chain yield Ch(A) for a mass chain A may differ by a few per cent, because the former applies before, and the latter after, delayed neutron emission. Tables of the calculated differences for each chain of some fissioning systems are provided in James (1991).
3.3 Evaluation
Many of the problems encountered in this work are found to a greater or lesser extent in any evaluation. To be generally useful, any data library must be as accurate and as complete as possible. Accuracy requires an up-to-date and complete compilation of experimental results, as well as a statistically sound method of treating the measurements and of considering the inevitable discrepancies between some of them. Completeness demands considerable care in interpolation and extrapolation to fill the equally inevitable gaps where there are no measured data at all. Since a user needs to know the accuracy of the data, it is also necessary to estimate as carefully as possible the standard deviations of the evaluated data. This last task is sometimes the longest and hardest. The database, evaluation methods and the interpolation of data and parameters are considered below.
Fission product yield nuclear data should satisfy some simple conditions arising from physical conservation laws of nucleon number and of charge. Different evaluating teams use these conditions differently: either to adjust the data, or, if they have not been used for adjustment, as tests subsequent to the evaluation process. There are essentially four such conditions applied to JEFF-3.1:
1) The complete independent yield distribution for all A and Z, apart from those of the relatively rare light products from ternary fission, should sum to 2.
2) There should be conservation of nucleon number; this must include the ternary products.
3) There should be overall conservation of charge, before beta decay. Again this must include the ternary products.
4) There should be detailed conservation of charge giving equal yields of complementary elements. The complementary element is the charge of the other fragment during an individual fission, due to conservation of charge, this is equal to Zf – Z.
These apply to the total independent yield of a nuclide, being the sum of all isomers. The experimental values of the ratios of independent yields of isomeric to ground states were reviewed and the method of Madland and England (1976) was used to calculate ratios for which there were no measurements.
The calculation of cumulative from independent yields requires data on branching ratios of radioactive decays, including all daughters. In this work, these were all obtained from the JEFF-3.1
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decay data library. It should be noted that some revisions in JEFF-3.1.1 changed a few of the decay paths. Table 3.1 contains a comparison of calculating cumulative yields calculated using the JEFF-3.1 independent fission product yields and the two decay data libraries for the thermal neutron induced fission of 235U. As can be seen very few nuclides have significant changes.
Table 3.1: Changes to cumulative yields for 235U thermal neutron-induced fission resulting from using JEFF-3.1 and JEFF-3.1.1 Radioactive Decay Data Sub-libraries
Nuclide JEFF-3.1
independent yield
JEFF-3.1 cumulative yield calculated with
the JEFF-3.1 decay data
JEFF-3.1 cumulative yield calculated with the JEFF-3.1.1
decay data
Ratio of cumulative yields
JEFF-3.1.1/ JEFF-3.1
29-Cu-70 4.2598E-10 3.4918E-09 3.6087E-09 1.033467 29-Cu-70M 4.7457E-09 6.1317E-09 6.6306E-09 1.081372 34-Se-81 8.5771E-06 1.9749E-03 1.9749E-03 0.999990 39-Y-89M 2.8162E-09 4.5232E-06 4.5236E-06 1.000096 40-Zr-90M 6.5152E-12 7.9587E-12 6.5152E-12 0.818627 40-Zr-96 2.6209E-03 6.3014E-02 6.3017E-02 1.000056 39-Y-97 6.1878E-03 2.0797E-02 2.0804E-02 1.000351
39-Y-97M 2.1091E-02 2.8144E-02 2.9187E-02 1.037051 40-Zr-97 9.3696E-03 5.9932E-02 5.9929E-02 0.999941 41-Nb-97 5.5298E-05 6.0001E-02 5.9997E-02 0.999941
41-Nb-97M 1.2786E-05 5.6977E-02 5.6974E-02 0.999941 42-Mo-97 3.4773E-08 6.0001E-02 5.9997E-02 0.999941 46-Pd-111 5.1161E-08 1.9679E-04 1.9700E-04 1.001081
46-Pd-111M 9.6149E-08 8.8367E-07 9.6149E-08 0.108807 47-Ag-111 6.1306E-12 1.9605E-04 1.9605E-04 0.999999
47-Ag-111M 4.0103E-11 1.9557E-04 1.9563E-04 1.000307 47-Ag-113 1.2008E-08 1.0456E-04 1.0500E-04 1.004160
47-Ag-113M 7.8549E-08 1.5279E-04 1.5158E-04 0.992092 48-Cd-113 5.7767E-12 1.5776E-04 1.5776E-04 0.999952
48-Cd-113M 1.8899E-11 1.8078E-06 1.8153E-06 1.004160 49-In-113 0.0000E+00 1.8053E-06 1.8128E-06 1.004160 49-In-119 9.1291E-07 5.6166E-05 5.6164E-05 0.999967
49-In-119M 2.1109E-07 9.9853E-05 9.9855E-05 1.000020 50-Sn-119M 1.0024E-09 5.0741E-05 5.0740E-05 0.999967 48-Cd-121 2.3876E-05 4.5842E-05 4.5718E-05 0.997299
48-Cd-121M 5.7641E-05 6.0204E-05 6.0328E-05 1.002056 49-In-121 1.5995E-05 9.2048E-05 9.1625E-05 0.995406
49-In-121M 3.6985E-06 3.4101E-05 3.4529E-05 1.012552 50-Sn-121 7.8096E-08 1.2363E-04 1.2364E-04 1.000087
50-Sn-121M 1.8853E-07 1.0616E-05 1.0568E-05 0.995487 50-Sn-129 1.7575E-03 2.3102E-03 2.3101E-03 0.999963 51-Sb-129 2.8285E-04 5.0887E-03 5.7823E-03 1.136310
51-Sb-129M 1.7285E-04 2.3204E-03 1.5044E-03 0.648318 52-Te-129 1.7810E-08 6.0359E-03 6.2439E-03 1.034461
52-Te-129M 4.2997E-08 2.7707E-03 2.2085E-03 0.797101 51-Sb-130 2.5080E-03 1.0810E-02 9.3231E-03 0.862423
51-Sb-130M 2.5080E-03 6.5646E-03 8.0519E-03 1.226558 66-Dy-158 0.0000E+00 1.5878E-13 1.6069E-13 1.012048
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3.3.1 Fissioning systems The selection of fission systems in the United Kingdom libraries is based on objective criteria. A series of calculations were made with the inventory code FISPIN, described by Burstall (1979), and its 1988 libraries for both thermal and fast reactors. For the former, initial fuelling by enriched uranium, recycled uranium, mixed plutonium/uranium and thorium/uranium, were individually considered. The ratings and irradiations applied to the calculations were greater than actually achieved in current reactors, but were values regarded as feasible in the future. Reactions were regarded as important if they contributed more than 0.1% of the fission rate at any time. Thus, it is thought that the derived list is more than adequate for some time to come. It does, of course, depend on the initial fuel compositions and on the assumed capture and fission cross-sections for the higher actinides; it is acknowledged that some of the latter may be considerably in error.
In addition, the library includes fission of 232Th, 233U, 235U and 238U by “high energy” (about 14 MeV) neutrons from fusion; these reactions were in the earlier United Kingdom libraries. We have also included the yields from the spontaneous fission of 242Cm and 244Cm which are important as sources of neutrons in reactors and in fuel handling, and of 252Cf, which is important as a standard.
The complete set is given in Table 3.2 below. The reactions considered by the reactor calculations are given in three sub-sets, in the three left-hand columns. These are distinguished by the value of the maximum fission rate percentage due to the nuclide in question at any time during the irradiation. (The range in which the percentage falls is indicated in the column heading.) Clearly, the required accuracy of yields is greater if the percentage fission rate is greater.
Table 3.2: The 39 fissioning systems in JEF-2.2 and JEFF-3.1,-3.1.1/UKFY3.6A
Maximum fraction of fission rate Spontaneous fission >10% 1-10% 0.1-1%
Nuclides: 5 2 12 3 233U* TFH 235U* TFH 238U* FH 239Pu TF 241Pu* TF
240Pu* F 245Cm TF
232Th* FH 234U F 236U F 237Np TF 238Np TF 238Pu TF 242Pu F 241Am TF 242mAm TF 243Am TF 243Cm TF 244Cm TF
252Cf Sp 242Cm Sp 244Cm Sp
* Nuclides in UKFY1 and previous United Kingdom libraries (James, 1991, 1991b). T Thermal fission. F Fast fission. H 14 MeV fission. Sp Spontaneous fission.
3.3.2 Databases and data collection The database used for the UKFY3.6A evaluation consisted of three files containing data measured absolutely, relatively, and by “ratio of ratio” methods. The most straightforward of these are the absolute measurements, in which the yield of a nuclide per fission is measured. However, this method requires knowledge of the number of fissions, which can be difficult to determine practically. In the second type, a nuclide with a yield that is assumed to be accurately known is used to estimate the number of fissions. Thus, the unknown yield is determined relative to the standard yield. The third type of measurement uses the “ratio of ratio” or “R-value” method. This assumes that the yields of both the fission product of interest and a monitor fission product are known from a reference fission reaction. Then, if the yield of the monitor is also known from the fission reaction of interest, the yield of the unknown yield from the reaction of interest can be found.
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The evaluation proceeded in iterative stages. In the first, only absolute measurements were used. In the subsequent steps, the two types of relative measurements were included as well, if they could be converted to absolute yields using the results of the previous step. Iterations were repeated until no further results could be converted.
Experimental fission yield data were collected from three computer readable sources:
1) Crouch’s fission yield database, which was used in the Crouch (1977) and the Banai, et al. (1987) evaluations.
2) A database of recent references, produced after a thorough search of recent literature 1993.
3) The international database EXFOR is described by Lemmel (1996); the last complete update for UKFY3 was received in June 1993. Some newer individual entries were added in 2005.
The combined UKFY3.6A database contains 12 109 absolute measurements, 1 342 relative measurements and 1 480 ratio of ratio measurements. The analysis resulted in 13 776 usable absolute measurements. This contains 85% more items of data than that used by Crouch (1977).
As in previous work the measurements were examined to remove duplications and to ensure consistency of isomeric states. In the evaluation, discrepant data were extensively examined to remove entry errors and to increase some unacceptably low estimates of error.
3.3.3 Evaluation method
General treatment of measurements
The experimentalists’ uncertainties were adjusted, in the previous United Kingdom evaluations, to be always greater than 5% (Crouch, 1977), unless significant justification was present in the reference. Throughout this work all uncertainties are quoted at the 1 standard deviation level. Considering the more accurate measurements now possible, this limit has been reduced. The revised rules used in attributing input uncertainties are stated here.
• For recent mass-spectrometric measurements, the quoted uncertainty was used provided it was not less than 1%. Otherwise, 1% was used, unless there was good justification for the published value in the reference.
• For other types of measurement, the quoted uncertainty was used provided it was not less than 5%. Otherwise, 5% was used, unless there was good justification for the published value in the reference.
• Mass-spectrometric results quoted without any estimate of uncertainty were given a standard deviation of 10%.
• Other results quoted without any estimate of uncertainty were given a standard deviation of 15%.
These standard deviations were used to obtain weighted means using inverse variance weighting. Both internal and external standard deviations of the mean were determined in the analysis and the larger of these were used for subsequent calculations. From χ2 and the number of degrees of freedom, the probability of the data not being consistent can be calculated. Those with a probability of less than 10% were listed in a set of discrepancy tables, values less than 1% and 0.01% being flagged for special consideration. In these cases, the data were checked for transcription errors between the quoted values in the references and the values in the database. Next, the relevant papers were studied to see if there were reasons for re-normalising or down-weighting the measurements.
Consequently, after references had been checked, an automatic down-weighting procedure was applied to the data to reduce major discrepancies. This technique was based upon the normalised residual, which should normally be distributed with a mean of zero and a standard deviation of unity. Each component of the normalised residual |Ri| was constrained to be less than 2.5, for all yields with more than two measurements, by down-weighting the measurement with the largest value. If the maximum |Ri| was greater than 2.5 the variance was adjusted to give Ri equal to 2.5, and then the averaging process was repeated. This procedure reduces the weight of points far from the mean, thus reducing the effect of discrepant data on the weighted mean. The theoretical justification for these
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definitions and statements is given in (James, 1991c). It should be emphasised that the automatic down-weighting described here (or any alternative method) should not be used in preference to a detailed analysis of the original measurements.
Separate analyses were made for chain, fractional independent and fractional cumulative yields. From these evaluations, sets of mean chain yields, fractional independent and cumulative yields with standard deviations were produced that could be used as input in the fitting of semi-empirical models as described below.
Chain yields
Measurements were included both of a chain yield itself and of cumulative yields of nuclides close enough to the end of the decay chain, and with sufficiently small independent yields, for their cumulative yields to be good approximations to the chain yield. As several chains have nuclides with isomers near the stable end, it is possible to apply the method of least-squares to the measurements and the branching ratios to improve the estimate of the chain yield and its uncertainty (James, 1991; Mills, 1995).
Fractional independent and cumulative yields
For nuclides away from the stable ends of mass chains, measurements may be of either fractional or of absolute yields: the former being obtained if the same experiment also determines the chain yield. For the present purpose, fractional yields were required, so absolute values in the database were converted by dividing by the evaluated (unadjusted) mass yield. The latter was either the experimental mass yield average (see above) or obtained from a fit to the mass yield distribution.
3.3.4 Interpolation and extrapolation to fill gaps
General
To produce independent and cumulative yield libraries for reactor and decay heat calculations, all significant chain yields and fractional independent yields need to be known. About 120 chain yields are required (mass 60 to 180) for these purposes. As even the system with the best coverage of measurements, 235U thermal, has only 111 measured chains and some systems (for example 243Am) have none, a model or method of prediction is required for chain yields. Similarly, if fractional independent yields greater than 10–8 are considered to be important, approximately 900 are required, whereas even for 235U less than 250 have been measured. There are several semi-empirical models and methods of interpolation or extrapolation for fractional independent and chain yields which can be used.
Chain yields
In UKFY3.6A the mass-yield curve is fitted by a set of Gaussians, as proposed by Musgrove, et al. (1973) and used more recently by Dickens (1987). This technique is based upon the apparent similarity of the chain yield distributions to Gaussian distributions. This method can be readily used to predict yields from systems on which few or even no measurements have been made.
We have followed Musgrove, et al. (1973) in using five Gaussians (viz. two for each peak of the mass distribution, and one for near-symmetric fission). More recently theoretical justification for such a multiple Gaussian fit has been attempted; see for example Brosa, et al. (1990). The 15 parameters (strength, mean and width of each Gaussian) were reduced to 8 by assuming symmetry and requiring a total yield of 2. This model gives the chain yield Y(A) as:
( ) ( ) ( )
( ) ( )
( ) 23
2
22
22
22
22
21
21
21
21
2
3
3
22
2
2
22
1
1
2
2
2
σ−−
σ+−−σ−−−
σ+−−σ−−−
πσ+
⎥⎦⎤
⎢⎣⎡ +
πσ+
⎥⎦⎤
⎢⎣⎡ +
πσ=
AA
DAADAA
DAADAA
eN
eeN
eeN
AY
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where Ni is the strength coefficient of the ith Gaussian and σi its width parameter, A is the mean mass of the distribution and Di is the separation of the ith Gaussian peak from A. Because the chain yields sum to 2: N3 = 2(1-N1-N2).
The analysed chain yields were fitted to this model, and the values of the parameters for systems for which there were sufficient data for satisfactory fits are given in Mills (1995). The fits for 235U thermal and fast, 233U thermal and 239Pu thermal are shown in James, et al. (1991), Figures 2-5. This five-Gaussian representation smoothes the distribution, removing both experimental noise and the expected small odd-even fluctuations.
To extend the five-Gaussian representation to systems with sparse data, the parameters already obtained were plotted against fissioning mass and charge, and fitted by linear or quadratic functions of Af. (No systematic trend with Zf could be detected.) New five-Gaussian fits were made to the chain yield data, allowing only one of the parameters to vary in turn. Linear or quadratic fits were then made to each of the varied parameters, with the functions of Af. After all parameters had been fitted in this manner, the whole process was repeated. After two iterations the refitting procedure failed to produce any improvement in χ2. The functions obtained are given below and can be found in James, et al. (1991) and Mills (1995).
( ) ( )
( ) ( )012
2300012502305950919
37524112502860
2300136640230678320127
9064220170
][4579000105630
][6215000038460
][2
3
22
2
2
21
1
1
1
.
A.A..D
.A.
.N
A.A..D
.A.
thermal.A.N
fast.A.N
onconservatinucleonbyfixedA
A
ff
f
ff
f
f
f
pf
=σ−+−−=
−=σ=
−+−−=
−=σ
+=
+=
ν−=
Although this is a simple model and the goodness of fit to the parameters only moderate, reasonable results were obtained when chain yields were calculated for systems using these predicted Gaussian parameters when compared with experimental data, see figures in report (James, 1991).
In UKFY3.6A chain yields were first taken from the experimental averages. Then gaps were filled using the five-Gaussian model with the fitted parameters if appropriate, or obtained from the above equations if not. The predictions from this model were modified before being used to produce complete data sets. First, the central Gaussian was not allowed to contribute outside the two main peaks (to avoid unrealistic flaring of the distribution at very low yields). Secondly the predictions were re-normalised with the experimental data. This re-normalisation considered the two cases of: (a) the wings of the distribution; (b) gaps in the experimental data. The predictions in the wings, up to the first experimental point, were re-normalised by a constant factor so that for this point the predicted yield equalled the measured value. In gaps, predicted yields at each end were fitted to measured values by making the logarithm of the normalisation factor vary linearly with mass across the gap. This procedure gave a complete set of chain yields for each fissioning system based as firmly as possible on experimental data. Graphs of these chain yields are given in reports (James, 1991; Mills, 1995) for some of the 39 fissioning systems considered.
In UKFY3.6A it was found that some systems (252Cf spontaneous and 238Pu thermal neutron induced) had unphysical shapes when the above procedure was performed. The 252Cf was corrected by re-fitting the data using a spreadsheet and the 238Pu by using the predicted parameters rather than the explicit fit. It was also discovered that some experimental data, because of the model re-normalisations, were skewing the distributions in some systems with only a few measurements, especially in Cm fissioning systems. This was solved by ignoring the few experimental measurements that lead to the skewed distributions.
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Figure 1 shows the mass distributions for several fissioning systems in JEFF-3.1. These slopes show three features. First, it should be noted that as the mass of the compound nucleus increases the lower mass peak moves to higher masses, but the higher mass peak remains almost stationary. Second, the depth of the valley between the peaks decreases with compound nucleus excitation energy. Finally, the upper edge of the higher mass peak falls off with a greater slope for lower compound nucleus masses.
Figure 1:JEFF-3.1 fission product mass distributions for seven fissioning systems
Fractional independent yields
The fractional independent yields were fitted by the Zp model, developed and described by Wahl (1985, 1988 and references therein). This model represents the fractional independent yields as Gaussian distributions in charge for a given mass, modified by an odd-even effect.
We used the same Zp model parameterisation as Wahl. This considered the independent yields of each mass to be a Gaussian distribution, centred on a mass ΔZ from the unchanged charge distribution approximation, which assumes the charge to mass ratio of the fragments are the same as the compound nucleus. The distribution has a width σ and an odd-even effect with charge and mass. Trends in these parameters for the different mass chains were fitted by relatively simple functions of mass number. Around symmetrical fission the ΔZ and σ undergo rapid changes described by Wahl (1985, 1988).
To fit Wahl’s parameterisation it was necessary to have the number of neutron emitted on average from each fragment mass νp (A). For 235U thermal the values for νp (A) were taken from Wahl (1988), and for other reactions the 235U thermal values re-normalised to give the appropriate total νp. Using similar techniques to Wahl a least-squares fit of the parameters to the analysed experimental data was used. The input yields to the least-squares fit were constrained to have uncertainties of 5% or greater to stop a few highly-weighted values dominating the fit. As small yields in a chain are difficult to measure, a lower limit was set on the fractional yields that were fitted at the point where the reduced χ2 rapidly diverged. For 235U thermal it was possible to fit all the parameters. However, for other reactions, it was not possible to fit some parameters as there are no significant data in the region near symmetric
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fission. Therefore the 235U thermal values for these parameters were used and only the five other parameters varied in the fits; even so only four fissioning systems were able to be fitted. The fitted parameters were then extrapolated for the other fissioning systems. The complete analysis is described in Mills (1995).
Ternary yields
The main requirements for ternary yields are yields of 4He and 3H for all the systems. This was achieved using the work of Serot, et al. (2004). Also where the UKFY3.6A database contained measurements of other yields these were included in the evaluated file, but it should be noted that these have not been analysed with the rigor that Serot, et al. extended to 4He and 3H. It should be noted that recent work has shown that the tritium produced in spent nuclear fuel from activation of other ternary products, principally 6Li, adds about 10% to the tritium produced (Mills, 2006). Thus it is necessary to improve the ternary yields in future files to better estimate tritium production.
3.3.5 Fitting to constraints Using the evaluation methods described above, a library in ENDF-6 format can be produced. However, as was pointed out, there are constraints that must apply to the yields due to the conservation of nucleons and charge.
In UKFY3.6A all constraints applying to the whole yield distribution were applied, and for the elements with the greatest yields constraints governing complementary pairs of elements were applied. The number of complementary pairs of elements considered being increased until the reduced χ2 did not excessively exceed unity or, where reduced χ2 was always greater than 1.0, the number of pairs was chosen to be that which gave a minimum value. The values of νp, used in the adjustment, are given in James, et al. (1991). It should be noted that only in a few cases are adjustments made greater than two standard deviations, and most adjustments are relatively small.
It is worth noting that the formulae for interpolation and extrapolation of chain and fractional independent yields described above are designed to satisfy the physical constraints. Consequently it was generally the case that greater percentage adjustments were needed for those fissioning systems that had more measured yields and thus more experimental noise in the data. Although, of course, values determined from experimental data have smaller uncertainties than values determined from systematic methods.
3.3.6 Isomeric yields So far, the evaluated independent yields considered have been those of nuclides including all isomeric states and we have ignored the division of the independent yield of a nuclide between its isomers. To allow for such a division for a nuclide with a single excited state m and ground state g, we define the isomeric yield ratio r(A,Z,m) given by:
( )( ) ( )m,Z,Ayg,Z,Ay
m,Z,Ay
+
Where possible, experimental data were used for the r(A,Z,m). There are two types of such measurements; first, direct determination of this ratio in a single experiment and second, determining the ratio from several independent experiments. Preference was given to direct measurements of the ratio, as these are free of normalisation problems and less likely to have confusion of the spin states. However, measurements of either kind were found to be sparse, so that recourse had to be made to theory.
In this work the method of Madland and England (1976) was used, as it requires minimal information (the spins of the excited and ground states) about the nuclide; even that was sometimes uncertain, but generally we relied on the spin data in the JEFF-3.1 decay data file. Nuclides with three or four isomeric states (including the ground state) were considered using a simple extension of the Madland and England model (Mills, 1995).
Using the above methodology it is possible to produce complete sets of adjusted independent yields, however, the ENDF-6 format requires that cumulative yields also be produced.
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3.3.7 The calculation of cumulative yields The concept of the cumulative yield, c(A,Z,I), of the nuclide (A,Z,I) is described above. It should be noted that cumulative yields are derived parameters and in measuring these, account must be taken of the decay paths and half-lives of precursors. Only in a few special circumstances, where all a nuclide’s precursors are much shorter lived than it and no significant neutron reactions need to be taken into account, can the cumulative yield be used for practical calculations. First, it is reasonable, in practical applied files, to ignore the very long-lived α decays (144Nd [half-life 2.4 × 1015 years] and 147Sm [half-life 1011 years]), as these will lead to an apparent approximate doubling of the cumulative yields of the daughters (140Ce and 143Nd) which, because of the times involved, is absurd for applied nuclear industry applications. Other similarly long-lived β decays and other decays with half-lives greater than 1 000 years (3.16 × 1010 seconds) have also been removed in the calculation of cumulative yields in both JEF-2.2 and JEFF-3.1. Greater problems arise with half-lives of say 1-100 years, i.e. of the same order as irradiation or storage times. Because of these problems it is recommended that cumulative yields should be used only rarely; the safer method is always to use independent yields with an inventory code that correctly treats all relevant types of decay, and also permits the consideration of neutron, or other transmutation, reactions that produce and destroy the nuclide.
Cumulative yields are useful in some special applications, for example, in calculations of total delayed neutron emission and total energy release by decay following fission. This is because of the property of cumulative yields that at the end of long irradiations most radioactive nuclides are in equilibrium with their precursors and their production rate is thus equal to their decay rate. Of course, very long-lived nuclides never reach equilibrium, but due to their half-lives have very little effect on the results.
The easiest way to calculate cumulative yields is to use the Q-matrix approach described by James, et al. (1991), where the cumulative yield of nuclide j is calculated from the independent yields:
∑=i
ij,ij yQc
In UKFY3.6A, the Q matrix was determined from the JEFF-3.1 decay data, using the method of James, et al. (1991). The uncertainties of the cumulative yields were determined from the uncertainties on both the adjusted independent yields and the experimentally based chain yield. Using a least squares approach the uncertainty on the cumulative yield, δc, is approximated by:
2
j
2
iij,i
j
j ChCh
cyQ)
Ch
c1(c ⎟⎟
⎠
⎞⎜⎜⎝
⎛∂+⎟⎟
⎠
⎞⎜⎜⎝
⎛∂−=∂ ∑
where Ch is the chain yield of the mass chain containing the cumulative yield cj. As the adjustment procedure alters the cumulative yields, the difference between an adjusted and unadjusted cumulative yield was added to the cumulative yield’s uncertainty.
3.3.8 JEFF-3.1.1: A correction to the JEFF-3.1 fission yields Following the release of the JEFF-3.1 fission yields an inconsistency was noted between the cumulative and independent yields for 235U thermal fission (Vidal, 2007). The independent yield of 137I is in the file as 2.9508E-2 instead of 3.0976E-2. This was the result of an incorrect unit conversion in the modification of UKFY3.6 to produce UKFY3.6A. This has no effect on the cumulative yields in the JEFF-3.1 file which are correct. However, if using this file for inventory calculations based upon the independent yields, the 137Cs (half-life of 30 years) and 136Xe (stable) from 235U thermal neutron fission will be under predicted by 2.2% and 0.145% respectively. A revision of the JEFF-3.1 file is available on the JEFF-3.1 feedback page (www.nea.fr/html/dbdata/jeff3feedback/feedback-31.html) or as JEFF-3.1.1.
LIBRARY TESTING AND VALIDATION
THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009 25
Chapter 4: Library testing and validation
The library has undergone some initial testing and validation, the results of which are discussed here. The library has been readily integrated into existing code systems owing to its strict adherence to the recognised ENDF-6 format. Since the library also contains data for all nuclei of interest in most envisaged domains, no extra data are required from other sources. This was often not the case for the JEF-2.2 library where additional libraries were required to provide supplementary data.
4.1 Delayed neutron yields and total energy release from fission
As described previously it is possible to use cumulative yields and decay data to calculate total delayed neutron yields and the total emitted energy following fission. The results of such calculations are shown in Tables 4.1 and 4.2 for the JEFF-3.1 fission yields, with decay data from JEFF-3.1 and JEFF-3.1.1. Where possible the results are compared with experimental values.
The delayed neutron results are given in Table 4.1. It should be noted that no significant differences arise from calculations with the JEFF-3.1 and JEFF-3.1.1 decay data library. These results are to be expected as the changes implemented in the decay data between JEFF-3.1 and JEFF-3.1.1 do not affect this particular calculation. As cumulative yields are used in the calculations the incorrect 137I independent yield has no effect on these results.
The calculations of the total emitted energy following fission are shown in Table 4.2 and show a reduction in the lepton energy of about 1-2% and an increase in the photon energy of about 1-3% for all systems. These results were to be expected as the incorporation of new average energy release data was the major part of the development of JEFF-3.1.1. Again cumulative yields are used in this calculation and thus the incorrect 137I independent yield has no effect on these results.
4.2 Fission pulse decay heat calculation1
Additionally, some comparisons were made using the JEFF-3.1/-3.1.1 data against fission pulse decay heat measurements. For rapid reactor transients, the prediction of decay heat is important in the range of seconds to minutes. Comparisons are thus most useful for irradiated samples of pure fissile nuclides cooled for these short periods. Tobias reviewed the status of decay heating in 1980, using 45 sets of experimental measurements. Tobias later updated this work (1989) using simultaneous least-squares fit to beta, gamma and total decay heat measurements for both 235U and 239Pu. This analysis considered 54 sets of 235U measurements and 28 sets for 239Pu. The results of the least-squares analysis were decay heat functions following a single fission event for both nuclides.
Figure 2 shows the results of FISPIN calculations for the total decay heat following a 235U single fission between 1 and 106 seconds. The FISPIN results using JEF-1, JEF-2.2, JEFF-3.1 and JEFF-3.1.1 are shown together with the results from Tobias’ evaluation of available experimental data. It should be noted that in the 235U figures the effect of the 137I independent yield and its daughter products are insignificant in the time range of 105 seconds (~1 day) and thus the JEFF-3.1 and JEFF-3.1.1 fission
1. Although results are only given for calculations made with the FISPIN code, similar results have been reported within the JEFF project using other codes and it is not expected that significant differences would exist between code systems following the conclusions reported in Duchemin, B., and C. Nordborg (1989), “Decay Heat Calculation – An International Nuclear Code Comparison”, NEACRP-319"L"/NEANDC-275"U", OECD Nuclear Energy Agency, Paris, which states that, “The overall results of the calculation of decay heat and contributing fission products are in very good agreement for the [different] codes.”
LIBRARY TESTING AND VALIDATION
26 THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009
yields give the same calculated results. Similar results were generated for 239Pu and are shown in Figure 3. The decay heat calculations and experimental data show reasonable agreement. To highlight differences, the ratios of the FISPIN results to the experimental data are shown in the lower parts of each figure where the experimentally derived uncertainties (one standard deviation) are shown as wide dotted grey lines about unity.
Figures 4-5 and 6-7 repeat similar calculations, but for the beta and gamma-ray heating components respectively. These results show that JEFF-3.1.1 gives better results compared to JEFF-3.1. The results are especially improved with this latest version for 235U gamma-ray heating, as was expected with the inclusion of the TAGS data. Similarly, the 239Pu gamma-ray heating is slightly improved. This is due to the different fission products produced in the different fissioning systems.
These results show the expected improvement in the prediction of the decay heat using the JEFF-3.1.1 decay data library.
LIBRARY TESTING AND VALIDATION
THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009 27
Table 4.1: Average delayed neutron yields following a single fission calculated using JEFF-3.1 and JEFF-3.1.1
Nuclide Energy Calculated JEFF-3.1
neutron per 100 fissions
Calculated JEFF-3.1.1
neutron per 100 fissions
Measured neutrons per 100 fissions with uncertainty
and reference code*
JEFF-3.1 and JEFF-3.1.1 ratio C/E
232Th Fast 5.38 ± 0.06 5.38 ± 0.06 5.47 ± 0.12 T 0.97 232Th 14 MeV 3.05 ± 0.03 3.05 ± 0.03 2.85 ± 0.13 V 1.06 233U Thermal 0.72 ± 0.01 0.72 ± 0.01 0.664 ± 0.018 T 1.08 233U Fast 1.04 ± 0.02 1.04 ± 0.02 0.729 ± 0.019 T 1.43 233U 14 MeV 0.55 ± 0.01 0.55 ± 0.01 0.422 ± 0.025 V 1.33 234U Fast 1.34 ± 0.03 1.34 ± 0.03 1.06 ± 0.12 T 1.26 235U Thermal 1.47 ± 0.02 1.47 ± 0.02 1.654 ± 0.042 T 0.88 235U Fast 1.69 ± 0.03 1.69 ± 0.03 1.714 ± 0.022 T 0.99 235U 14 MeV 0.93 ± 0.02 0.93 ± 0.02 0.927 ± 0.029 V 1.00 236U Fast 2.38 ± 0.04 2.38 ± 0.04 2.31 ± 0.26 T 1.03 238U Fast 4.03 ± 0.05 4.03 ± 0.05 4.51 ± 0.061 T 0.88 238U 14 MeV 2.36 ± 0.03 2.36 ± 0.03 2.73 ± 0.08 V 0.86
237Np Thermal 1.12 ± 0.03 1.12 ± 0.03 1.07 ± 0.10 W 1.05 237Np Fast 1.16 ± 0.03 1.16 ± 0.03 1.22 ± 0.03 B 0.96 238Np Thermal 1.41 ± 0.03 1.41 ± 0.03 238Np Fast 1.63 ± 0.03 1.63 ± 0.03 238Pu Thermal 0.31 ± 0.01 0.31 ± 0.01 0.456 ± 0.051 T 0.70 238Pu Fast 0.48 ± 0.01 0.48 ± 0.01 0.456 ± 0.051 T 1.05 239Pu Thermal 0.60 ± 0.02 0.60 ± 0.02 0.624 ± 0.024 T 0.96 239Pu Fast 0.67 ± 0.02 0.67 ± 0.02 0.664 ± 0.013 T 1.01 240Pu Fast 0.91 ± 0.02 0.91 ± 0.02 0.96 ± 0.11 T 0.96 241Pu Thermal 1.23 ± 0.03 1.23 ± 0.03 1.56 ± 0.16 T 0.78 241Pu Fast 1.29 ± 0.03 1.29 ± 0.03 1.63 ± 0.16 T 0.79 242Pu Fast 1.68 ± 0.03 1.68 ± 0.03 2.28 ± 0.25 T 0.73 241Am Thermal 0.37 ± 0.01 0.37 ± 0.01 0.44 ± 0.05 W 0.86 241Am Fast 0.41 ± 0.01 0.41 ± 0.01 0.394 ± 0.024 B 1.04
242mAm Thermal 0.58 ± 0.02 0.58 ± 0.02 0.69 ± 0.05 W 0.84 242mAm Fast 0.56 ± 0.02 0.56 ± 0.02 243Am Thermal 0.84 ± 0.02 0.84 ± 0.02 243Am Fast 0.81 ± 0.02 0.81 ± 0.02 242Cm Spont 0.12 ± 0.01 0.12 ± 0.01 243Cm Thermal 0.22 ± 0.01 0.22 ± 0.01 243Cm Fast 0.21 ± 0.01 0.21 ± 0.01 244Cm Spont 0.31 ± 0.01 0.31 ± 0.01 244Cm Thermal 0.32 ± 0.01 0.32 ± 0.01 244Cm Fast 0.33 ± 0.01 0.33 ± 0.01 245Cm Thermal 0.52 ± 0.01 0.52 ± 0.01 0.59 ± 0.04 W 0.88 245Cm Fast 0.46 ± 0.01 0.46 ± 0.01 252Cf Spont 0.58 ± 0.01 0.58 ± 0.01 0.86 ± 0.1 M 0.67
* The reference codes signify: B – Benedetti (1982), M – Manero (1972), T – Tuttle (1975), W – Waldo (1981), V –Tuttle (1979).
Tabl
e 4.
2: A
vera
ge d
elay
ed e
nerg
y em
issi
on fo
llow
ing
a si
ngle
fiss
ion
calc
ulat
ed u
sing
JEF
F-3.
1 an
d JE
FF-3
.1.1
Nuc
lide
Neu
tron
en
ergy
JEFF
3.1
calc
ulat
ion
JEFF
3.1.
1 ca
lcul
atio
n C
ompa
rison
with
exp
erim
enta
l dat
a (J
ames
, 196
9, 1
971)
Le
pton
Ph
oton
B
aryo
nN
eutr
ino
Lept
onPh
oton
Bar
yon
Neu
trin
oB
eta
JEFF
-3.1
C
/E
JEFF
-3.1
.1
C/E
G
amm
aJE
FF-3
.1
C/E
JE
FF-3
.1.1
C/E
M
eV/fi
ssio
n 23
2 Th
Fast
9.
569
7.79
7 0.
259
17.6
26
9.36
9 8.
022
0.25
9 17
.651
8.
3 ±
0.6
1.15
1.
13
8.6
± 2.
00.
91
0.93
23
2 Th
14 M
eV
8.22
6 6.
708
0.14
4 15
.078
8.
093
6.86
3 0.
144
15.0
99
233 U
Th
erm
al
6.13
6 4.
989
0.14
7 11
.272
6.
014
5.13
6 0.
147
11.2
97
5.7
± 0.
41.
08
1.06
5.
9 ±
1.3
0.85
0.
87
233 U
Fa
st
6.20
4 5.
106
0.14
2 11
.452
6.
090
5.25
1 0.
142
11.4
83
233 U
14
MeV
5.
160
4.24
8 0.
092
9.50
0 5.
100
4.31
7 0.
092
9.50
9
23
4 U
Fast
6.
852
5.47
8 0.
149
12.4
79
6.72
2 5.
633
0.14
9 12
.503
6.
2 ±
0.5
1.11
1.
08
6.4
± 1.
30.
86
0.88
23
5 U
Ther
mal
7.
749
6.01
5 0.
180
13.9
44
7.59
0 6.
193
0.18
0 13
.963
7.
0 ±
0.3
1.11
1.
08
7.2
± 1.
10.
84
0.86
23
5 U
Fast
7.
835
6.05
5 0.
171
14.0
61
7.68
3 6.
230
0.17
1 14
.084
23
5 U
14 M
eV
6.49
9 5.
052
0.11
1 11
.663
6.
401
5.15
3 0.
111
11.6
65
236 U
Fa
st
8.51
3 6.
464
0.17
3 15
.150
8.
355
6.63
8 0.
173
15.1
66
7.5
± 0.
51.
14
1.11
7.
7 ±
1.7
0.84
0.
86
238 U
Fa
st
10.1
27
7.52
2 0.
199
17.8
48
9.97
2 7.
684
0.19
9 17
.856
8.
9 ±
0.6
1.14
1.
12
8.4
± 1.
60.
90
0.91
23
8 U
14 M
eV
8.65
4 6.
580
0.15
0 15
.385
8.
532
6.69
7 0.
150
15.3
80
237 N
p Th
erm
al
7.28
3 5.
449
0.16
6 12
.899
7.
150
5.60
1 0.
166
12.9
18
6.4
± 0.
51.
14
1.12
6.
6 ±
1.4
0.83
0.
85
237 N
p Fa
st
7.17
3 5.
452
0.15
7 12
.782
7.
049
5.59
1 0.
157
12.7
97
238 N
p Th
erm
al
7.80
7 5.
896
0.16
0 13
.863
7.
671
6.04
0 0.
160
13.8
71
238 N
p Fa
st
7.97
3 5.
897
0.16
5 14
.035
7.
835
6.04
7 0.
165
14.0
47
238 Pu
Th
erm
al
5.68
5 4.
433
0.10
1 10
.219
5.
610
4.51
7 0.
101
10.2
28
5.5
± 0.
41.
03
1.02
5.
7 ±
1.2
0.78
0.
79
238 Pu
Fa
st
5.88
0 4.
461
0.15
1 10
.492
5.
789
4.56
6 0.
151
10.5
07
239 Pu
Th
erm
al
6.55
1 4.
883
0.14
4 11
.578
6.
448
4.99
2 0.
144
11.5
84
6.1
± 0.
61.
07
1.06
6.
1 ±
1.3
0.80
0.
82
239 Pu
Fa
st
6.56
0 4.
921
0.13
7 11
.618
6.
462
5.02
6 0.
137
11.6
26
240 Pu
Fa
st
7.08
9 5.
280
0.15
3 12
.522
6.
978
5.39
0 0.
153
12.5
22
6.5
± 0.
51.
09
1.07
6.
8 ±
1.4
0.78
0.
79
241 Pu
Th
erm
al
7.93
7 5.
911
0.16
2 14
.010
7.
816
6.02
5 0.
162
14.0
04
7.4
± 0.
61.
07
1.06
7.
8 ±
1.6
0.76
0.
77
241 Pu
Fa
st
7.96
3 5.
899
0.16
3 14
.024
7.
844
6.01
3 0.
163
14.0
20
242 Pu
Fa
st
8.59
3 6.
357
0.17
3 15
.122
8.
466
6.47
4 0.
172
15.1
13
8.0
± 0.
61.
07
1.06
8.
2 ±
1.6
0.78
0.
79
241 Am
Th
erm
al
5.96
3 4.
372
0.13
6 10
.471
5.
879
4.45
6 0.
136
10.4
72
241 Am
Fa
st
5.85
3 4.
338
0.14
6 10
.337
5.
767
4.42
9 0.
146
10.3
42
242m
Am
Ther
mal
6.
586
4.89
1 0.
179
11.6
56
6.47
1 5.
007
0.17
9 11
.657
24
2mAm
Fa
st
6.48
0 4.
826
0.16
5 11
.471
6.
380
4.92
9 0.
165
11.4
74
243 Am
Th
erm
al
7.23
5 5.
366
0.16
8 12
.769
7.
119
5.46
8 0.
168
12.7
55
243 Am
Fa
st
7.16
4 5.
314
0.16
9 12
.647
7.
053
5.41
6 0.
169
12.6
38
242 C
m
Spon
t 4.
783
3.48
9 0.
105
8.37
8 4.
742
3.53
0 0.
105
8.37
7
24
3 Cm
Th
erm
al
5.39
5 3.
946
0.13
2 9.
473
5.32
8 4.
012
0.13
2 9.
472
243 C
m
Fast
5.
267
3.86
6 0.
158
9.29
1 5.
202
3.93
0 0.
158
9.29
1
24
4 Cm
Sp
ont
5.85
1 4.
295
0.14
5 10
.291
5.
781
4.36
3 0.
145
10.2
89
244 C
m
Ther
mal
5.
823
4.30
5 0.
169
10.2
97
5.73
2 4.
392
0.16
9 10
.294
24
4 Cm
Fa
st
5.90
3 4.
280
0.17
6 10
.360
5.
815
4.36
9 0.
176
10.3
61
245 C
m
Ther
mal
6.
350
4.71
2 0.
183
11.2
44
6.24
8 4.
804
0.18
3 11
.234
24
5 Cm
Fa
st
6.38
9 4.
691
0.17
5 11
.255
6.
293
4.77
4 0.
175
11.2
41
252 C
f Sp
ont
7.33
8 5.
082
0.26
4 12
.684
7.
179
5.20
1 0.
264
12.6
43
28 THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009
LIBRARY TESTING AND VALIDATION
LIBRARY TESTING AND VALIDATION
THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009 29
Figure 2: The calculated total decay heat (β + γ) from fission products following a 235U fission pulse compared to the Tobias Standard (1989) (top) and as a ratio (bottom)
0.2
0.4
0.6
0.8
1.0
1.2
1.4
1.6
1E+0 1E+1 1E+2 1E+3 1E+4 1E+5Cooling time (s)
Heat
rate
per
fiss
ion
x tim
e (M
eV/s
/ fis
sion
. s)
Tobias (1989)JEFF311JEF-2.2JEF1JEFF31
0.80
0.85
0.90
0.95
1.00
1.05
1.10
1.15
1.20
1E+0 1E+1 1E+2 1E+3 1E+4 1E+5Cooling time (s)
Cal
cula
ted
/ Sta
ndar
d
JEF1JEF22JEFF31JEFF311
LIBRARY TESTING AND VALIDATION
30 THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009
Figure 3: The calculated total decay heat (β + γ) from fission products following a 239Pu fission pulse compared to the Tobias Standard (1989) (top) and as a ratio (bottom)
0.2
0.4
0.6
0.8
1.0
1.2
1E+0 1E+1 1E+2 1E+3 1E+4 1E+5Cooling time (s)
Hea
t rat
e pe
r fis
sion
x ti
me
(MeV
/s /
fissi
on .
s)
Tobias (1989)JEFF31JEF-2.2JEF1JEFF311
0.85
0.90
0.95
1.00
1.05
1.10
1.15
1.20
1E+0 1E+1 1E+2 1E+3 1E+4 1E+5Cooling time (s)
Cal
cula
ted
/ Sta
ndar
d
JEF1JEF22JEFF31JEFF311
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Figure 4: The calculated beta decay heat from fission products following a 235U fission pulse compared to the Tobias Standard (1989) (top) and as a ratio (bottom)
0.1
0.2
0.3
0.4
0.5
0.6
0.7
0.8
0.9
1E+0 1E+1 1E+2 1E+3 1E+4 1E+5Cooling time (s)
Heat
rat
e pe
r fis
sion
x ti
me
(MeV
/s /
fissi
on .
s)
Tobias (1989)JEFF311JEF-2.2JEF1JEFF31
0.80
0.85
0.90
0.95
1.00
1.05
1.10
1.15
1.20
1E+0 1E+1 1E+2 1E+3 1E+4 1E+5Cooling time (s)
Cal
cula
ted
/ Sta
ndar
d
JEF1JEF22JEFF31JEFF311
LIBRARY TESTING AND VALIDATION
32 THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009
Figure 5: The calculated beta decay heat from fission products following a 239Pu fission pulse compared to the Tobias Standard (1989) (top) and (bottom) as a ratio
0.1
0.2
0.3
0.4
0.5
0.6
0.7
0.8
1E+0 1E+1 1E+2 1E+3 1E+4 1E+5Cooling time (s)
Heat
rate
per
fiss
ion
x tim
e (M
eV/s
/ fis
sion
. s)
Tobias (1989)JEFF311JEF-2.2JEF1JEFF31
0.80
0.85
0.90
0.95
1.00
1.05
1.10
1.15
1.20
1E+0 1E+1 1E+2 1E+3 1E+4 1E+5Cooling time (s)
Cal
cula
ted
/ Sta
ndar
d
JEF1
JEF22
JEFF31
JEFF311
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Figure 6: The calculated gamma-ray decay heat from fission products following a 235U fission pulse compared to the Tobias Standard (1989) (top) and as a ratio (bottom)
0.1
0.2
0.3
0.4
0.5
0.6
0.7
0.8
0.9
1E+0 1E+1 1E+2 1E+3 1E+4 1E+5Cooling time (s)
Heat
rat
e pe
r fis
sion
x ti
me
(MeV
/s /
fissi
on .
s)
Tobias (1989)JEFF311JEFF31JEF1JEF-2.2
0.700.750.800.850.900.951.001.051.101.151.20
1E+0 1E+1 1E+2 1E+3 1E+4 1E+5Cooling time (s)
Calc
ulat
ed /
Stan
dard
JEF1JEF22JEFF31JEFF311
LIBRARY TESTING AND VALIDATION
34 THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009
Figure 7: The calculated gamma-ray decay heat from fission products following a 239Pu fission pulse compared to the Tobias Standard (1989) (top) and as a ratio (bottom)
0.1
0.2
0.3
0.4
0.5
0.6
1E+0 1E+1 1E+2 1E+3 1E+4 1E+5Cooling time (s)
Hea
t rat
e pe
r fis
sion
x ti
me
(MeV
/s /
fissi
on .
s)
Tobias (1989)JEFF311JEF-2.2JEF1JEFF31
0.80
0.85
0.90
0.95
1.00
1.05
1.10
1.15
1.20
1.25
1E+0 1E+1 1E+2 1E+3 1E+4 1E+5Cooling time (s)
Calc
ulat
ed /
Stan
dard
JEF1JEF22JEFF31JEFF311
CONCLUSIONS
THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009 35
Chapter 5: Conclusions
The JEFF-3.1 Radioactive Decay Data and Fissions Yields Sub-libraries were constructed and tested within the JEFF Project during the approximate period 2000-2005, and were released in May 2005, in conjunction with the other JEFF-3.1 sub-libraries. Following initial testing within the JEFF Project, including decay heat validation calculations, an update was made to the decay data and fission yield data that was released as JEFF-3.1.1 in 2007.
The JEFF Project therefore recommends the JEFF-3.1.1 Fission Yields Sub-library and the JEFF-3.1.1 Radioactive Decay Data Sub-library for general use.1
1. The JEFF-3.1 Radioactive Decay Data Sub-library of May 2005 is no longer being distributed and should be updated with the JEFF-3.1.1 November 2007 release.
REFERENCES
THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009 37
References
Audi, G., O. Bersillon, J. Blachot and A.H. Wapstra (2003), “The NUBASE Evaluation of Nuclear and Decay Properties”, Nuclear Physics A, 729, pp. 3-128.
Banai, J. and M.F. James (1987), unpublished.
Bé, M.M., E. Browne, V. Chechev, V. Chisté, R. Dersch, C. Dulieu, R.G. Helmer, N. Kuzmenco, A.L. Nichols and E. Schönfeld (2004), Nucléide, Table des Radionucléides sur CD-Rom, Version 2-2004, and the following site last accessed 20 March 2009, www.nucleide.org/NucData.htm.
Benedetti, G. (1982), et al., Nucl. Sci. Eng., 80, 379-387.
Bersillon, O. and J. Blachot (2009), SDf2NDF Code for Converting ENSDF to ENDF, forthcoming.
Brosa, U., S. Grossmann and A. Muller (1990), Physics Reports, 197, No. 4.
Burstall, R.F. (1979), “FISPIN – A Computer Code for Nuclide Inventory Calculations”, UKAEA Report ND-R-328(R).
Crouch, E.A.C. (1977), Atomic Data and Nuclear Data Tables 19, 417 and earlier references therein.
Crouch, E.A.C., M.F. James, P.S. Whitworth and C. Dunn (1985), unpublished.
Dickens, J.K. (1987), Nucl. Sci. Eng., 96, 8.
Dunford, C.L. (n.d.), ENDF Utility Checking Codes, 7.01, Brookhaven National Laboratory, Upton NY, USA.
Greenwood, R.C., R.G. Helmer, M.H. Putnam and K.D. Watts (1997), “Measurement of β–-decay Intensity Distributions of Several Fission-product Isotopes Using a Total Absorption γ-ray Spectrometer”, Nuclear Instruments and Methods in Physics Research A 390, pp. 95-154.
Herman, M. (Ed.) (2005), ENDF-102: ENDF-6 Formats Manual, Data Formats and Procedures for the Evaluated Nuclear Data File, ENDF/B-VI and ENDF/B-VII, Report BNL-NCS-44945-05-Rev., June.
James, M.F. (1969), Journal of Nuclear Energy, Vol. 23, pp. 517-536.
James, M.F. (1971), Journal of Nuclear Energy, Vol. 25, pp. 513-523.
James, M.F. (1987), “A Review of Libraries of Fission Product Yields”, Proc. of a Specialists Mtg. on Data for Decay Heat Predictions, Studsvik, Sweden, NEACRP-302'L'/NEANDC-245'U', OECD, Paris, p. 69.
James, M.F., R.W. Mills and D.R. Weaver (1991), “A New Evaluation of Fission Product Yields and the Production of a New Library (UKFY2) of Independent and Cumulative Yields. Part I. Methods and Outline of the Evaluation”, AEA-TRS-1015.
James, M.F., R.W. Mills and D.R. Weaver (1991a), “A New Evaluation of Fission Product Yields and the Production of a New Library (UKFY2) of Independent and Cumulative Yields. Part II. Tables of Measured and Recommended Fission Yields”, AEA-TRS-1018.
James, M.F., R.W. Mills and D.R. Weaver (1991b), “A New Evaluation of Fission Product Yields and the Production of a New Library (UKFY2) of Independent and Cumulative Yields. Part III. Tables of fission Yields with Discrepant or Sparse Data”, AEA-TRS-1019.
James, M.F., R.W. Mills and D.R. Weaver (1991c), The Use of the Normalised Residual in Using Experimental Data and in Treating Outliers, UKAEA report AEA-RS-1082 and later published in Nucl. Inst. and Meths., A313, 277 (1992).
Kellett, M.A. (2007), et al., Assessment of Fission Product Decay Data for Decay Heat Calculations, report by the Working Party on International Evaluation Co-operation of the NEA Nuclear Science Committee, Vol. 25, NEA/WPEC-25, OECD Nuclear Energy Agency, Paris, ISBN 978-92-64-99034-0.
REFERENCES
38 THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009
Kinsey, R. and B.A. Magurno (Eds.) (1983), Data Formats and Procedures for the Evaluated Nuclear Data File, ENDF/B-V, BNL-NCS-50496/ENDF-102.
Klapdor, H.V. (1989), private communication.
Lemmel, H.D. (1996), Short Guide to EXFOR, Report IAEA-NDS-1, Rev.7.
Lund, E., G. Rudstam, K. Aleklett, B. Ekstrom, B. Fogelberg and L. Jacobsson (1986), “A Status Report on Delayed Neutron Branching Ratios of Fission Products”, Proc. of the Specialists Meeting on Delayed Neutron Properties, D.R. Weaver (Ed.), p. 59, University of Birmingham, UK.
Madland, D.G. and T.R. England (1976), Nucl. Sci. Eng., 64, 859.
Madland, D.G. and L. Stewart (1977), LA-6783.
Manero, F. and V.A. Konshin (1972), in Atomic Energy Review, 10, p. 637, IAEA, Vienna, Austria.
Mills, R.W., M.F. James and D.R. Weaver (1989), “The Production of a New Evaluation of Fission Product Yields”, Proc. of the Conf. on 50 Years with Nuclear Fission, Gaithersburg, Vol. I, p. 471.
Mills, R.W. (1995), “Fission Product Yield Evaluation”, Thesis, The University of Birmingham, UK.
Mills, R.W. (2006), Technical Note on a Study of Indirect Tritium Production Using FISPIN and JEFF-3.1, JEFDOC-1152. Also referenced as NDA00712.5/06/10/02 and UKNSF(2006)P208.
Musgrove, A.R., J.L. Cook and G.D. Trimble (1973), “Prediction of Unmeasured Fission Yields”, Proc. Panel Fission Product Nuclear Data, Bologna, Italy, IAEA-169 2, 163.
Nichols, A.L. and R.J. Perry (2005), Assessment and Evaluation of Decay Data for EAF – 2004/05, UKNSF(2005)P188 (JEF/DOC-1072) relates to UKPADD-6.4 and both libraries are available from the OECD/NEA Databank upon request.
Nichols, A.L. and R.J. Perry (2007), Activation Product Decay Data: UKPADD-6.7, UKNSF(2007)P212 (JEF/DOC-1165), and A.L. Nichols and R.J. Perry, Heavy Element and Actinide Decay Data: UKHEDD-2.5, UKNSF(2007)P213 (JEF/DOC-1166).
Ouasti, R. (1988), “Étude de l’émission des particules légères chargées alphas et tritons dans la fission de uranium 235, uranium 238 et plutonium 239 induites par des neutrons rapides”, Thesis, The University of Bordeaux, CENBG 8801.
Perry, R.J., M.J. Grimstone and C.J. Dean (2003), Specification and Maintenance Document for Decay Data Checking in FIZCON, UKNSF(2003)P160 (JEFDOC-959) and references therein.
Rider, B.F. (1981), NEDO-12154-3(C) and references therein.
Rider, B.F. and T.R. England (1987), “Evaluation of Fission Product Yields for the USA National Nuclear Data Files”, Proc. of a Specialists Mtg. on Data for Decay Heat Predictions, Studsvik, Sweden, NEACRP-302'L'/NEANDC-245'U', OECD, Paris, p. 21.
Rudstam, G. (1992), Proceedings of a Specialists Mtg. on Fission Product Nuclear Data, NEA/NSC/DOC(92)9, Tokai, Japan, 25-27 May 1992, p. 27.
Serot, O., C. Wagemans and Jan Heyse (2004), “New Results on Helium and Tritium Gas Production from Ternary Fission”, International Conference on Nuclear Data for Science and Technology, Santa Fe, USA.
Tobias, A. (1980), “Decay Heat”, Progress in Nuclear Energy, Vol. 5, No. 1, pp. 1-193.
Tobias, A. (1989), Derivation of Decay Heat Benchmarks for 235U and 239Pu by a Least Squares Fit to Measured Data, CEGB report RD/B/6210/R89.
Tuli, J.K. (1987), The Evaluated Nuclear Structure Data file (ENSDF), Report BNL-NCS-51655 Rev. 87, April.
Tuttle, R.J. (1975), Nucl. Sci. Eng., 56, 37.
Tuttle, R.J. (1979), in Proc. Consultants’ Meeting on Delayed Neutron Properties, Vienna, Austria, 26-30 March.
Vidal, Jean-Marc, private communication, CEA Cadarache (2007).
Wahl, A.C. (1985), Phys. Rev., C 32, 184.
Wahl, A.C. (1988), Atomic Data and Nuclear Data Tables 39, 1.
Waldo, R.W. (1981), et al., Phys. Rev., C. 23, 1113.
MAIN DATA TABLES
THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009 39
Main data tables
Table A: Atomic weights and natural abundances included in JEFF-3.1.1
Mat no. Element Atomic weight
Natural abundance (%)
1 0-nn- 1 1.000000 See footnote * 2 1-H - 1 0.999167 99.9885 70 † 3 1-H - 2 1.996800 0.0115 70 9 2-He- 3 2.990120 0.000137 3 10 2-He- 4 3.968220 99.999863 3 19 3-Li- 6 5.963450 7.59 4 20 3-Li- 7 6.955730 92.41 4 30 4-Be- 9 8.934760 100.00 42 5-B - 10 9.926920 19.9 7 43 5-B - 11 10.914700 80.1 7 56 6-C - 12 11.896900 98.93 8 57 6-C - 13 12.891600 1.07 8 71 7-N - 14 13.882800 99.632 7 72 7-N - 15 14.871300 0.368 7 87 8-O - 16 15.857500 99.757 16 88 8-O - 17 16.853100 0.038 1 89 8-O - 18 17.844500 0.205 14
105 9-F - 19 18.835200 100.00 122 10-Ne- 20 19.820700 90.48 3 123 10-Ne- 21 20.813500 0.27 1 124 10-Ne- 22 21.802500 9.25 3 142 11-Na- 23 22.792300 100.00 162 12-Mg- 24 23.779000 78.99 4 163 12-Mg- 25 24.771200 10.00 1 164 12-Mg- 26 25.759400 11.01 3 187 13-Al- 27 26.749800 100.00 209 14-Si- 28 27.736600 92.2297 7 210 14-Si- 29 28.727600 4.6832 5 211 14-Si- 30 29.716300 3.0872 5 233 15-P - 31 30.707700 100.00 255 16-S - 32 31.697400 94.93 31 256 16-S - 33 32.688200 0.76 2 257 16-S - 34 33.676100 4.29 28 259 16-S - 36 35.658100 0.02 1 281 17-Cl- 35 34.668500 75.78 4 283 17-Cl- 37 36.648300 24.22 4 305 18-Ar- 36 35.658600 0.3365 30 307 18-Ar- 38 37.636600 0.0632 5
* All atomic weights are given relative to the neutron mass of 1.0086649157 (6) unified atomic mass units (u). † The uncertainty is given following the value, i.e. 99.9885 70 is 99.9885 ± 70.
MAIN DATA TABLES
40 THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009
Table A: Atomic weights and natural abundances included in JEFF-3.1.1 (cont.)
Mat no. Element Atomic weight
Natural abundance (%)
309 18-Ar- 40 39.619100 99.6003 30 331 19-K - 39 38.629000 93.2581 44 332 19-K - 40 39.620700 0.0117 1 333 19-K - 41 40.609900 6.7302 44 354 20-Ca- 40 39.619300 96.941 156 356 20-Ca- 42 41.598200 0.647 23 357 20-Ca- 43 42.589700 0.135 10 358 20-Ca- 44 43.577900 2.086 110 360 20-Ca- 46 45.558900 0.004 3 362 20-Ca- 48 47.540600 0.187 21 383 21-Sc- 45 44.569700 100.00 410 22-Ti- 46 45.557900 8.25 3 411 22-Ti- 47 46.548400 7.44 2 412 22-Ti- 48 47.536100 73.72 3 413 22-Ti- 49 48.527400 5.41 2 414 22-Ti- 50 49.515700 5.18 2 440 23-V - 50 49.518100 0.250 4 441 23-V - 51 50.506300 99.750 4 465 24-Cr- 50 49.517000 4.345 13 467 24-Cr- 52 51.494300 83.789 18 468 24-Cr- 53 52.485900 9.501 17 469 24-Cr- 54 53.475500 2.365 7 497 25-Mn- 55 54.466100 100.00 526 26-Fe- 54 53.476200 5.845 35 528 26-Fe- 56 55.454400 91.754 36 529 26-Fe- 57 56.446300 2.119 10 530 26-Fe- 58 57.435600 0.282 4 561 27-Co- 59 58.426900 100.00 592 28-Ni- 58 57.437700 68.0769 89 594 28-Ni- 60 59.416000 26.2231 77 595 28-Ni- 61 60.407600 1.1399 6 596 28-Ni- 62 61.396400 3.6345 17 598 28-Ni- 64 63.378800 0.9256 9 625 29-Cu- 63 62.389000 69.17 3 627 29-Cu- 65 64.370000 30.83 3 660 30-Zn- 64 63.380000 48.63 60 662 30-Zn- 66 65.359700 27.90 27 663 30-Zn- 67 66.352200 4.10 13 664 30-Zn- 68 67.341300 18.75 51 667 30-Zn- 70 69.324600 0.62 3 698 31-Ga- 69 68.333500 60.108 9 700 31-Ga- 71 70.315400 39.892 9 730 32-Ge- 70 69.323600 20.84 87 733 32-Ge- 72 71.304200 27.54 34 734 32-Ge- 73 72.297000 7.73 5 736 32-Ge- 74 73.286200 36.28 73 739 32-Ge- 76 75.269200 7.61 38 772 33-As- 75 74.278000 100.00 803 34-Se- 74 73.287400 0.89 4 805 34-Se- 76 75.267000 9.37 29 806 34-Se- 77 76.259100 7.63 16
MAIN DATA TABLES
THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009 41
Table A: Atomic weights and natural abundances included in JEFF-3.1.1 (cont.)
Mat no. Element Atomic weight
Natural abundance (%)
808 34-Se- 78 77.248000 23.77 28 811 34-Se- 80 79.230000 49.61 41 814 34-Se- 82 81.213000 8.73 22 845 35-Br- 79 78.240400 50.69 7 849 35-Br- 81 80.221200 49.31 7 877 36-Kr- 78 77.251000 0.35 1 880 36-Kr- 80 79.229900 2.28 6 883 36-Kr- 82 81.209800 11.58 14 884 36-Kr- 83 82.201900 11.49 6 886 36-Kr- 84 83.190700 57.00 4 889 36-Kr- 86 85.172600 17.30 22 923 37-Rb- 85 84.182400 72.17 2 926 37-Rb- 87 86.162600 27.83 2 957 38-Sr- 84 83.192600 0.56 1 960 38-Sr- 86 85.171300 9.86 1 961 38-Sr- 87 86.162300 7.00 1 963 38-Sr- 88 87.150500 82.58 1 1002 39-Y - 89 88.142100 100.00 1047 40-Zr- 90 89.132400 51.45 40 1049 40-Zr- 91 90.124700 11.22 5 1050 40-Zr- 92 91.115500 17.15 8 1052 40-Zr- 94 93.099600 17.38 28 1054 40-Zr- 96 95.084400 2.80 9 1090 41-Nb- 93 92.108300 100.00 1131 42-Mo- 92 91.117300 14.84 35 1134 42-Mo- 94 93.098400 9.25 12 1135 42-Mo- 95 94.090600 15.92 13 1136 42-Mo- 96 95.080800 16.68 2 1137 42-Mo- 97 96.073600 9.55 8 1138 42-Mo- 98 97.064300 24.13 31 1140 42-Mo-100 99.049200 9.63 23 1213 44-Ru- 96 95.083700 5.54 14 1215 44-Ru- 98 97.064200 1.87 3 1216 44-Ru- 99 98.056300 12.76 14 1217 44-Ru-100 99.046000 12.60 7 1218 44-Ru-101 100.039000 17.06 2 1219 44-Ru-102 101.029000 31.55 14 1222 44-Ru-104 103.013000 18.62 27 1264 45-Rh-103 102.021000 100.00 1305 46-Pd-102 101.030000 1.02 1 1307 46-Pd-104 103.011000 11.14 8 1308 46-Pd-105 104.004000 22.33 8 1309 46-Pd-106 104.994000 27.33 3 1312 46-Pd-108 106.977000 26.46 9 1315 46-Pd-110 108.961000 11.72 9 1362 47-Ag-107 105.987000 51.839 8 1366 47-Ag-109 107.969000 48.161 8 1412 48-Cd-106 104.997000 1.25 6 1414 48-Cd-108 106.977000 0.89 3 1416 48-Cd-110 108.959000 12.49 18 1417 48-Cd-111 109.951000 12.80 12
MAIN DATA TABLES
42 THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009
Table A: Atomic weights and natural abundances included in JEFF-3.1.1 (cont.)
Mat no. Element Atomic weight
Natural abundance (%)
1419 48-Cd-112 110.941000 24.13 21 1420 48-Cd-113 111.934000 12.22 12 1422 48-Cd-114 112.925000 28.73 42 1425 48-Cd-116 114.909000 7.49 18 1478 49-In-113 111.934000 4.29 5 1483 49-In-115 113.917000 95.71 5 1542 50-Sn-112 110.944000 0.97 1 1545 50-Sn-114 112.924000 0.66 1 1546 50-Sn-115 113.916000 0.34 1 1547 50-Sn-116 114.906000 14.54 9 1548 50-Sn-117 115.899000 7.68 7 1550 50-Sn-118 116.889000 24.22 9 1551 50-Sn-119 117.882000 8.59 4 1553 50-Sn-120 118.872000 32.58 9 1556 50-Sn-122 120.856000 4.63 3 1559 50-Sn-124 122.841000 5.79 5 1601 51-Sb-121 119.865000 57.21 5 1604 51-Sb-123 121.848000 42.79 5 1648 52-Te-120 118.874000 0.09 1 1651 52-Te-122 120.856000 2.55 12 1652 52-Te-123 121.848000 0.89 3 1654 52-Te-124 122.838000 4.74 14 1655 52-Te-125 123.831000 7.07 15 1657 52-Te-126 124.822000 18.84 25 1660 52-Te-128 126.806000 31.74 8 1663 52-Te-130 128.790000 34.08 62 1700 53-I -127 125.814000 100.00 1737 54-Xe-124 122.841000 0.09 1 1740 54-Xe-126 124.823000 0.09 1 1743 54-Xe-128 126.805000 1.92 3 1744 54-Xe-129 127.797000 26.44 24 1746 54-Xe-130 128.788000 4.08 2 1747 54-Xe-131 129.781000 21.18 3 1749 54-Xe-132 130.771000 26.89 6 1753 54-Xe-134 132.755000 10.44 10 1757 54-Xe-136 134.740000 8.87 16 1802 55-Cs-133 131.764000 100.00 1844 56-Ba-130 128.790000 0.106 1 1848 56-Ba-132 130.772000 0.101 1 1851 56-Ba-134 132.754000 2.417 18 1852 56-Ba-135 133.747000 6.592 12 1854 56-Ba-136 134.737000 7.854 24 1856 56-Ba-137 135.730000 11.232 24 1858 56-Ba-138 136.721000 71.698 42 1904 57-La-138 136.722000 0.090 1 1905 57-La-139 137.713000 99.910 1 1945 58-Ce-136 134.740000 0.185 2 1948 58-Ce-138 136.721000 0.251 2 1952 58-Ce-140 138.704000 88.450 51 1954 58-Ce-142 140.690000 11.114 51 1997 59-Pr-141 139.697000 100.00
MAIN DATA TABLES
THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009 43
Table A: Atomic weights and natural abundances included in JEFF-3.1.1 (cont.)
Mat no. Element Atomic weight
Natural abundance (%)
2042 60-Nd-142 140.689000 27.2 5 2043 60-Nd-143 141.682000 12.2 2 2044 60-Nd-144 142.674000 23.8 3 2045 60-Nd-145 143.668000 8.3 1 2046 60-Nd-146 144.660000 17.2 3 2048 60-Nd-148 146.646000 5.7 1 2050 60-Nd-150 148.633000 5.6 2 2135 62-Sm-144 142.676000 3.07 7 2138 62-Sm-147 145.653000 14.99 18 2139 62-Sm-148 146.644000 11.24 10 2140 62-Sm-149 147.638000 13.82 7 2141 62-Sm-150 148.629000 7.38 1 2143 62-Sm-152 150.615000 26.75 16 2146 62-Sm-154 152.600000 22.75 29 2184 63-Eu-151 149.623000 47.81 3 2188 63-Eu-153 151.608000 52.19 3 2226 64-Gd-152 150.615000 0.20 1 2228 64-Gd-154 152.599000 2.18 3 2229 64-Gd-155 153.592000 14.80 12 2231 64-Gd-156 154.583000 20.47 9 2232 64-Gd-157 155.576000 15.65 2 2233 64-Gd-158 156.567000 24.84 7 2235 64-Gd-160 158.553000 21.86 19 2286 65-Tb-159 157.560000 100.00 2322 66-Dy-156 154.585000 0.06 1 2325 66-Dy-158 156.568000 0.10 1 2327 66-Dy-160 158.551000 2.34 8 2328 66-Dy-161 159.544000 18.91 24 2329 66-Dy-162 160.536000 25.51 26 2330 66-Dy-163 161.529000 24.90 16 2331 66-Dy-164 162.521000 28.18 37 2387 67-Ho-165 163.513000 100.00 2424 68-Er-162 160.538000 0.14 1 2426 68-Er-164 162.521000 1.61 3 2428 68-Er-166 164.505000 33.61 35 2429 68-Er-167 165.498000 22.93 17 2431 68-Er-168 166.490000 26.78 26 2433 68-Er-170 168.476000 14.93 27 2478 69-Tm-169 167.483000 100.00 2510 70-Yb-168 166.491000 0.13 1 2513 70-Yb-170 168.475000 3.04 15 2514 70-Yb-171 169.468000 14.28 57 2516 70-Yb-172 170.459000 21.83 67 2517 70-Yb-173 171.453000 16.13 27 2518 70-Yb-174 172.445000 31.83 92 2521 70-Yb-176 174.431000 12.76 41 2574 71-Lu-175 173.438000 97.41 2 2575 71-Lu-176 174.431000 2.59 2 2614 72-Hf-174 172.446000 0.16 1 2616 72-Hf-176 174.430000 5.26 7 2617 72-Hf-177 175.423000 18.60 9
MAIN DATA TABLES
44 THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009
Table A: Atomic weights and natural abundances included in JEFF-3.1.1 (cont.)
Mat no. Element Atomic weight
Natural abundance (%)
2620 72-Hf-178 176.415000 27.28 7 2623 72-Hf-179 177.409000 13.62 2 2626 72-Hf-180 178.401000 35.08 16 2677 73-Ta-180M 178.402000 0.012 2 2678 73-Ta-181 179.394000 99.988 2 2714 74-W -180 178.401000 0.12 1 2717 74-W -182 180.385000 26.50 16 2718 74-W -183 181.379000 14.31 4 2720 74-W -184 182.371000 30.64 2 2723 74-W -186 184.357000 28.43 19 2769 75-Re-185 183.364000 37.40 2 2772 75-Re-187 185.350000 62.60 2 2806 76-Os-184 182.372000 0.02 1 2808 76-Os-186 184.356000 1.59 3 2809 76-Os-187 185.350000 1.96 2 2810 76-Os-188 186.341000 13.24 8 2811 76-Os-189 187.335000 16.15 5 2813 76-Os-190 188.327000 26.26 2 2817 76-Os-192 190.312000 40.78 19 2867 77-Ir-191 189.320000 37.3 2 2873 77-Ir-193 191.305000 62.7 2 2913 78-Pt-190 188.328000 0.014 1 2915 78-Pt-192 190.312000 0.782 7 2918 78-Pt-194 192.296000 32.967 99 2919 78-Pt-195 193.290000 33.832 10 2921 78-Pt-196 194.282000 25.242 41 2924 78-Pt-198 196.267000 7.163 55 2978 79-Au-197 195.275000 100.00 3022 80-Hg-196 194.282000 0.15 1 3025 80-Hg-198 196.266000 9.97 20 3026 80-Hg-199 197.259000 16.87 22 3028 80-Hg-200 198.251000 23.10 19 3029 80-Hg-201 199.244000 13.18 9 3030 80-Hg-202 200.236000 29.86 26 3032 80-Hg-204 202.221000 6.87 15 3092 81-Tl-203 201.229000 29.524 14 3094 81-Tl-205 203.214000 70.476 14 3143 82-Pb-204 202.221000 1.4 1 3147 82-Pb-206 204.205000 24.1 1 3148 82-Pb-207 205.198000 22.1 1 3150 82-Pb-208 206.190000 52.4 1 3208 83-Bi-209 207.185000 100.00 3486 90-Th-232 230.045000 100.00 3541 92-U -234 232.030000 0.0055 2 3542 92-U -235 233.025000 0.7200 51 3546 92-U -238 236.006000 99.2745 106
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Table B: Updated average energy values from TAGS measurements in JEFF-3.1.1
Matn Nuclide Original From TAGS JEFF-3.1
source <β> (eV) <γ> (eV) <β> (eV) <γ> (eV) 0929 37-Rb- 90 2.049E+06 1.982E+06 1.916E+06 2.271E+06 ENSDF 0930 37-Rb- 90M 1.403E+06 3.241E+06 1.118E+06 3.869E+06 ENSDF 0931 37-Rb- 91 1.612E+06 2.269E+06 1.368E+06 2.706E+06 ENSDF 0970 38-Sr- 95 2.208E+06 1.118E+06 1.901E+06 1.790E+06 ENSDF 1812 55-Cs-139 1.640E+06 3.446E+05 1.671E+06 3.050E+05 ENSDF 1814 55-Cs-141 1.935E+06 7.696E+05 1.506E+06 1.701E+06 ENSDF 1863 56-Ba-143 1.417E+06 1.417E+06 1.195E+06 1.341E+06 NUBASE 1864 56-Ba-144 1.040E+06 1.040E+06 9.298E+05 7.847E+05 NUBASE 1865 56-Ba-145 1.860E+06 1.860E+06 1.285E+06 1.833E+06 NUBASE 1908 57-La-142 8.682E+05 2.325E+06 9.619E+05 2.121E+06 ENSDF 1909 57-La-143 1.237E+06 2.523E+05 1.235E+06 4.394E+05 ENSDF 1910 57-La-144 1.382E+06 2.330E+06 9.862E+05 3.085E+06 ENSDF 1911 57-La-145 1.499E+06 6.239E+05 7.618E+05 2.144E+06 ENSDF 1960 58-Ce-148 7.133E+05 7.133E+05 5.857E+05 4.858E+05 NUBASE 2005 59-Pr-147 8.990E+05 8.990E+05 6.685E+05 9.285E+05 NUBASE 2006 59-Pr-148 1.679E+06 9.377E+05 1.348E+06 1.776E+06 ENSDF 2007 59-Pr-148M 1.701E+06 9.368E+05 1.239E+06 2.050E+06 ENSDF 2008 59-Pr-149 1.286E+06 3.049E+05 8.107E+05 1.332E+06 ENSDF 2010 59-Pr-151 1.394E+06 1.394E+06 1.114E+06 1.362E+06 NUBASE 2053 60-Nd-153 1.112E+06 1.112E+06 1.153E+06 5.086E+05 NUBASE 2054 60-Nd-154 9.367E+05 9.367E+05 8.562E+05 5.506E+05 NUBASE 2055 60-Nd-155 1.500E+06 1.500E+06 1.085E+06 1.543E+06 NUBASE 2098 61-Pm-152 1.326E+06 2.852E+05 1.304E+06 3.454E+05 ENSDF 2101 61-Pm-153 6.858E+05 7.339E+04 6.626E+05 1.225E+05 ENSDF 2102 61-Pm-154 1.321E+06 1.321E+06 8.491E+05 1.876E+06 NUBASE 2105 61-Pm-156 1.717E+06 1.717E+06 1.206E+06 2.206E+06 NUBASE 2106 61-Pm-157 1.453E+06 1.453E+06 1.540E+06 8.490E+05 NUBASE 2149 62-Sm-157 9.123E+05 9.123E+05 8.389E+05 5.850E+05 NUBASE 2150 62-Sm-158 6.667E+05 6.667E+05 5.121E+05 5.903E+05 NUBASE
MAIN DATA TABLES
46 THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009
Table C: Total number of neutrons per fission ( totalυ )
Matn. Nuclide totalυ
3484 90-Th-230M 1.3900 3486 90-Th-232M 1.5000 3513 91-Pa-231M 1.7100 3539 92-U -232M 1.7100 3541 92-U -234M 1.8000 3542 92-U -235M 1.8700 3544 92-U -236M 1.9000 3546 92-U -238M 2.0000 3582 94-Pu-236M 2.1200 3585 94-Pu-238M 2.2100 3586 94-Pu-239M 2.3200 3587 94-Pu-240M 2.1510 3589 94-Pu-242M 2.1410 3591 94-Pu-244M 2.2900 3605 95-Am-241M 2.5000 3607 95-Am-242M 2.5600 3609 95-Am-243M 2.6100 3627 96-Cm-242M 2.5280 3629 96-Cm-244M 2.6875 3632 96-Cm-246M 2.9480 3634 96-Cm-248M 3.1610 3636 96-Cm-250M 3.3000 3654 97-Bk-249M 3.4000 3672 98-Cf-249M 3.4000 3673 98-Cf-250M 3.5200 3675 98-Cf-252M 3.7560 3694 99-Es-253M 4.7000
Tabl
e D
: Orig
inal
JEF
F-3.
1 da
ta, u
pdat
ed in
JEF
F-3.
1.1
a) T
he fo
llow
ing
nucl
ei h
ad u
nkno
wn
spin
s/pa
ritie
s in
JEF
F-3.
1, w
hich
wer
e up
date
d in
JEF
F-3.
1.1
Matn
Nuclide
Source
Matn
Nuclide
Source
0092
8-O - 21
ENSDF
3434
89-Ac-211
ENSDF
0159
12-Mg- 21
NUBASE
3436
89-Ac-213
ENSDF
0216
14-Si- 35
ENSDF
3444
89-Ac-220
ENSDF
0472
24-Cr- 57
ENSDF
3445
89-Ac-221
ENSDF
0603
28-Ni- 69
ENSDF
3466
90-Th-213
ENSDF
0870
36-Kr- 71
ENSDF
3470
90-Th-217
ENSDF
0936
37-Rb- 96
ENSDF
3472
90-Th-219
ENSDF
0986
39-Y - 80
ENSDF
3498
91-Pa-217
ENSDF
1190
43-Tc-107
ENSDF
3499
91-Pa-217M
ENSDF
1194
43-Tc-111
ENSDF
3505
91-Pa-223
ENSDF
1231
44-Ru-113
ENSDF
3507
91-Pa-225
ENSDF
1586
51-Sb-110
ENSDF
3526
92-U -219
ENSDF
1819
55-Cs-145
ENSDF
3530
92-U -223
ENSDF
2733
75-Re-161
ENSDF
3625
96-Cm-240
ENSDF
2832
77-Ir-169
ENSDF
3745
102-No-251
ENSDF
2936
79-Au-173
ENSDF
3752
102-No-256
ENSDF
2994
80-Hg-175
ENSDF
3766
103-Lr-257
ENSDF
b) O
rigin
al d
ata
from
JE
FF-3
.1 fo
r tho
se n
ucle
i upd
ated
in J
EFF
-3.1
.1 (n
ew e
valu
atio
ns o
r bet
ter t
reat
men
t of o
rigin
al s
ourc
e da
ta)
Matn
Nuclide
SpPa
Exc ener
Half-life (%-err)
Decay modes (%)
Nsp
<β> (eV)
<γ> (eV)
<α>
(eV)
Source
0078 7-N - 21 0.5- 0.087 s 6.90
β-:20.00; β-,n:80.00 0
3.822E+06
3.822E+06
2.676E+06
NUBASE
0107 9-F - 21 2.5+ 4.158 s 0.48
β-:100.00
2
2.354E+06
5.373E+05
1.492E+03
ENSDF
0286 17-Cl- 39 1.5+ 55.6 m 0.36
β-:100.00
2
8.230E+05
1.451E+06
ENSDF
0384 21-Sc- 45M 1.5+ 1.240E+04 0.318 s 2.20
IT:100.00
0
1.240E+04
NUBASE
0532 26-Fe- 60 0.0+ 1.5E+06 y 20
β-m:100.00
1
8.767E+04
UKPADD64
0575 27-Co- 70 ? 0.125 s 5.60
β-:100.00
0
4.503E+06
4.503E+06
NUBASE
0633 29-Cu- 70 1.0+ 4.5 s 22.22
β-:100.00
2
2.782E+06
4.778E+05
ENSDF
0634 29-Cu- 70M 3.0- 1.010E+05 33 s 6.06
β-:50.00; IT:50.00
0
1.115E+06
1.165E+06
NUBASE
0635 29-Cu- 70N 1.0+ 2.420E+05 6.6 s 3.03
β-:95.00; ITm:5.00
0
2.163E+06
2.170E+06
NUBASE
0665 30-Zn- 69 0.5- 56.4 m 1.60
β-:100.00
2
3.216E+05
6.000E+00
ENSDF
0666 30-Zn- 69M 4.5+ 4.387E+05 13.76 h 0.15
IT:99.97; β-:0.03
4
2.204E+04
4.161E+05
ENSDF
0735 32-Ge- 73M 0.5- 6.673E+04 0.499 s 2.20
IT:100.00
0
6.673E+04
NUBASE
0770 33-As- 73 1.5- 80.3 d 0.07
β+m:100.00
0
1.369E+04
2.738E+04
NUBASE
0774 33-As- 76 2.0- 1.093 d 0.34
β-:100.00
2
1.065E+06
4.163E+05
ENSDF
0780 33-As- 82 1.0+ 19.1 s 2.62
β-:100.00
2
3.297E+06
3.273E+05
ENSDF
0807 34-Se- 77M 3.5+ 1.619E+05 17.36 s 0.29
IT:100.00
0
1.619E+05
NUBASE
0809 34-Se- 79 3.5+ 1.1E+06 y 18.18
β-:100.00
1
5.580E+04
ENSDF
THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009 47
MAIN DATA TABLES
b) O
rigin
al d
ata
from
JE
FF-3
.1 fo
r tho
se n
ucle
i upd
ated
in J
EFF
-3.1
.1 (n
ew e
valu
atio
ns o
r bet
ter t
reat
men
t of o
rigin
al s
ourc
e da
ta) (
cont
.)
Matn
Nuclide
SpPa
Exc ener
Half-life (%-err)
Decay modes (%)
Nsp
<β> (eV)
<γ> (eV)
<α>
(eV)
Source
0812 34-Se- 81 0.5- 18.45 m 0.65
β-:100.00
4
6.107E+05
7.991E+03
ENSDF
0813 34-Se- 81M 3.5+ 1.030E+05 57.28 m 0.03
β-:0.05; IT:99.95
4
8.445E+04
1.825E+04
ENSDF
0820 34-Se- 87 2.5+ 5.29 s 2.08
β-:100.00
2
2.833E+06
1.067E+06
ENSDF
0856 35-Br- 86 2.0- 55 s 1.45
β-:100.00
2
1.968E+06
3.232E+06
ENSDF
0869 36-Kr- 70 0.0+ 0.057 s 36.84
β+m:100.00
0
2.486E+06
2.486E+06
NUBASE
0926 37-Rb- 87 1.5- 4.75E+10 y 0.84
β-:100.00
1
8.170E+04
ENSDF
0962 38-Sr- 87M 0.5- 3.885E+05 2.803 h 0.11
β+:0.30; IT:99.70
4
6.654E+04
3.195E+05
ENSDF
0998 39-Y - 87 0.5- 3.325 d 0.38
β+m:100.00
0
4.911E+05
4.911E+05
NUBASE
0999 39-Y - 87M 4.5+ 3.808E+05 13.37 h 0.22
IT:98.43; β+:1.57
0
1.174E+04
3.866E+05
NUBASE
1005 39-Y - 90M 7.0+ 6.820E+05 3.19 h 0.31
IT:100.00;
β-:~;
β-m:~
4
4.528E+04
6.353E+05
ENSDF
1015 39-Y - 97 0.5- 3.75 s 0.80
β-:100.00
4
2.148E+06
1.818E+06
ENSDF
1016 39-Y - 97M 4.5+ 6.675E+05 1.17 s 2.56
β-:99.22;
IT:0.70;
β-,n:0.08
0
2.433E+06
2.438E+06
3.562E+02
NUBASE
1017 39-Y - 97N 13.5- 3.523E+06 0.142 s 5.63
ITm:80.00; β-:20.00
0
6.808E+05
2.965E+06
NUBASE
1048 40-Zr- 90M 5.0- 2.319E+06 0.809 s 0.25
IT:100.00
3
1.554E+04
2.303E+06
ENSDF
1096 41-Nb- 96 6.0+ 23.35 h 0.21
β-:100.00
4
2.497E+05
2.460E+06
ENSDF
1107 41-Nb-102M ? 4.3 s 9.30
β-:100.00
2
2.276E+06
2.094E+06
ENSDF
1185 43-Tc-102M ? 4.35 m 1.61
β-:100.00
2
7.798E+05
2.511E+06
ENSDF
1260 45-Rh-101 0.5- 3.3 y 9.09
β+:100.00
4
2.554E+04
2.878E+05
ENSDF
1261 45-Rh-101M 4.5+ 1.573E+05 4.34 d 0.23
β+:93.60; IT:6.40
0
3.271E+04
7.550E+04
NUBASE
1278 45-Rh-111 3.5+ 11 s 9.09
β-:99.60; β-
m:0.40
0
1.215E+06
1.215E+06
NUBASE
1319 46-Pd-113 2.5+ 1.55 m 5.38
β-:4.24; β-
m:95.76
4
1.365E+06
1.209E+05
ENSDF
1320 46-Pd-113M 4.5- 8.130E+04 0.3 s 33.33
IT:100.00
3
5.842E+04
2.136E+04
ENSDF
1367 47-Ag-109M 3.5+ 8.803E+04 39.6 s 0.51
IT:100.00
3
7.575E+04
1.124E+04
ENSDF
1389 47-Ag-121 3.5+ 0.78 s 1.28
β-:89.55; β-
m:10.45
4
2.301E+06
1.167E+06
ENSDF
1429 48-Cd-119 1.5+ 2.69 m 0.74
β-:9.72; β-
m:90.28
4
8.107E+05
1.485E+06
ENSDF
1430 48-Cd-119M 5.5- 1.465E+05 2.2 m 0.91
β-:99.78; β-
m:0.22
4
7.000E+05
2.162E+06
ENSDF
1431 48-Cd-120 0.0+ 50.8 s 0.41
β-:100.00
1
7.080E+05
ENSDF
1432 48-Cd-121 1.5+ 13.5 s 2.22
β-:33.68; β-
m:66.32
4
1.240E+06
1.725E+06
ENSDF
1495 49-In-120 1.0+ 3.08 s 2.60
β-:100.00
2
2.210E+06
2.566E+05
ENSDF
1496 49-In-120M ? 46.2 s 1.73
β-:100.00
2
1.310E+06
2.838E+06
ENSDF
1498 49-In-121 4.5+ 23.1 s 2.60
β-:88.67; β-
m:11.33
4
9.847E+05
9.229E+05
ENSDF
1499 49-In-121M 0.5- 3.136E+05 3.88 m 100
IT:1.20; β-:98.80
4
1.516E+06
6.402E+04
ENSDF
1509 49-In-126 3.0+ 1.6 s 6.25
β-:100.00
2
2.399E+06
2.764E+06
ENSDF
1554 50-Sn-121 1.5+ 1.127 d 0.15
β-:100.00
1
1.152E+05
ENSDF
1565 50-Sn-128 0.0+ 59.1 m 0.85
β-:100.00; β-
m:~
4
2.503E+05
6.034E+05
ENSDF
1567 50-Sn-129 1.5+ 2.23 m 1.79
β-:100.00
0
1.345E+06
1.345E+06
NUBASE
1568 50-Sn-129M 5.5- 3.520E+04 6.9 m 1.45
β-:50.00;
β-m:50.00;
IT:~
0
1.048E+06
1.048E+06
NUBASE
1569 50-Sn-130 0.0+ 3.72 m 1.08
β-:100.00
4
4.667E+05
9.273E+05
ENSDF
1570 50-Sn-130M 7.0- 1.947E+06 1.7 m 5.88
β-:50.00; β-
m:50.00
0
1.366E+06
1.366E+06
NUBASE
48 THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009
MAIN DATA TABLES
b) O
rigin
al d
ata
from
JE
FF-3
.1 fo
r tho
se n
ucle
i upd
ated
in J
EFF
-3.1
.1 (n
ew e
valu
atio
ns o
r bet
ter t
reat
men
t of o
rigin
al s
ourc
e da
ta) (
cont
.)
Matn
Nuclide
SpPa
Exc ener
Half-life (%-err)
Decay modes (%)
Nsp
<β> (eV)
<γ> (eV)
<α>
(eV)
Source
1613 51-Sb-128 8.0- 9.01 h 0.33
β-:100.00
4
4.864E+05
3.048E+06
ENSDF
1754 54-Xe-134M 7.0- 1.966E+06 0.29 s 5.86
IT:100.00
0
1.966E+06
NUBASE
1788 55-Cs-123 0.5+ 5.94 m 0.67
β+:100.00
4
9.986E+05
9.988E+05
ENSDF
1789 55-Cs-123M 5.5- 1.563E+05 1.64 s 7.32
IT:100.00
3
1.119E+05
4.684E+04
ENSDF
1805 55-Cs-135 3.5+ 2.3E+06 y 13.04
β-:100.00
1
8.940E+04
ENSDF
1811 55-Cs-138M 6.0- 7.990E+04 2.91 m 2.75
IT:81.00; β-:19.00
0
3.455E+05
4.102E+05
NUBASE
1815 55-Cs-142 0.0- 1.7 s 1.18
β-:100.00
4
2.899E+06
6.753E+05
ENSDF
1859 56-Ba-139 3.5- 1.384 h 0.34
β-:100.00
4
8.977E+05
4.562E+04
ENSDF
1915 57-La-148 2.0- 1.428 s 0.84
β-:100.00
4
2.145E+06
1.194E+06
ENSDF
1955 58-Ce-143 1.5- 1.379 d 0.15
β-:100.00
4
4.289E+05
2.790E+05
ENSDF
1958 58-Ce-146 0.0+ 13.52 m 0.96
β-:100.00
0
3.433E+05
3.433E+05
NUBASE
1961 58-Ce-149 1.5- 5.3 s 3.77
β-:100.00
0
1.453E+06
1.453E+06
NUBASE
2003 59-Pr-145 3.5+ 5.984 h 0.17
β-:100.00
0
6.017E+05
6.017E+05
NUBASE
2104 61-Pm-155 2.5- 41.5 s 0.48
β-:100.00
4
1.265E+06
1.233E+05
ENSDF
2139 62-Sm-148 0.0+ 8E+15 y 25
α:100.00
1
1.986E+06
ENSDF
2148 62-Sm-156 0.0+ 9.4 h 2.13
β-:100.00
4
2.185E+05
1.149E+05
ENSDF
2192 63-Eu-156 0.0+ 15.19 d 0.53
β-:100.00
4
4.541E+05
1.230E+06
ENSDF
2238 64-Gd-163 3.5+ 1.133 m 4.41
β-:100.00
0
1.037E+06
1.037E+06
NUBASE
2260 65-Tb-146 1.0+ 8 s 50
β+:100.00
0
2.774E+06
2.774E+06
NUBASE
2261 65-Tb-146M 5.0- 1.500E+05 24.1 s 2.07
β+:100.00
0
2.824E+06
2.824E+06
NUBASE
2284 65-Tb-158 3.0- 180.004 y 6.11
β+:83.40; β-:16.60
0
3.908E+05
3.908E+05
NUBASE
2285 65-Tb-158M 0.0- 1.103E+05 10.7 s 1.59
IT:99.39; β-:0.60;
β+:0.01
0
2.135E+03
1.118E+05
NUBASE
2287 65-Tb-160 3.0- 72.3 d 0.28
β-:100.00
4
2.572E+05
1.126E+06
ENSDF
2334 66-Dy-166 0.0+ 3.4 d 0.12
β-:100.00
0
1.623E+05
1.623E+05
NUBASE
2430 68-Er-167M 0.5- 2.078E+05 2.269 s 0.26
IT:100.00
0
2.078E+05
NUBASE
2458 69-Tm-155 5.5- 21.6 s 0.93
β+:98.10; α:1.90
0
1.825E+06
1.825E+06
8.687E+04
NUBASE
2459 69-Tm-155M 0.5+ 4.100E+04 45 s 6.67
β+:92.00; α m:8.00
0
1.724E+06
1.724E+06
3.658E+05
NUBASE
2476 69-Tm-167 0.5+ 9.25 d 0.22
β+:1.70; β+
m:98.30
0
2.721E+04
5.441E+04
NUBASE
2477 69-Tm-168 3.0+ 93.1 d 0.21
β+:99.99; β-:0.01
0
5.596E+05
5.596E+05
NUBASE
2480 69-Tm-171 0.5+ 1.92 y 0.52
β-:100.00
4
2.541E+04
6.220E+02
ENSDF
2481 69-Tm-172 2.0- 2.65 d 0.47
β-:100.00
4
5.279E+05
4.743E+05
ENSDF
2536 71-Lu-155 5.5- 0.069 s 2.33
α:88.00; β+:12.00
0
3.180E+05
3.180E+05
5.107E+06
NUBASE
2624 72-Hf-179M 0.5- 3.750E+05 18.67 s 0.21
IT:100.00
0
3.750E+05
NUBASE
2625 72-Hf-179N 12.5- 1.106E+06 25.05 d 1
IT:100.00
0
1.106E+06
NUBASE
2726 74-W -188 0.0+ 69.78 d 0.07
β-:100.00
4
9.961E+04
1.890E+03
ENSDF
2765 75-Re-183 2.5+ 70 d 2
β+:50.00; β+
m:50.00
0
2.006E+04
4.013E+04
NUBASE
2766 75-Re-183M 12.5+ 1.908E+06 1.04E-03 s 4.81
IT:100.00
0
1.908E+06
NUBASE
2767 75-Re-184 3.0- 38 d 1.32
β+:100.00
0
4.934E+05
4.934E+05
NUBASE
2768 75-Re-184M 8.0+ 1.880E+05 169 d 4.73
IT:75.40; β+:24.60
0
2.052E+04
1.828E+05
NUBASE
2770 75-Re-186 1.0- 3.775 d 0.19
β+:6.90; β-:93.10
5
3.373E+05
2.030E+04
LNHB
2771 75-Re-186M 8.0+ 1.490E+05 2E+05 y 25
IT:90.00; β-:10.00
0
4.061E+04
1.747E+05
NUBASE
THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009 49
MAIN DATA TABLES
b) O
rigin
al d
ata
from
JE
FF-3
.1 fo
r tho
se n
ucle
i upd
ated
in J
EFF
-3.1
.1 (n
ew e
valu
atio
ns o
r bet
ter t
reat
men
t of o
rigin
al s
ourc
e da
ta) (
cont
.)
Matn
Nuclide
SpPa
Exc ener
Half-life (%-err)
Decay modes (%)
Nsp
<β> (eV)
<γ> (eV)
<α>
(eV)
Source
2815 76-Os-191 4.5- 15.4 d 0.65
β-:52.80; β-
m:47.20
0
7.729E+04
7.729E+04
NUBASE
2816 76-Os-191M 1.5- 7.438E+04 13.1 h 0.76
IT:100.00
3
6.649E+04
7.855E+03
UKPADD64
2820 76-Os-194 0.0+ 6 y 3.33
β-:100.00
0
3.220E+04
3.220E+04
NUBASE
2868 77-Ir-191M 5.5- 1.712E+05 4.9 s 0.41
IT:100.00
3
9.709E+04
7.547E+04
UKPADD64
2874 77-Ir-193M 5.5- 8.024E+04 10.53 d 0.38
IT:100.00
0
8.024E+04
NUBASE
2876 77-Ir-194M 4.0+ 1.471E+05 0.032 s 0.75
IT:100.00
0
1.471E+05
NUBASE
2920 78-Pt-195M 6.5+ 2.593E+05 4.02 d 0.25
IT:100.00
0
2.593E+05
NUBASE
2940 79-Au-175 0.5+ 70 d 2.86
α:100.00
1
6.562E+06
ENSDF
2973 79-Au-195 1.5+ 186.1 d 0.03
β+:100.00
0
1.134E+04
2.268E+04
NUBASE
2974 79-Au-195M 5.5- 3.186E+05 30.5 s 0.66
IT:100.00
0
3.186E+05
NUBASE
3019 80-Hg-194 0.0+ 440.008 y 18.18
β+:100.00
0
3.450E+03
6.900E+03
NUBASE
3168 83-Bi-189M 0.5+ 1.850E+05 6.6E-03 s 9.09
α:50.00; β+:50.00
0
1.334E+06
1.334E+06
3.730E+06
NUBASE
3546 92-U -238 0.0+ 4.468E+09 y 0.07
α:99.99; SF:0.01
6
1.021E+04
1.492E+03
4.268E+06
UKHEDD24
3663 98-Cf-240 0.0+ 1.06 m 14.15
α:98.00; SF:2.00
0
7.561E+06
NUBASE
50 THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009
MAIN DATA TABLES
Tabl
e E:
Mai
n pa
ram
eter
s of
the
JEFF
-3.1
.1 R
adio
activ
e D
ecay
Dat
a Su
b-lib
rary
Mat
n:
Mat
eria
l nu
mbe
r –
allo
cate
d b
y in
crem
enti
ng
from
1 f
or
each
nu
clid
e to
385
2.
Nu
clid
e:
Co
nsi
sts
of
the
nu
clid
e id
enti
fier
in
th
e fo
llo
win
g fo
rmat
; Z
ZZ
-Sy-
AA
AX
, w
her
e Z
ZZ
is
the
atom
ic n
um
ber,
Sy
is t
he
chem
ical
sy
mbo
l (l
ow
erca
se s
eco
nd
let
ter)
, A
AA
is
the
mas
s n
um
ber
and
X d
eno
tes
if g
rou
nd
(bl
ank)
, fi
rst
met
asta
ble
(M),
sec
on
d
met
asta
ble
(N) o
r th
ird
met
asta
ble
(O).
SpPa
: D
eno
tes
the
spin
an
d p
arit
y. A
“?”
sh
ow
s th
is is
un
know
n, d
eno
ted
as
-77.
777
in t
he
actu
al E
ND
F fo
rmat
.
Exc
ener
: G
ives
th
e ex
cita
tion
en
ergy
(in
eV
) for
a m
etas
tabl
e st
ate
(lef
t bl
ank
for
grou
nd
sta
tes)
.
Hal
f-li
fe:
Th
e h
alf-
life
of
the
iso
top
e is
pre
sen
ted
in
eit
her
sec
ond
s (s
), m
inu
tes
(m),
hou
rs (
h)
or
year
s (y
) al
on
g w
ith
its
per
cen
tage
err
or
(all
hal
f-li
ves
are
sto
red
in
sec
on
ds
in t
he
ori
gin
al l
ibra
ry).
Th
ose
mar
ked
100
% m
ean
s th
at n
o er
ror
was
giv
en i
n t
he
ori
gin
al f
ile,
i.e
. was
giv
en a
s ze
ro, a
nd
th
ose
mar
ked
“~
” m
ean
s th
at t
he
per
cen
tage
err
or
is l
ess
than
0.0
1%. T
he
nu
mbe
r o
f se
con
ds
in a
yea
r is
th
at u
sed
in
NU
BA
SE-2
003,
i.e.
1 y
ear
= 36
5.24
22 d
ays
= 3
1 55
6 92
6 se
con
ds.
A m
axim
um
of
thre
e d
ecim
al p
lace
s ar
e u
sed
(w
ith
tr
aili
ng
zero
es r
emo
ved
).
Dec
ay m
od
es:
Th
e d
ecay
mo
des
are
giv
en f
ollo
wed
by
thei
r br
anch
ing
rati
o (
give
n i
n %
), a
“~”
den
ote
s th
e br
anch
ing
rati
o i
s le
ss t
han
0.0
1%.
Each
in
div
idu
al m
ode
is s
epar
ated
by
a “;
” an
d a
n “
m”
or a
n “
n”
subs
crip
t d
enot
es t
he
dau
ghte
r is
in
its
fir
st o
r se
con
d m
etas
tabl
e st
ate
resp
ecti
vely
. Co
mp
ou
nd
mo
des
are
sep
arat
ed b
y a
com
ma
e.g.
β-,
n in
dic
ates
a β
- d
ecay
fo
llo
wed
by
a n
eutr
on
dec
ay.
Nsp
: Sh
ows
the
nu
mbe
r of
sp
ectr
a gi
ven
in t
he
file
.
<β>
(eV
): Sh
ow
s th
e av
erag
e li
ght
par
ticl
e en
ergy
(in
eV
) re
leas
ed i
n t
he
dec
ay, i
.e. <
β> =
<β-
> +
<β+
> +
<e-
> +
…
<γ>
(eV
): Sh
ows
the
aver
age
elec
trom
agn
etic
rad
iati
on
en
ergy
(in
eV
) rel
ease
d in
th
e d
ecay
, i.e
. <γ>
= <
γ> +
<X
-ray
s> +
<an
n. r
ad.>
+ …
<α>
(eV
):
Sho
ws
the
aver
age
hea
vy p
arti
cle
ener
gy (i
n e
V)
rele
ased
in
th
e d
ecay
, i.e
. <α>
= <
α> +
<SF
> +
<p
> +
<n
> +
…
Fo
r th
e th
ree
aver
age
ener
gies
abo
ve, a
val
ue
of z
ero
is r
epla
ced
by
blan
ks f
or b
ette
r re
adab
ilit
y.
Sou
rce:
G
ives
th
e n
ame
of
the
ori
gin
al l
ibra
ry w
her
e th
e d
ata
wer
e ta
ken
fro
m.
Sta
ble
nu
clei
are
in
clu
ded
in
th
e li
brar
y fo
r th
e fi
rst
tim
e an
d a
re i
ncl
ud
ed i
n t
he
tabl
e w
ith
in
form
atio
n g
iven
fo
r th
e m
ater
ial
nu
mbe
r,
nu
clid
e id
enti
fier
, sp
in/p
arit
y an
d s
ou
rce
libr
ary.
THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009 51
MAIN DATA TABLES
Matn Nuclide
SpPa
Exc ener
Half-life (%-err)
Decay modes (%)
Nsp
<β> (eV)
<γ> (eV)
<α>
(eV)
Source
0001 0-nn- 1 0.5+ 10.243 m 0.21
β-:100.00
1
3.014E+05 ENSDF
0002 1-H - 1 0.5+
NUBASE
0003 1-H - 2 1.0+
NUBASE
0004 1-H - 3 0.5+ 12.33 y 0.16
β-:100.00
1
5.707E+03 UKPADD67
0005 1-H - 4 2.0- 1.39E-22 s 7.19
n:100.00
0
2.879E+06 NUBASE
0006 1-H - 5 0.5+ 9.1E-22 s 100
2n:100.00
0
1.798E+06 NUBASE
0007 1-H - 6 2.0- 2.9E-22 s 24.14
n:50.00; 3n:50.00
0
1.798E+06 NUBASE
0008 1-H - 7 0.5+ 2.3E-23 s 2.61
2n:100.00
0
1.074E+05 NUBASE
0009 2-He- 3 0.5+
NUBASE
0010 2-He- 4 0.0+
NUBASE
0011 2-He- 5 1.5- 7E-22 s 4.29
n:100.00
0
8.938E+05 NUBASE
0012 2-He- 6 0.0+ 0.808 s 0.25
β-:100.00
1
1.561E+06 5.644E+03 UKPADD67
0013 2-He- 7 1.5- 2.9E-21 s 17.24
n:100.00
0
4.346E+05 NUBASE
0014 2-He- 8 0.0+ 0.122 s 1.64
β-:88.00; β-,n:12.00
3
4.449E+06 8.850E+05 1.414E+05 UKPADD67
0015 2-He- 9 0.5- 7E-21 s 57.14
n:100.00
0
1.270E+06 NUBASE
0016 2-He- 10 0.0+ 2.7E-21 s 66.67
2n:100.00
0
1.069E+06 NUBASE
0017 3-Li- 4 2.0- 9.1E-23 s 9.89
p:100.00
0
3.100E+06 NUBASE
0018 3-Li- 5 1.5- 3.7E-22 s 8.11
p:100.00
0
1.966E+06 NUBASE
0019 3-Li- 6 1.0+
NUBASE
0020 3-Li- 7 1.5-
NUBASE
0021 3-Li- 8 2.0+ 0.838 s 0.72
β-,α:100.00
2
6.205E+06 3.298E+04 3.125E+06 UKPADD67
0022 3-Li- 9 1.5- 0.178 s 0.22
β-:50.50; β-,n:49.50
1
5.696E+06 2.990E+04 UKPADD67
0023 3-Li- 10 ? 2E-21 s 25
n:100.00
0
2.540E+04 NUBASE
0024 3-Li- 11 1.5- 8.75E-03 s 1.60
β-:9.10; β-,n:84.90;
β-,2n:4.10; β-,3n:1.90
0
5.088E+06 5.088E+06 4.462E+06 NUBASE
0025 3-Li- 12 ? 1E-08 s 100
n:100.00
0
1.232E+06 NUBASE
0026 4-Be- 5 0.5+ 1E-09 s 100
p:100.00
0
5.391E+06 NUBASE
0027 4-Be- 6 0.0+ 5E-21 s 6
2p:100.00
0
1.372E+06 NUBASE
0028 4-Be- 7 1.5- 53.22 d 0.11
β+:100.00
3
2.724E+01 4.986E+04 LNHB
0029 4-Be- 8 0.0+ 7E-17 s 28.57
α:100.00
1
9.190E+04 UKPADD67
0030 4-Be- 9 1.5-
NUBASE
0031 4-Be- 10 0.0+ 1.6E+06 y 12.50
β-:100.00
1
2.522E+05 UKPADD67
0032 4-Be- 11 0.5+ 13.81 s 0.58
β-:97.00; β-,α:3.00
3
4.647E+06 1.419E+06 3.627E+04 UKPADD67
0033 4-Be- 12 0.0+ 0.021 s 0.47
β-:100.00
1
5.615E+06 1.224E+04 ENSDF
0034 4-Be- 13 0.5+ 5E-10 s 20
n:100.00
0
1.017E+05 NUBASE
0035 4-Be- 14 0.0+ 4.35E-03 s 3.91
β-:~; β-,n:98.00;
β-,2n:1.80; β-,3n:0.20
0
3.803E+06 3.803E+06 3.803E+06 NUBASE
0036 4-Be- 15 ? 2E-07 s 100
n:100.00
0
1.779E+06 NUBASE
0037 4-Be- 16 0.0+ 2E-07 s 100
2n:100.00
0
1.587E+06 NUBASE
0038 5-B - 6 2.0- 1E-09 s 100
2p:100.00
0
3.702E+06 NUBASE
0039 5-B - 7 1.5- 3.5E-22 s 14.29
p:100.00
0
2.206E+06 NUBASE
0040 5-B - 8 2.0+ 0.77 s 0.39
β+,n:100.00
0
4.518E+06 4.518E+06 4.518E+06 NUBASE
0041 5-B - 9 1.5- 8E-19 s 37.50
p:100.00
0
1.850E+05 NUBASE
52 THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009
MAIN DATA TABLES
Matn Nuclide
SpPa
Exc ener
Half-life (%-err)
Decay modes (%)
Nsp
<β> (eV)
<γ> (eV)
<α>
(eV)
Source
0042 5-B - 10 3.0+
NUBASE
0043 5-B - 11 1.5-
NUBASE
0044 5-B - 12 1.0+ 0.02 s 0.10
β-:98.42; β-,α:1.58
3
6.308E+06 9.056E+04 6.642E+03 UKPADD67
0045 5-B - 13 1.5- 0.017 s 0.98
β-:99.72; β-,n:0.28
3
6.278E+06 3.135E+05 9.757E+03 UKPADD67
0046 5-B - 14 2.0- 0.013 s 4
β-:100.00
2
7.085E+06 5.936E+06 2.318E+04 ENSDF
0047 5-B - 15 1.5- 9.87E-03 s 0.71
β-:6.00; β-,n:93.60;
β-,2n:0.40
0
4.576E+06 4.576E+06 4.194E+06 NUBASE
0048 5-B - 16 0.0- 1.9E-10 s 100
n:100.00
0
3.670E+04 NUBASE
0049 5-B - 17 1.5- 5.08E-03 s 0.98
β-:22.50; β-,n:63.00;
β-,2n:11.00; β-,3n:3.50 0
5.804E+06 5.804E+06 4.099E+06 NUBASE
0050 5-B - 18 4.0- 2.6E-08 s 100
n:100.00
0
4.787E+05 NUBASE
0051 5-B - 19 1.5- 2.92E-03 s 4.45
β-,n:75.00; β-,2n:25.00 0
6.328E+06 6.328E+06 6.328E+06 NUBASE
0052 6-C - 8 0.0+ 2E-21 s 20
2p:100.00
0
2.141E+06 NUBASE
0053 6-C - 9 1.5- 0.127 s 0.71
β+:60.00; β+,p:23.00;
β+,n:17.00
0
4.887E+06 4.887E+06 1.588E+06 NUBASE
0054 6-C - 10 0.0+ 19.255 s 0.28
β+:100.00
4
8.086E+05 1.744E+06 ENSDF
0055 6-C - 11 1.5- 20.37 m 0.14
β+:100.00
3
3.846E+05 1.019E+06 LNHB
0056 6-C - 12 0.0+
NUBASE
0057 6-C - 13 0.5-
NUBASE
0058 6-C - 14 0.0+ 5699.985 y 0.53
β-:100.00
1
4.948E+04 LNHB
0059 6-C - 15 0.5+ 2.449 s 0.20
β-:100.00
2
2.856E+06 3.622E+06 UKPADD67
0060 6-C - 16 0.0+ 0.747 s 1.07
β-:2.10; β-,n:97.90
0
1.407E+06 1.407E+06 1.351E+06 NUBASE
0061 6-C - 17 1.5+ 0.193 s 2.59
β-:71.60; β-,n:28.40
0
3.660E+06 3.660E+06 5.172E+05 NUBASE
0062 6-C - 18 0.0+ 0.092 s 2.17
β-:68.50; β-,n:31.50
0
3.406E+06 3.406E+06 7.078E+05 NUBASE
0063 6-C - 19 0.5+ 0.046 s 4.98
β-:46.00; β-,n:47.00;
β-,2n:7.00
0
4.006E+06 4.006E+06 1.467E+06 NUBASE
0064 6-C - 20 0.0+ 0.016 s 18.75
β-:28.00; β-,n:72.00
0
3.927E+06 3.927E+06 2.453E+06 NUBASE
0065 6-C - 21 0.5+ 3E-08 s 100
n:100.00
0
3.287E+05 NUBASE
0066 6-C - 22 0.0+ 6.2E-03 s 20.97
β-:1.00; β-,n:99.00
0
5.011E+06 5.011E+06 4.940E+06 NUBASE
0067 7-N - 10 2.0- 2E-22 s 70
p:100.00
0
2.600E+06 NUBASE
0068 7-N - 11 0.5+ 5.9E-22 s 35.59
p:100.00
0
1.312E+06 NUBASE
0069 7-N - 12 1.0+ 0.011 s 0.15
β+:100.00
4
7.729E+06 1.191E+06 2.466E+04 ENSDF
0070 7-N - 13 0.5- 9.967 m 0.04
β+:100.00
3
4.908E+05 1.020E+06 LNHB
0071 7-N - 14 1.0+
NUBASE
0072 7-N - 15 0.5-
NUBASE
0073 7-N - 16 2.0- 7.13 s 0.28
β-:100.00; β-,α:~
3
2.679E+06 4.622E+06 2.970E+01 UKPADD67
0074 7-N - 17 0.5- 4.17 s 0.10
β-:5.00; β-,n:95.00;
β-,α:~
4
1.698E+06 4.451E+04 9.011E+05 UKPADD67
0075 7-N - 18 1.0- 0.622 s 1.45
β-:76.90; β-,n:10.90;
β-,α:12.20
0
3.955E+06 3.955E+06 3.934E+05 NUBASE
0076 7-N - 19 0.5- 0.271 s 2.95
β-:45.40; β-,n:54.60
0
3.066E+06 3.066E+06 1.170E+06 NUBASE
0077 7-N - 20 ? 0.13 s 5.38
β-:43.00; β-,n:57.00
0
4.053E+06 4.053E+06 1.477E+06 NUBASE
0078 7-N - 21 0.5- 0.087 s 6.90
β-:19.00; β-,n:81.00
0
3.798E+06 3.798E+06 2.710E+06 NUBASE
THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009 53
MAIN DATA TABLES
Matn Nuclide
SpPa
Exc ener
Half-life (%-err)
Decay modes (%)
Nsp
<β> (eV)
<γ> (eV)
<α>
(eV)
Source
0079 7-N - 22 ? 0.014 s 10.07
β-:65.00; β-,n:35.00
0
6.323E+06 6.323E+06 1.392E+06 NUBASE
0080 7-N - 23 0.5- 0.015 s 9.66
β-:20.00; β-,n:80.00
0
5.796E+06 5.796E+06 4.210E+06 NUBASE
0081 7-N - 24 ? 5.2E-08 s 100
n:100.00
0
1.069E+06 NUBASE
0082 7-N - 25 0.5- 2.6E-07 s 100
n:50.00; 2n:50.00
0
1.423E+06 NUBASE
0083 8-O - 12 0.0+ 5.8E-22 s 5.17
2p:60.00; β+:40.00
0
1.961E+06 1.961E+06 1.063E+06 NUBASE
0084 8-O - 13 1.5- 8.58E-03 s 0.58
β+:89.10; β+,p:10.90
0
5.708E+06 5.708E+06 4.312E+05 NUBASE
0085 8-O - 14 0.0+ 1.177 m 0.03
β+:100.00
4
7.762E+05 3.320E+06 ENSDF
0086 8-O - 15 0.5- 2.041 m 0.29
β+:100.00
3
7.357E+05 1.021E+06 LNHB
0087 8-O - 16 0.0+
NUBASE
0088 8-O - 17 2.5+
NUBASE
0089 8-O - 18 0.0+
NUBASE
0090 8-O - 19 2.5+ 26.91 s 0.30
β-:100.00
2
1.710E+06 1.005E+06 UKPADD67
0091 8-O - 20 0.0+ 13.51 s 0.37
β-:100.00
2
1.197E+06 1.057E+06 ENSDF
0092 8-O - 21 2.5+ 3.42 s 2.92
β-:100.00
2
2.447E+06 2.946E+06 2.178E+03 ENSDF
0093 8-O - 22 0.0+ 2.25 s 6.67
β-:78.00; β-,n:22.00
0
1.756E+06 1.756E+06 6.910E+04 NUBASE
0094 8-O - 23 0.5+ 0.09 s 44.44
β-:69.00; β-,n:31.00
0
2.885E+06 2.885E+06 2.903E+05 NUBASE
0095 8-O - 24 0.0+ 0.065 s 7.69
β-:82.00; β-,n:18.00
0
3.491E+06 3.491E+06 3.451E+05 NUBASE
0096 8-O - 25 1.5+ 5E-08 s 100
n:100.00
0
2.987E+05 NUBASE
0097 8-O - 26 0.0+ 4E-08 s 100
2n:70.00; n:30.00
0
4.078E+05 NUBASE
0098 8-O - 27 1.5+ 2.6E-07 s 100
n:50.00; 2n:50.00
0
1.268E+06 NUBASE
0099 8-O - 28 0.0+ 1E-07 s 100
n:50.00; 2n:50.00
0
1.413E+06 NUBASE
0100 9-F - 14 2.0- 1E-09 s 100
p:100.00
0
2.259E+06 NUBASE
0101 9-F - 15 0.5+ 4.1E-22 s 14.63
p:100.00
0
1.484E+06 NUBASE
0102 9-F - 16 0.0- 1.1E-20 s 54.55
p:100.00
0
5.354E+05 NUBASE
0103 9-F - 17 2.5+ 1.075 m 0.25
β+:100.00
3
7.386E+05 1.021E+06 ENSDF
0104 9-F - 18 1.0+ 1.829 h 0.02
β+:100.00
3
2.420E+05 9.899E+05 LNHB
0105 9-F - 19 0.5+
NUBASE
0106 9-F - 20 2.0+ 11.03 s 0.27
β-:100.00
2
2.467E+06 1.645E+06 UKPADD67
0107 9-F - 21 2.5+ 4.158 s 0.48
β-:100.00
4
2.342E+06 5.569E+05 UKPADD67
0108 9-F - 22 ? 4.23 s 0.95
β-:100.00
2
2.326E+06 5.749E+06 2.661E+03 ENSDF
0109 9-F - 23 ? 2.23 s 6.28
β-:86.00; β-,n:14.00
0
2.547E+06 2.547E+06 1.149E+05 NUBASE
0110 9-F - 24 ? 0.4 s 12.50
β-:100.00
2
6.101E+06 1.982E+06 7.684E+03 ENSDF
0111 9-F - 25 2.5+ 0.05 s 12
β-:86.00; β-,n:14.00
0
4.155E+06 4.155E+06 3.203E+05 NUBASE
0112 9-F - 26 1.0+ 0.01 s 13.73
β-:89.00; β-,n:11.00
0
5.631E+06 5.631E+06 3.384E+05 NUBASE
0113 9-F - 27 2.5+ 4.9E-03 s 4.08
β-:23.00; β-,n:77.00
0
4.532E+06 4.532E+06 3.163E+06 NUBASE
0114 9-F - 28 ? 4E-08 s 100
n:100.00
0
2.287E+05 NUBASE
0115 9-F - 29 2.5+ 2.6E-03 s 11.54
β-:40.00; β-,n:60.00
0
6.114E+06 6.114E+06 3.148E+06 NUBASE
0116 9-F - 30 ? 2.6E-07 s 100
n:100.00
0
5.287E+05 NUBASE
0117 9-F - 31 2.5+ 1E-03 s 100
β-:100.00
0
8.483E+06 8.483E+06 NUBASE
0118 10-Ne- 16 0.0+ 9E-21 s 100
2p:100.00
0
1.411E+06 NUBASE
0119 10-Ne- 17 0.5- 0.109 s 0.55
β+:1.30; β+,p:96.00;
β+,n:2.70
0
3.460E+06 3.460E+06 3.397E+06 NUBASE
0120 10-Ne- 18 0.0+ 1.672 s 0.48
β+:100.00
4
1.499E+06 1.105E+06 ENSDF
54 THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009
MAIN DATA TABLES
Matn Nuclide
SpPa
Exc ener
Half-life (%-err)
Decay modes (%)
Nsp
<β> (eV)
<γ> (eV)
<α>
(eV)
Source
0121 10-Ne- 19 0.5+ 17.22 s 0.12
β+:100.00
3
9.621E+05 1.021E+06 ENSDF
0122 10-Ne- 20 0.0+
NUBASE
0123 10-Ne- 21 1.5+
NUBASE
0124 10-Ne- 22 0.0+
NUBASE
0125 10-Ne- 23 2.5+ 37.2 s 0.54
β-:100.00
2
1.890E+06 1.728E+05 UKPADD67
0126 10-Ne- 24 0.0+ 3.38 m 0.59
β-m:100.00
0
6.648E+05 6.648E+05 NUBASE
0127 10-Ne- 25 1.5+ 0.602 s 1.33
β-:100.00
0
2.417E+06 2.417E+06 NUBASE
0128 10-Ne- 26 0.0+ 0.197 s 0.51
β-:100.00
2
2.179E+03 ENSDF
0129 10-Ne- 27 1.5+ 0.032 s 6.25
β-:98.00; β-,n:2.00
0
4.141E+06 4.141E+06 2.930E+04 NUBASE
0130 10-Ne- 28 0.0+ 0.018 s 12.02
β-:84.00; β-,n:16.00
0
3.772E+06 3.772E+06 3.474E+05 NUBASE
0131 10-Ne- 29 1.5+ 0.016 s 3.21
β-:78.80; β-,n:19.00;
β-,2n:2.20
0
4.606E+06 4.606E+06 5.623E+05 NUBASE
0132 10-Ne- 30 0.0+ 5.8E-03 s 3.45
β-:87.00; β-,n:13.00
0
4.676E+06 4.676E+06 4.018E+05 NUBASE
0133 10-Ne- 31 3.5- 3.4E-03 s 23.53
β-:100.00
0
6.063E+06 6.063E+06 NUBASE
0134 10-Ne- 32 0.0+ 3.5E-03 s 25.71
β-:100.00
0
6.073E+06 6.073E+06 NUBASE
0135 10-Ne- 33 3.5- 2.6E-07 s 100
n:100.00
0
6.487E+05 NUBASE
0136 10-Ne- 34 0.0+ 1E-03 s 100
β-:100.00
0
6.787E+06 6.787E+06 NUBASE
0137 11-Na- 18 1.0- 1.3E-21 s 30.77
p:50.00; β+:50.00
0
3.145E+06 3.145E+06 2.200E+05 NUBASE
0138 11-Na- 19 2.5+ 4E-08 s 100
p:100.00
0
3.208E+05 NUBASE
0139 11-Na- 20 2.0+ 0.448 s 0.51
β+:75.00; β+,n:25.00
0
4.045E+06 4.045E+06 5.725E+05 NUBASE
0140 11-Na- 21 1.5+ 22.49 s 0.18
β+:100.00
4
1.101E+06 1.037E+06 ENSDF
0141 11-Na- 22 3.0+ 2.603 y 0.04
β+:100.00
4
1.942E+05 2.192E+06 LNHB
0142 11-Na- 23 1.5+
NUBASE
0143 11-Na- 24 4.0+ 14.957 h 0.01
β-:100.00
4
5.548E+05 4.121E+06 LNHB
0144 11-Na- 24M 1.0+ 4.723E+05 0.02 s 0.99
IT:99.50; β-:0.50
2
1.384E+04 4.699E+05 LNHB
0145 11-Na- 25 2.5+ 59.6 s 1.17
β-:100.00
2
1.496E+06 4.369E+05 UKPADD67
0146 11-Na- 26 3.0+ 1.08 s 0.93
β-:100.00
2
3.329E+06 2.180E+06 UKPADD67
0147 11-Na- 27 2.5+ 0.301 s 1.99
β-:100.00
2
3.615E+06 1.166E+06 2.802E+03 ENSDF
0148 11-Na- 28 1.0+ 0.03 s 1.31
β-:100.00
2
6.129E+06 1.139E+06 6.881E+03 ENSDF
0149 11-Na- 29 1.5+ 0.045 s 2.67
β-:74.10; β-,n:25.90
0
3.904E+06 3.904E+06 6.224E+05 NUBASE
0150 11-Na- 30 2.0+ 0.048 s 3.51
β-:68.83; β-,n:30.00;
β-,2n:1.17; β-,α:~
0
4.802E+06 4.802E+06 8.393E+05 NUBASE
0151 11-Na- 31 1.5+ 0.017 s 2.35
β-:62.05; β-,n:37.00;
β-,2n:0.90; β-,3n:0.05
0
4.546E+06 4.546E+06 1.264E+06 NUBASE
0152 11-Na- 32 ? 0.013 s 5.43
β-:68.00; β-,n:24.00;
β-,2n:8.00
0
5.626E+06 5.626E+06 1.089E+06 NUBASE
0153 11-Na- 33 1.5+ 8.2E-03 s 2.44
β-:40.00; β-,n:47.00;
β-,2n:13.00
0
5.143E+06 5.143E+06 2.477E+06 NUBASE
0154 11-Na- 34 1.0+ 5.5E-03 s 18.18
β-:35.00; β-,2n:50.00;
β-,n:15.00
0
5.733E+06 5.733E+06 2.939E+06 NUBASE
0155 11-Na- 35 1.5+ 1.5E-03 s 33.33
β-:100.00
0
7.810E+06 7.810E+06 NUBASE
0156 11-Na- 36 ? 2.6E-07 s 100
n:100.00
0
2.987E+05 NUBASE
0157 11-Na- 37 1.5+ 1E-03 s 100
β-:100.00
0
8.677E+06 8.677E+06 NUBASE
THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009 55
MAIN DATA TABLES
Matn Nuclide
SpPa
Exc ener
Half-life (%-err)
Decay modes (%)
Nsp
<β> (eV)
<γ> (eV)
<α>
(eV)
Source
0158 12-Mg- 20 0.0+ 0.09 s 6.67
β+:69.60; β+,p:30.40
0
3.136E+06 3.136E+06 6.482E+05 NUBASE
0159 12-Mg- 21 2.5+ 0.122 s 2.46
β+:66.90; β+,p:32.60;
β+,n:0.50
0
3.798E+06 3.798E+06 8.773E+05 NUBASE
0160 12-Mg- 22 0.0+ 3.857 s 0.23
β+:100.00
4
1.369E+06 1.723E+06 ENSDF
0161 12-Mg- 23 1.5+ 11.317 s 0.10
β+:100.00
4
1.336E+06 1.057E+06 ENSDF
0162 12-Mg- 24 0.0+
NUBASE
0163 12-Mg- 25 2.5+
NUBASE
0164 12-Mg- 26 0.0+
NUBASE
0165 12-Mg- 27 0.5+ 9.458 m 0.13
β-:100.00
2
6.996E+05 8.950E+05 UKPADD67
0166 12-Mg- 28 0.0+ 20.9 h 0.14
β-:100.00
4
1.979E+05 1.380E+06 UKPADD67
0167 12-Mg- 29 1.5+ 1.3 s 9.23
β-:100.00
2
2.634E+06 1.858E+06 1.611E+03 ENSDF
0168 12-Mg- 30 0.0+ 0.335 s 5.07
β-:99.94; β-,n:0.06
0
2.319E+06 2.319E+06 1.849E+02 NUBASE
0169 12-Mg- 31 1.5+ 0.23 s 8.70
β-:93.80; β-,n:6.20
0
3.741E+06 3.741E+06 7.105E+04 NUBASE
0170 12-Mg- 32 0.0+ 0.095 s 16.84
β-:97.60; β-,n:2.40
0
3.323E+06 3.323E+06 3.557E+04 NUBASE
0171 12-Mg- 33 3.5- 0.09 s 1.77
β-:83.00; β-,n:17.00
0
4.049E+06 4.049E+06 3.350E+05 NUBASE
0172 12-Mg- 34 0.0+ 0.02 s 50
β-:100.00
0
3.913E+06 3.913E+06 NUBASE
0173 12-Mg- 35 3.5- 0.07 s 57.14
β-:48.00; β-,n:52.00
0
4.036E+06 4.036E+06 1.431E+06 NUBASE
0174 12-Mg- 36 0.0+ 5E-03 s 100
β-:100.00
0
5.213E+06 5.213E+06 NUBASE
0175 12-Mg- 37 3.5- 0.04 s 100
β-:100.00
0
6.433E+06 6.433E+06 NUBASE
0176 12-Mg- 38 0.0+ 1E-03 s 100
β-:100.00
0
6.317E+06 6.317E+06 NUBASE
0177 12-Mg- 39 3.5- 2.6E-07 s 100
n:100.00
0
4.987E+05 NUBASE
0178 12-Mg- 40 0.0+ 1E-03 s 100
β-:100.00
0
6.980E+06 6.980E+06 NUBASE
0179 13-Al- 21 0.5+ 3.5E-08 s 100
p:100.00
0
1.261E+06 NUBASE
0180 13-Al- 22 3.0+ 0.059 s 5.08
β+:54.79; β+,p:44.00;
β+,2p:0.90; β+,n:0.31
0
4.863E+06 4.863E+06 1.470E+06 NUBASE
0181 13-Al- 23 2.5+ 0.47 s 6.38
β+:92.00; β+,p:8.00
0
3.848E+06 3.848E+06 9.327E+04 NUBASE
0182 13-Al- 24 4.0+ 2.053 s 0.19
β+:100.00
4
2.026E+06 9.499E+06 2.741E+03 ENSDF
0183 13-Al- 24M 1.0+ 4.258E+05 0.131 s 1.90
IT:82.00; β+:17.97;
β+,n:0.03
0
8.572E+05 1.206E+06 3.490E+02 NUBASE
0184 13-Al- 25 2.5+ 7.183 s 0.17
β+:100.00
4
1.454E+06 1.034E+06 ENSDF
0185 13-Al- 26 5.0+ 7.17E+05 y 3.35
β+:100.00
4
3.989E+05 2.675E+06 LNHB
0186 13-Al- 26M 0.0+ 2.284E+05 6.345 s 0.09
β+:100.00
3
1.434E+06 1.026E+06 UKPADD67
0187 13-Al- 27 2.5+
NUBASE
0188 13-Al- 28 3.0+ 2.241 m 0.13
β-:100.00
2
1.238E+06 1.783E+06 UKPADD67
0189 13-Al- 29 2.5+ 6.56 m 0.91
β-:100.00
2
9.728E+05 1.381E+06 UKPADD67
0190 13-Al- 30 3.0+ 3.65 s 1.64
β-:100.00
2
2.290E+06 3.512E+06 UKPADD67
0191 13-Al- 31 ? 0.644 s 3.88
β-:100.00
2
3.381E+06 7.131E+05 2.005E+03 ENSDF
0192 13-Al- 32 1.0+ 0.033 s 12.12
β-:100.00
2
5.894E+06 5.461E+05 5.445E+03 ENSDF
0193 13-Al- 33 2.5+ 0.042 s 0.48
β-:91.50; β-,n:8.50
0
3.808E+06 3.808E+06 1.589E+05 NUBASE
0194 13-Al- 34 4.0- 0.056 s 0.89
β-:87.50; β-,n:12.50
0
5.263E+06 5.263E+06 2.966E+05 NUBASE
0195 13-Al- 35 2.5+ 0.039 s 1.04
β-:59.00; β-,n:41.00
0
4.004E+06 4.004E+06 1.205E+06 NUBASE
0196 13-Al- 36 ? 0.09 s 44.44
β-:70.00; β-,n:30.00
0
5.166E+06 5.166E+06 9.052E+05 NUBASE
0197 13-Al- 37 1.5+ 0.02 s 100
β-:100.00
0
5.510E+06 5.510E+06 NUBASE
56 THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009
MAIN DATA TABLES
Matn Nuclide
SpPa
Exc ener
Half-life (%-err)
Decay modes (%)
Nsp
<β> (eV)
<γ> (eV)
<α>
(eV)
Source
0198 13-Al- 38 ? 0.04 s 100
β-:100.00
0
6.707E+06 6.707E+06 NUBASE
0199 13-Al- 39 1.5+ 0.01 s 100
β-:100.00
0
6.490E+06 6.490E+06 NUBASE
0200 13-Al- 40 ? 0.01 s 100
β-:100.00
0
7.943E+06 7.943E+06 NUBASE
0201 13-Al- 41 1.5+ 2E-03 s 100
β-:100.00
0
7.380E+06 7.380E+06 NUBASE
0202 13-Al- 42 ? 1E-03 s 100
β-:100.00
0
8.417E+06 8.417E+06 NUBASE
0203 14-Si- 22 0.0+ 0.029 s 6.90
β+:68.00; β+,p:32.00
0
4.286E+06 4.286E+06 1.117E+06 NUBASE
0204 14-Si- 23 1.5+ 4.23E-08 s 0.95
β+:8.40; β+,p:88.00;
β+,2p:3.60
0
4.292E+06 4.292E+06 3.816E+06 NUBASE
0205 14-Si- 24 0.0+ 0.14 s 5.71
β+m:62.40; β+,p:37.60
0
3.001E+06 3.001E+06 8.403E+05 NUBASE
0206 14-Si- 25 2.5+ 0.22 s 1.36
β+:63.19; β+,p:36.81
0
3.647E+06 3.647E+06 9.634E+05 NUBASE
0207 14-Si- 26 0.0+ 2.234 s 0.58
β+:0.04; β+
m:99.96
4
1.620E+06 1.255E+06 ENSDF
0208 14-Si- 27 2.5+ 4.16 s 0.48
β+:100.00
0
1.604E+06 1.604E+06 NUBASE
0209 14-Si- 28 0.0+
NUBASE
0210 14-Si- 29 0.5+
NUBASE
0211 14-Si- 30 0.0+
NUBASE
0212 14-Si- 31 1.5+ 2.62 h 0.38
β-:100.00
2
5.937E+05 2.172E+03 UKPADD67
0213 14-Si- 32 0.0+ 132.003 y 9.85
β-:100.00
1
6.468E+04 UKPADD67
0214 14-Si- 33 1.5+ 6.18 s 2.91
β-:100.00
0
1.948E+06 1.948E+06 NUBASE
0215 14-Si- 34 0.0+ 2.77 s 7.22
β-:100.00
0
1.534E+06 1.534E+06 NUBASE
0216 14-Si- 35 3.5- 0.78 s 15.38
β-:100.00
2
2.670E+06 4.472E+06 1.912E+03 ENSDF
0217 14-Si- 36 0.0+ 0.45 s 13.33
β-:100.00
2
3.068E+06 1.671E+06 1.462E+03 ENSDF
0218 14-Si- 37 3.5- 0.09 s 66.67
β-:83.00; β-,n:17.00
0
3.671E+06 3.671E+06 2.380E+05 NUBASE
0219 14-Si- 38 0.0+ 0.09 s 100
β-:100.00
0
3.563E+06 3.563E+06 NUBASE
0220 14-Si- 39 3.5- 0.09 s 100
β-:100.00
0
4.933E+06 4.933E+06 NUBASE
0221 14-Si- 40 0.0+ 0.033 s 3.03
β-:100.00
0
4.527E+06 4.527E+06 NUBASE
0222 14-Si- 41 3.5- 0.03 s 100
β-:100.00
0
6.280E+06 6.280E+06 NUBASE
0223 14-Si- 42 0.0+ 5E-03 s 100
β-:100.00
0
5.830E+06 5.830E+06 NUBASE
0224 14-Si- 43 1.5- 0.015 s 100
β-:100.00
0
6.977E+06 6.977E+06 NUBASE
0225 14-Si- 44 0.0+ 0.01 s 100
β-:100.00
0
6.913E+06 6.913E+06 NUBASE
0226 15-P - 24 1.0+ 1E-09 s 100
p:50.00; β+:50.00
0
3.541E+06 3.541E+06 4.705E+05 NUBASE
0227 15-P - 25 0.5+ 3E-08 s 100
p:100.00
0
8.260E+05 NUBASE
0228 15-P - 26 3.0+ 0.03 s 83.33
β+:98.10; β+,2p:1.00;
β+,p:0.90
0
5.978E+06 5.978E+06 5.416E+04 NUBASE
0229 15-P - 27 0.5+ 0.26 s 30.77
β+:99.93; β+,pm:0.07
0
3.887E+06 3.887E+06 6.958E+02 NUBASE
0230 15-P - 28 3.0+ 0.27 s 0.18
β+:100.00
3
4.587E+06 4.729E+06 5.277E+03 ENSDF
0231 15-P - 29 0.5+ 4.142 s 0.36
β+:100.00
0
1.647E+06 1.647E+06 NUBASE
0232 15-P - 30 1.0+ 2.498 m 0.16
β+:100.00
4
1.435E+06 1.022E+06 ENSDF
0233 15-P - 31 0.5+
NUBASE
0234 15-P - 32 1.0+ 14.27 d 0.28
β-:100.00
1
6.929E+05 1.710E+03 UKPADD67
0235 15-P - 33 0.5+ 25.383 d 0.16
β-:100.00
1
7.640E+04 LNHB
0236 15-P - 34 1.0+ 12.4 s 0.81
β-:100.00
2
2.285E+06 3.475E+05 UKPADD67
0237 15-P - 35 0.5+ 47.3 s 1.48
β-:100.00
0
1.330E+06 1.330E+06 NUBASE
0238 15-P - 36 4.0- 5.6 s 5.36
β-:100.00
0
3.471E+06 3.471E+06 NUBASE
THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009 57
MAIN DATA TABLES
Matn Nuclide
SpPa
Exc ener
Half-life (%-err)
Decay modes (%)
Nsp
<β> (eV)
<γ> (eV)
<α>
(eV)
Source
0239 15-P - 37 0.5+ 2.31 s 5.63
β-:100.00
0
2.635E+06 2.635E+06 NUBASE
0240 15-P - 38 ? 0.64 s 21.88
β-:100.00
2
4.290E+06 2.778E+06 3.221E+03 ENSDF
0241 15-P - 39 0.5+ 0.19 s 26.32
β-:74.00; β-,n:26.00
0
2.923E+06 2.923E+06 3.848E+05 NUBASE
0242 15-P - 40 ? 0.15 s 5.33
β-:84.20; β-,n:15.80
0
4.418E+06 4.418E+06 2.757E+05 NUBASE
0243 15-P - 41 0.5+ 0.15 s 10
β-:70.00; β-,n:30.00
0
3.920E+06 3.920E+06 7.139E+05 NUBASE
0244 15-P - 42 ? 0.12 s 25
β-:50.00; β-,n:50.00
0
4.589E+06 4.589E+06 1.486E+06 NUBASE
0245 15-P - 43 0.5+ 0.033 s 9.09
β-,n:100.00
0
3.845E+06 3.845E+06 3.845E+06 NUBASE
0246 15-P - 44 ? 0.03 s 100
β-:100.00
0
7.073E+06 7.073E+06 NUBASE
0247 15-P - 45 0.5+ 8E-03 s 100
β-:100.00
0
7.050E+06 7.050E+06 NUBASE
0248 15-P - 46 ? 4E-03 s 100
β-:100.00
0
8.267E+06 8.267E+06 NUBASE
0249 16-S - 26 0.0+ 0.01 s 100
2p:100.00
0
6.370E+05 NUBASE
0250 16-S - 27 2.5+ 0.021 s 19.05
β+:98.00; β+,2p:2.00
0
6.023E+06 6.023E+06 5.939E+04 NUBASE
0251 16-S - 28 0.0+ 0.125 s 8
β+:79.30; β+,p:20.70
0
3.442E+06 3.442E+06 4.743E+05 NUBASE
0252 16-S - 29 2.5+ 0.187 s 2.14
β+:53.60; β+,p:46.40
0
3.745E+06 3.745E+06 1.281E+06 NUBASE
0253 16-S - 30 0.0+ 1.178 s 0.42
β+:100.00
4
2.084E+06 1.608E+06 ENSDF
0254 16-S - 31 0.5+ 2.572 s 0.51
β+:100.00
4
1.996E+06 1.038E+06 ENSDF
0255 16-S - 32 0.0+
NUBASE
0256 16-S - 33 1.5+
NUBASE
0257 16-S - 34 0.0+
NUBASE
0258 16-S - 35 1.5+ 87.32 d 0.18
β-:100.00
1
4.872E+04 LNHB
0259 16-S - 36 0.0+
NUBASE
0260 16-S - 37 3.5- 4.99 m 0.40
β-:100.00
2
7.932E+05 2.937E+06 UKPADD67
0261 16-S - 38 0.0+ 2.838 h 0.41
β-:100.00
2
4.890E+05 1.695E+06 ENSDF
0262 16-S - 39 ? 11.5 s 4.35
β-:100.00
2
2.256E+06 1.783E+06 ENSDF
0263 16-S - 40 0.0+ 8.8 s 25
β-:100.00
2
1.445E+06 1.471E+06 ENSDF
0264 16-S - 41 3.5- 1.99 s 2.51
β-:100.00
0
2.763E+06 2.763E+06 NUBASE
0265 16-S - 42 0.0+ 1.013E-03 s 1.48
β-:96.00; β-,n:4.00
0
2.329E+06 2.329E+06 1.559E+04 NUBASE
0266 16-S - 43 1.5- 0.26 s 5.77
β-:60.00; β-,n:40.00
0
2.927E+06 2.927E+06 4.869E+05 NUBASE
0267 16-S - 44 0.0+ 0.123 s 8.13
β-:82.00; β-,n:18.00
0
3.351E+06 3.351E+06 3.140E+05 NUBASE
0268 16-S - 45 1.5- 0.082 s 15.85
β-:46.00; β-,n:54.00
0
3.520E+06 3.520E+06 1.203E+06 NUBASE
0269 16-S - 46 0.0+ 0.03 s 100
β-:100.00
0
5.137E+06 5.137E+06 NUBASE
0270 16-S - 47 1.5- 0.02 s 100
β-:100.00
0
6.173E+06 6.173E+06 NUBASE
0271 16-S - 48 0.0+ 0.01 s 100
β-:100.00
0
5.967E+06 5.967E+06 NUBASE
0272 16-S - 49 1.5- 2E-07 s 100
n:100.00
0
7.287E+05 NUBASE
0273 17-Cl- 28 1.0+ 1E-09 s 100
p:100.00
0
1.731E+06 NUBASE
0274 17-Cl- 29 1.5+ 2E-08 s 100
p:100.00
0
1.781E+06 NUBASE
0275 17-Cl- 30 3.0+ 3E-08 s 100
p:100.00
0
3.110E+05 NUBASE
0276 17-Cl- 31 1.5+ 0.15 s 16.67
β+:99.30; β+,p:0.70
0
3.974E+06 3.974E+06 1.022E+04 NUBASE
0277 17-Cl- 32 1.0+ 0.298 s 0.34
β+:99.92; β+,n:0.05;
β+,p:0.03
0
4.226E+06 4.226E+06 1.023E+03 NUBASE
0278 17-Cl- 33 1.5+ 2.511 s 0.12
β+:100.00
4
2.082E+06 1.048E+06 ENSDF
0279 17-Cl- 34 0.0+ 1.526 s 0.20
β+:100.00
3
2.044E+06 1.029E+06 UKPADD67
0280 17-Cl- 34M 3.0+ 1.464E+05 32.1 m 0.31
β+:52.00; IT:48.00
4
4.414E+05 1.979E+06 UKPADD67
58 THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009
MAIN DATA TABLES
Matn Nuclide
SpPa
Exc ener
Half-life (%-err)
Decay modes (%)
Nsp
<β> (eV)
<γ> (eV)
<α>
(eV)
Source
0281 17-Cl- 35 1.5+
NUBASE
0282 17-Cl- 36 2.0+ 3.01E+05 y 1
β+:1.90; β-:98.10
4
2.731E+05 1.833E+01 LNHB
0283 17-Cl- 37 1.5+
NUBASE
0284 17-Cl- 38 2.0- 37.2 m 0.27
β-:100.00
2
1.523E+06 1.494E+06 UKPADD67
0285 17-Cl- 38M 5.0- 6.713E+05 0.715 s 0.42
IT:100.00
3
4.295E+02 6.713E+05 UKPADD67
0286 17-Cl- 39 1.5+ 55.6 m 0.36
β-:100.00
4
8.226E+05 1.454E+06 UKPADD67
0287 17-Cl- 40 2.0- 1.35 m 1.48
β-:100.00
2
1.519E+06 4.081E+06 ENSDF
0288 17-Cl- 41 ? 38.4 s 2.08
β-:100.00
0
1.919E+06 1.919E+06 NUBASE
0289 17-Cl- 42 ? 6.8 s 4.41
β-:100.00
0
3.171E+06 3.171E+06 NUBASE
0290 17-Cl- 43 1.5+ 3.07 s 2.28
β-:100.00
0
2.613E+06 2.613E+06 NUBASE
0291 17-Cl- 44 ? 0.56 s 19.64
β-:92.00; β-,n:8.00
0
3.890E+06 3.890E+06 7.417E+04 NUBASE
0292 17-Cl- 45 1.5+ 0.4 s 10
β-:76.00; β-,n:24.00
0
3.265E+06 3.265E+06 3.745E+05 NUBASE
0293 17-Cl- 46 ? 0.22 s 18.18
β-:40.00; β-,n:60.00
0
3.050E+06 3.050E+06 1.048E+06 NUBASE
0294 17-Cl- 47 1.5+ 0.2 s 100
β-:97.00; β-,n:3.00
0
5.060E+06 5.060E+06 8.347E+04 NUBASE
0295 17-Cl- 48 ? 0.1 s 100
β-:100.00
0
6.340E+06 6.340E+06 NUBASE
0296 17-Cl- 49 1.5+ 0.05 s 100
β-:100.00
0
6.150E+06 6.150E+06 NUBASE
0297 17-Cl- 50 ? 0.02 s 100
β-:100.00
0
7.267E+06 7.267E+06 NUBASE
0298 17-Cl- 51 1.5+ 2E-03 s 100
β-:100.00
0
7.100E+06 7.100E+06 NUBASE
0299 18-Ar- 30 0.0+ 2E-08 s 100
2p:100.00
0
1.432E+06 NUBASE
0300 18-Ar- 31 2.5+ 0.014 s 4.17
β+:28.40; β+,p:63.00;
β+,2p:7.20; β+,3p:1.40
0
4.867E+06 4.867E+06 3.129E+06 NUBASE
0301 18-Ar- 32 0.0+ 0.098 s 2.04
β+:57.00; β+,p:43.00
0
3.142E+06 3.142E+06 1.027E+06 NUBASE
0302 18-Ar- 33 0.5+ 0.173 s 1.16
β+:61.30; β+,p:38.70
0
3.278E+06 3.278E+06 9.039E+05 NUBASE
0303 18-Ar- 34 0.0+ 0.845 s 0.40
β+:100.00
4
2.289E+06 1.105E+06 ENSDF
0304 18-Ar- 35 1.5+ 1.775 s 0.23
β+:100.00
4
2.265E+06 1.050E+06 ENSDF
0305 18-Ar- 36 0.0+
NUBASE
0306 18-Ar- 37 1.5+ 35.04 d 0.09
β+:100.00
3
1.950E+03 2.229E+02 LNHB
0307 18-Ar- 38 0.0+
NUBASE
0308 18-Ar- 39 3.5- 269.006 y 3.35
β-:100.00
1
2.187E+05 UKPADD67
0309 18-Ar- 40 0.0+
NUBASE
0310 18-Ar- 41 3.5- 1.827 h 0.36
β-:100.00
4
4.636E+05 1.284E+06 UKPADD67
0311 18-Ar- 42 0.0+ 33.001 y 6.06
β-:100.00
1
2.328E+05 UKPADD67
0312 18-Ar- 43 2.5- 5.37 m 1.12
β-:100.00
2
1.378E+06 1.490E+06 ENSDF
0313 18-Ar- 44 0.0+ 11.87 m 0.42
β-:100.00
0
1.046E+06 1.046E+06 NUBASE
0314 18-Ar- 45 ? 21.48 s 0.70
β-:100.00
0
2.279E+06 2.279E+06 NUBASE
0315 18-Ar- 46 0.0+ 8.4 s 7.14
β-:100.00
0
1.899E+06 1.899E+06 NUBASE
0316 18-Ar- 47 1.5- 0.58 s 20.69
β-:99.00; β-,n:1.00
0
3.233E+06 3.233E+06 3.592E+03 NUBASE
0317 18-Ar- 48 0.0+ 0.5 s 100
β-:100.00
0
2.801E+06 2.801E+06 NUBASE
0318 18-Ar- 49 1.5- 0.17 s 29.41
β-:35.00; β-,n:65.00
0
2.379E+06 2.379E+06 9.592E+05 NUBASE
0319 18-Ar- 50 0.0+ 0.085 s 35.29
β-:65.00; β-,n:35.00
0
3.029E+06 3.029E+06 6.780E+05 NUBASE
0320 18-Ar- 51 1.5- 0.06 s 100
β-:100.00
0
4.733E+06 4.733E+06 NUBASE
0321 18-Ar- 52 0.0+ 0.01 s 100
β-:100.00
0
4.400E+06 4.400E+06 NUBASE
0322 18-Ar- 53 2.5- 3E-03 s 100
β-:100.00
0
5.533E+06 5.533E+06 NUBASE
THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009 59
MAIN DATA TABLES
Matn Nuclide
SpPa
Exc ener
Half-life (%-err)
Decay modes (%)
Nsp
<β> (eV)
<γ> (eV)
<α>
(eV)
Source
0323 19-K - 32 1.0+ 1E-09 s 100
p:100.00
0
1.841E+06 NUBASE
0324 19-K - 33 1.5+ 2.5E-08 s 100
p:100.00
0
1.671E+06 NUBASE
0325 19-K - 34 1.0+ 4E-08 s 100
p:100.00
0
6.151E+05 NUBASE
0326 19-K - 35 1.5+ 0.178 s 4.49
β+:100.00
4
3.589E+06 4.268E+06 2.766E+03 ENSDF
0327 19-K - 36 2.0+ 0.342 s 0.58
β+:100.00
4
3.470E+06 5.449E+06 2.807E+03 ENSDF
0328 19-K - 37 1.5+ 1.226 s 0.57
β+:100.00
4
2.347E+06 1.072E+06 ENSDF
0329 19-K - 38 3.0+ 7.61 m 0.53
β+:100.00
4
1.201E+06 3.190E+06 UKPADD67
0330 19-K - 38M 0.0+ 1.304E+05 0.924 s 0.22
β+:100.00
3
2.312E+06 1.031E+06 UKPADD67
0331 19-K - 39 1.5+
NUBASE
0332 19-K - 40 4.0- 1.265E+09 y 1.58
β+:10.86; β-:89.14
5
4.534E+05 1.558E+05 LNHB
0333 19-K - 41 1.5+
NUBASE
0334 19-K - 42 2.0- 12.359 h 0.02
β-:100.00
4
1.421E+06 2.760E+05 LNHB
0335 19-K - 43 1.5+ 22.2 h 0.90
β-:100.00
4
3.096E+05 9.662E+05 UKPADD67
0336 19-K - 44 2.0- 22.13 m 0.86
β-:100.00
4
1.436E+06 2.391E+06 UKPADD67
0337 19-K - 45 1.5+ 17.3 m 3.47
β-:100.00
4
9.865E+05 1.834E+06 ENSDF
0338 19-K - 46 2.0- 1.75 m 9.52
β-:100.00
2
2.321E+06 2.651E+06 ENSDF
0339 19-K - 47 0.5+ 17.5 s 1.37
β-:100.00
2
1.809E+06 2.624E+06 ENSDF
0340 19-K - 48 2.0- 6.8 s 2.94
β-:100.00
2
2.658E+06 6.450E+06 1.571E+03 ENSDF
0341 19-K - 49 1.5+ 1.26 s 3.97
β-:14.00; β-,n:86.00
0
1.764E+06 1.764E+06 1.252E+06 NUBASE
0342 19-K - 50 ? 0.472 s 0.85
β-:71.00; β-,n:29.00
0
3.936E+06 3.936E+06 5.704E+05 NUBASE
0343 19-K - 51 1.5+ 0.365 s 1.37
β-:53.00; β-,n:47.00
0
3.565E+06 3.565E+06 1.116E+06 NUBASE
0344 19-K - 52 2.0- 0.105 s 4.76
β-:15.00; β-,n:64.00;
β-,2n:21.00
0
3.049E+06 3.049E+06 2.234E+06 NUBASE
0345 19-K - 53 1.5+ 0.03 s 16.67
β-:16.00; β-,n:67.00;
β-,2n:17.00
0
3.259E+06 3.259E+06 2.411E+06 NUBASE
0346 19-K - 54 2.0- 0.01 s 50
β-:100.00
0
6.163E+06 6.163E+06 NUBASE
0347 19-K - 55 1.5+ 3E-03 s 100
β-:100.00
0
5.950E+06 5.950E+06 NUBASE
0348 20-Ca- 34 0.0+ 3.5E-08 s 100
2p:100.00
0
7.722E+05 NUBASE
0349 20-Ca- 35 0.5+ 0.026 s 0.78
β+:0.10; β+,p:95.70;
β+,2p:4.20
0
3.874E+06 3.874E+06 3.869E+06 NUBASE
0350 20-Ca- 36 0.0+ 0.102 s 1.96
β+:43.20; β+,p:56.80
0
2.905E+06 2.905E+06 1.323E+06 NUBASE
0351 20-Ca- 37 1.5+ 0.181 s 0.55
β+:17.90; β+,p:82.10
0
2.702E+06 2.702E+06 2.007E+06 NUBASE
0352 20-Ca- 38 0.0+ 0.44 s 1.82
β+:0.02; β+
m:99.98
4
2.433E+06 1.374E+06 1.000E+03 ENSDF
0353 20-Ca- 39 1.5+ 0.86 s 0.16
β+:100.00
4
2.561E+06 1.022E+06 ENSDF
0354 20-Ca- 40 0.0+
NUBASE
0355 20-Ca- 41 3.5- 1.03E+05 y 3.88
β+:100.00
3
2.843E+03 4.371E+02 UKPADD67
0356 20-Ca- 42 0.0+
NUBASE
0357 20-Ca- 43 3.5-
NUBASE
0358 20-Ca- 44 0.0+
NUBASE
0359 20-Ca- 45 3.5- 163 d 0.61
β-:100.00; β-
m:~
4
7.720E+04 9.543E-03 LNHB
0360 20-Ca- 46 0.0+
NUBASE
0361 20-Ca- 47 3.5- 4.538 d 0.04
β-:100.00
4
3.446E+05 1.060E+06 UKPADD67
0362 20-Ca- 48 0.0+ 5.3E+19 y 32.08
2β-:50.00; β-:50.00
0
2.184E+06 4.700E+04 NUBASE
60 THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009
MAIN DATA TABLES
Matn Nuclide
SpPa
Exc ener
Half-life (%-err)
Decay modes (%)
Nsp
<β> (eV)
<γ> (eV)
<α>
(eV)
Source
0363 20-Ca- 49 1.5- 8.72 m 0.23
β-:100.00
2
8.695E+05 3.167E+06 UKPADD67
0364 20-Ca- 50 0.0+ 13.9 s 4.32
β-m:100.00
0
1.570E+06 1.570E+06 NUBASE
0365 20-Ca- 51 1.5- 10 s 8
β-:100.00
0
2.453E+06 2.453E+06 NUBASE
0366 20-Ca- 52 0.0+ 4.6 s 6.52
β-:98.00; β-,n:2.00
0
2.578E+06 2.578E+06 1.318E+04 NUBASE
0367 20-Ca- 53 1.5- 0.09 s 16.67
β-:70.00; β-,n:30.00
0
2.597E+06 2.597E+06 3.292E+05 NUBASE
0368 20-Ca- 54 0.0+ 0.05 s 100
β-:100.00
0
3.443E+06 3.443E+06 NUBASE
0369 20-Ca- 55 2.5- 0.03 s 100
β-:100.00
0
3.820E+06 3.820E+06 NUBASE
0370 20-Ca- 56 0.0+ 0.01 s 100
β-:100.00
0
3.943E+06 3.943E+06 NUBASE
0371 20-Ca- 57 2.5- 5E-03 s 100
β-:100.00
0
4.523E+06 4.523E+06 NUBASE
0372 21-Sc- 36 ? 1E-09 s 100
p:100.00
0
2.011E+06 NUBASE
0373 21-Sc- 37 3.5- 1E-09 s 100
p:100.00
0
1.991E+06 NUBASE
0374 21-Sc- 38 2.0- 3E-07 s 100
p:100.00
0
9.330E+05 NUBASE
0375 21-Sc- 39 3.5- 3E-07 s 100
p:100.00
0
6.020E+05 NUBASE
0376 21-Sc- 40 4.0- 0.182 s 0.38
β+:100.00
4
3.399E+06 7.119E+06 2.772E+03 ENSDF
0377 21-Sc- 41 3.5- 0.596 s 0.29
β+:100.00
4
2.541E+06 1.022E+06 ENSDF
0378 21-Sc- 42 0.0+ 0.681 s 0.04
β+:100.00
4
2.508E+06 1.021E+06 ENSDF
0379 21-Sc- 42M 7.0+ 6.163E+05 1.033 m 0.48
β+:100.00
4
1.256E+06 4.204E+06 ENSDF
0380 21-Sc- 43 3.5- 3.891 h 0.31
β+:100.00
4
4.198E+05 9.848E+05 ENSDF
0381 21-Sc- 44 2.0+ 3.97 h 1.01
β+:100.00
4
5.960E+05 2.136E+06 LNHB
0382 21-Sc- 44M 6.0+ 2.711E+05 2.442 d 0.17
β+:1.23; IT:98.77
4
3.282E+04 2.753E+05 UKPADD67
0383 21-Sc- 45 3.5-
NUBASE
0384 21-Sc- 45M 1.5+ 1.240E+04 0.318 s 2.20
IT:100.00
3
1.163E+04 6.118E+02 ENSDF
0385 21-Sc- 46 4.0+ 83.788 d 0.02
β-:100.00
4
1.121E+05 2.010E+06 LNHB
0386 21-Sc- 46M 1.0- 1.425E+05 18.7 s 0.37
IT:100.00
3
5.890E+04 8.296E+04 UKPADD67
0387 21-Sc- 47 3.5- 3.351 d 0.06
β-:100.00
4
1.626E+05 1.084E+05 LNHB
0388 21-Sc- 48 6.0+ 1.82 d 0.21
β-:100.00
2
2.196E+05 3.350E+06 UKPADD67
0389 21-Sc- 49 3.5- 57.2 m 0.35
β-:100.00
2
8.199E+05 3.340E+03 UKPADD67
0390 21-Sc- 50 5.0+ 1.708 m 0.49
β-:100.00
2
1.624E+06 3.198E+06 UKPADD67
0391 21-Sc- 50M 2.0+ 2.569E+05 0.35 s 8.57
β-:1.25; IT:98.75
4
4.069E+04 2.644E+05 UKPADD67
0392 21-Sc- 51 3.5- 12.4 s 0.81
β-:100.00
2
1.841E+06 2.350E+06 ENSDF
0393 21-Sc- 52 3.0+ 8.2 s 2.44
β-:100.00
2
2.849E+06 2.893E+06 1.165E+03 ENSDF
0394 21-Sc- 53 3.5- 3 s 100
β-:100.00
0
3.070E+06 3.070E+06 NUBASE
0395 21-Sc- 54 3.0+ 0.26 s 11.54
β-:100.00
0
3.790E+06 3.790E+06 NUBASE
0396 21-Sc- 55 3.5- 0.12 s 33.33
β-:100.00
0
4.030E+06 4.030E+06 NUBASE
0397 21-Sc- 56 3.0+ 0.08 s 100
β-:100.00
0
4.557E+06 4.557E+06 NUBASE
0398 21-Sc- 57 3.5- 0.013 s 30.77
β-:67.00; β-,n:33.00
0
3.710E+06 3.710E+06 8.397E+05 NUBASE
0399 21-Sc- 58 3.0+ 0.012 s 41.67
β-:100.00
0
5.200E+06 5.200E+06 NUBASE
0400 21-Sc- 59 3.5- 0.01 s 100
β-:100.00
0
5.060E+06 5.060E+06 NUBASE
0401 21-Sc- 60 3.0+ 3E-03 s 100
β-:100.00
0
5.883E+06 5.883E+06 NUBASE
0402 22-Ti- 38 0.0+ 1.2E-07 s 100
2p:100.00
0
9.620E+05 NUBASE
0403 22-Ti- 39 1.5+ 0.031 s 12.90
β+:~; β+,p:85.00;
β+,2p:15.00
0
3.897E+06 3.897E+06 3.897E+06 NUBASE
0404 22-Ti- 40 0.0+ 0.053 s 2.81
β+,p:100.00
0
2.784E+06 2.784E+06 2.784E+06 NUBASE
THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009 61
MAIN DATA TABLES
Matn Nuclide
SpPa
Exc ener
Half-life (%-err)
Decay modes (%)
Nsp
<β> (eV)
<γ> (eV)
<α>
(eV)
Source
0405 22-Ti- 41 1.5+ 0.081 s 1.48
β+,p:100.00
0
2.964E+06 2.964E+06 2.964E+06 NUBASE
0406 22-Ti- 42 0.0+ 0.199 s 3.02
β+:100.00
4
2.637E+06 1.385E+06 1.014E+03 ENSDF
0407 22-Ti- 43 3.5- 0.509 s 0.98
β+:100.00
4
2.637E+06 1.202E+06 ENSDF
0408 22-Ti- 44 0.0+ 60 y 1.83
β+:100.00
4
1.063E+04 1.383E+05 LNHB
0409 22-Ti- 45 3.5- 3.08 h 0.32
β+:100.00
4
3.733E+05 8.718E+05 UKPADD67
0410 22-Ti- 46 0.0+
NUBASE
0411 22-Ti- 47 2.5-
NUBASE
0412 22-Ti- 48 0.0+
NUBASE
0413 22-Ti- 49 3.5-
NUBASE
0414 22-Ti- 50 0.0+
NUBASE
0415 22-Ti- 51 1.5- 5.8 m 0.52
β-:100.00
4
8.689E+05 3.646E+05 UKPADD67
0416 22-Ti- 52 0.0+ 1.7 m 5.88
β-:100.00
4
7.546E+05 1.284E+05 ENSDF
0417 22-Ti- 53 1.5- 32.7 s 2.75
β-:100.00
0
1.673E+06 1.673E+06 NUBASE
0418 22-Ti- 54 0.0+ 1.5 s 26.67
β-:100.00
0
1.434E+06 1.434E+06 NUBASE
0419 22-Ti- 55 1.5- 0.49 s 18.37
β-:100.00
0
2.493E+06 2.493E+06 NUBASE
0420 22-Ti- 56 0.0+ 0.164 s 14.63
β-:100.00
0
2.380E+06 2.380E+06 NUBASE
0421 22-Ti- 57 2.5- 0.06 s 26.67
β-:99.70; β-,n:0.30
0
3.543E+06 3.543E+06 3.352E+03 NUBASE
0422 22-Ti- 58 0.0+ 0.054 s 12.96
β-:100.00
0
3.147E+06 3.147E+06 NUBASE
0423 22-Ti- 59 2.5- 0.03 s 8.33
β-:100.00
0
3.950E+06 3.950E+06 NUBASE
0424 22-Ti- 60 0.0+ 0.022 s 9.09
β-:100.00
0
3.643E+06 3.643E+06 NUBASE
0425 22-Ti- 61 0.5- 0.01 s 100
β-:100.00
0
4.570E+06 4.570E+06 NUBASE
0426 22-Ti- 62 0.0+ 0.01 s 100
β-:100.00
0
4.257E+06 4.257E+06 NUBASE
0427 22-Ti- 63 0.5- 3E-03 s 100
β-:100.00
0
5.237E+06 5.237E+06 NUBASE
0428 23-V - 40 2.0- 1E-09 s 100
p:100.00
0
1.541E+06 NUBASE
0429 23-V - 41 3.5- 1E-09 s 100
p:100.00
0
1.351E+06 NUBASE
0430 23-V - 42 2.0- 5.5E-08 s 100
p:100.00
0
2.410E+05 NUBASE
0431 23-V - 43 3.5- 0.08 s 100
β+:100.00
0
3.767E+06 3.767E+06 NUBASE
0432 23-V - 44 2.0+ 0.111 s 6.31
β+:100.00
4
4.349E+06 4.526E+06 2.991E+03 ENSDF
0433 23-V - 44M 6.0+ 2.700E+05 0.15 s 2
β+:100.00
0
4.566E+06 4.566E+06 NUBASE
0434 23-V - 45 3.5- 0.539 s 3.34
β+:100.00
4
2.854E+06 1.022E+06 1.038E+03 ENSDF
0435 23-V - 46 0.0+ 0.423 s 0.03
β+:100.00
4
2.814E+06 1.022E+06 ENSDF
0436 23-V - 46M 3.0+ 8.011E+05 1.02E-03 s 6.86
IT:100.00
1
8.011E+05 ENSDF
0437 23-V - 47 1.5- 32.6 m 0.92
β+:100.00
4
8.031E+05 9.950E+05 ENSDF
0438 23-V - 48 4.0+ 15.974 d 0.02
β+:100.00
4
1.493E+05 2.916E+06 UKPADD67
0439 23-V - 49 3.5- 330 d 6.06
β+:100.00
3
3.583E+03 9.469E+02 UKPADD67
0440 23-V - 50 6.0+ 1.4E+17 y 28.57
β+:83.00; β-:17.00
5
1.568E+04 1.423E+06 ENSDF
0441 23-V - 51 3.5-
NUBASE
0442 23-V - 52 3.0+ 3.745 m 0.13
β-:100.00
4
1.064E+06 1.448E+06 UKPADD67
0443 23-V - 53 3.5- 1.62 m 2.47
β-:100.00
2
1.005E+06 1.042E+06 UKPADD67
0444 23-V - 54 3.0+ 49.8 s 1
β-:100.00
2
1.358E+06 4.098E+06 UKPADD67
0445 23-V - 55 3.5- 6.54 s 2.29
β-:100.00
2
2.382E+06 6.892E+05 ENSDF
0446 23-V - 56 1.0+ 0.216 s 1.85
β-:100.00
0
3.067E+06 3.067E+06 NUBASE
0447 23-V - 57 1.5- 0.35 s 2.86
β-:99.60; β-,n:0.40
0
2.770E+06 2.770E+06 3.020E+03 NUBASE
62 THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009
MAIN DATA TABLES
Matn Nuclide
SpPa
Exc ener
Half-life (%-err)
Decay modes (%)
Nsp
<β> (eV)
<γ> (eV)
<α>
(eV)
Source
0448 23-V - 58 3.0+ 0.191 s 4.19
β-:20.00; β-,n:80.00
0
1.623E+06 1.623E+06 8.486E+05 NUBASE
0449 23-V - 59 3.5- 0.075 s 9.33
β-:100.00
0
3.607E+06 3.607E+06 NUBASE
0450 23-V - 60 3.0+ 0.122 s 14.75
β-:100.00
0
4.640E+06 4.640E+06 NUBASE
0451 23-V - 61 3.5- 0.047 s 2.55
β-:94.00; β-,n:6.00
0
4.153E+06 4.153E+06 1.360E+05 NUBASE
0452 23-V - 62 3.0+ 0.034 s 5.97
β-:100.00
0
5.330E+06 5.330E+06 NUBASE
0453 23-V - 63 3.5- 0.017 s 17.65
β-:65.00; β-,n:35.00
0
4.168E+06 4.168E+06 1.000E+06 NUBASE
0454 23-V - 64 ? 0.01 s 100
β-:100.00
0
5.917E+06 5.917E+06 NUBASE
0455 23-V - 65 2.5- 0.01 s 100
β-:100.00
0
5.517E+06 5.517E+06 NUBASE
0456 24-Cr- 42 0.0+ 0.014 s 21.43
β+:100.00
0
4.720E+06 4.720E+06 NUBASE
0457 24-Cr- 43 1.5+ 0.022 s 3.24
β+:71.00; β+,p:23.00;
β+,2p:6.00
0
4.843E+06 4.843E+06 1.082E+06 NUBASE
0458 24-Cr- 44 0.0+ 0.054 s 7.41
β+:93.00; β+,p:7.00
0
3.455E+06 3.455E+06 1.500E+05 NUBASE
0459 24-Cr- 45 3.5- 0.05 s 12
β+:73.00; β+,p:27.00
0
3.903E+06 3.903E+06 7.620E+05 NUBASE
0460 24-Cr- 45M 1.5+ 5.000E+04 1E-03 s 100
IT:50.00; β+:50.00
0
2.160E+06 2.185E+06 NUBASE
0461 24-Cr- 46 0.0+ 0.26 s 23.08
β+:100.00
3
3.089E+06 1.022E+06 1.168E+03 ENSDF
0462 24-Cr- 47 1.5- 0.5 s 3
β+:100.00
4
3.012E+06 1.025E+06 1.093E+03 ENSDF
0463 24-Cr- 48 0.0+ 21.56 h 0.14
β+:100.00
4
8.222E+03 4.331E+05 ENSDF
0464 24-Cr- 49 2.5- 41.9 m 0.72
β+:100.00
4
5.965E+05 1.047E+06 UKPADD67
0465 24-Cr- 50 0.0+ 1.8E+17 y 100
2β+:100.00
0
1.167E+06 NUBASE
0466 24-Cr- 51 3.5- 27.703 d 0.01
β+:100.00
4
3.665E+03 3.271E+04 LNHB
0467 24-Cr- 52 0.0+
NUBASE
0468 24-Cr- 53 1.5-
NUBASE
0469 24-Cr- 54 0.0+
NUBASE
0470 24-Cr- 55 1.5- 3.54 m 0.85
β-:100.00
4
1.097E+06 4.243E+03 UKPADD67
0471 24-Cr- 56 0.0+ 5.94 m 1.68
β-:100.00
4
6.067E+05 9.169E+04 ENSDF
0472 24-Cr- 57 1.5- 21.1 s 4.74
β-:100.00
4
1.949E+06 4.622E+05 ENSDF
0473 24-Cr- 58 0.0+ 7 s 4.29
β-:100.00
0
1.360E+06 1.360E+06 NUBASE
0474 24-Cr- 59 2.5- 0.46 s 10.87
β-:100.00
0
2.530E+06 2.530E+06 NUBASE
0475 24-Cr- 60 0.0+ 0.56 s 10.71
β-:100.00
0
2.227E+06 2.227E+06 NUBASE
0476 24-Cr- 61 2.5- 0.261 s 5.75
β-:100.00
0
3.127E+06 3.127E+06 NUBASE
0477 24-Cr- 62 0.0+ 0.199 s 4.52
β-:50.00; β-
m:50.00
0
2.543E+06 2.543E+06 NUBASE
0478 24-Cr- 63 0.5- 0.129 s 1.55
β-:100.00
0
3.607E+06 3.607E+06 NUBASE
0479 24-Cr- 64 0.0+ 0.043 s 2.33
β-:100.00
0
3.157E+06 3.157E+06 NUBASE
0480 24-Cr- 65 0.5- 0.027 s 11.11
β-:100.00
0
4.290E+06 4.290E+06 NUBASE
0481 24-Cr- 66 0.0+ 0.01 s 60
β-:100.00
0
3.817E+06 3.817E+06 NUBASE
0482 24-Cr- 67 0.5- 0.01 s 100
β-:100.00
0
4.783E+06 4.783E+06 NUBASE
0483 25-Mn- 44 2.0- 1.05E-07 s 100
p:100.00
0
1.241E+06 NUBASE
0484 25-Mn- 45 3.5- 7E-08 s 100
p:100.00
0
1.061E+06 NUBASE
0485 25-Mn- 46 4.0+ 0.037 s 8.11
β+:60.00; β+,p:22.00;
β+,2p:18.00
0
4.570E+06 4.570E+06 1.149E+06 NUBASE
0486 25-Mn- 46M 1.0- 1.500E+05 1E-03 s 100
β+:100.00
0
5.751E+06 5.751E+06 NUBASE
0487 25-Mn- 47 2.5- 0.1 s 50
β+:96.60; β+,p:1.70;
β+,pm:1.70
0
4.020E+06 4.020E+06 6.055E+04 NUBASE
THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009 63
MAIN DATA TABLES
Matn Nuclide
SpPa
Exc ener
Half-life (%-err)
Decay modes (%)
Nsp
<β> (eV)
<γ> (eV)
<α>
(eV)
Source
0488 25-Mn- 48 4.0+ 0.158 s 1.39
β+:99.72; β+,p:0.28;
β+,n:~
0
4.491E+06 4.491E+06 3.784E+03 NUBASE
0489 25-Mn- 49 2.5- 0.382 s 1.83
β+:100.00
4
3.105E+06 1.094E+06 1.119E+03 ENSDF
0490 25-Mn- 50 0.0+ 0.284 s 0.16
β+:100.00
4
3.100E+06 1.021E+06 1.083E+03 ENSDF
0491 25-Mn- 50M 5.0+ 2.290E+05 1.75 m 1.71
β+:100.00
0
2.621E+06 2.621E+06 NUBASE
0492 25-Mn- 51 2.5- 46.2 m 0.22
β+:100.00
4
9.350E+05 9.977E+05 ENSDF
0493 25-Mn- 52 6.0+ 5.595 d 0.05
β+:100.00
4
7.156E+04 3.461E+06 LNHB
0494 25-Mn- 52M 2.0+ 3.777E+05 21.2 m 1.89
β+:98.25; IT:1.75
4
1.133E+06 2.409E+06 LNHB
0495 25-Mn- 53 3.5- 3.68E+06 y 5.71
β+:100.00
3
4.002E+03 1.422E+03 UKPADD67
0496 25-Mn- 54 3.0+ 312.13 d 0.01
β+:100.00
4
4.027E+03 8.360E+05 LNHB
0497 25-Mn- 55 2.5-
NUBASE
0498 25-Mn- 56 3.0+ 2.582 h 0.19
β-:100.00
4
8.212E+05 1.710E+06 LNHB
0499 25-Mn- 57 2.5- 1.423 m 2.11
β-:100.00
4
1.104E+06 9.963E+04 ENSDF
0500 25-Mn- 58 3.0+ 1.087 m 0.77
β-:100.00
4
1.711E+06 2.382E+06 UKPADD67
0501 25-Mn- 58M 0.0+ 7.300E+04 2.7 s 22.22
β-:100.00
4
2.828E+06 1.201E+05 UKPADD67
0502 25-Mn- 59 2.5- 4.59 s 1.09
β-:100.00
4
2.060E+06 5.379E+05 ENSDF
0503 25-Mn- 60 0.0+ 51 s 11.76
β-:100.00
1
3.840E+06 1.215E+03 ENSDF
0504 25-Mn- 60M 3.0+ 2.719E+05 1.77 s 1.13
β-:88.50; IT:11.50
0
2.509E+06 2.540E+06 NUBASE
0505 25-Mn- 61 2.5- 0.67 s 5.97
β-:100.00
2
3.256E+06 1.303E+05 ENSDF
0506 25-Mn- 62 3.0+ 0.88 s 17.05
β-:100.00
2
3.803E+06 2.148E+06 1.552E+03 ENSDF
0507 25-Mn- 62M 1.0+ 1.000E+03 0.092 s 14.13
β-:100.00
0
3.621E+06 3.621E+06 NUBASE
0508 25-Mn- 63 2.5- 0.275 s 1.45
β-:100.00
0
3.067E+06 3.067E+06 NUBASE
0509 25-Mn- 64 1.0+ 0.089 s 2.82
β-:100.00
0
4.050E+06 4.050E+06 NUBASE
0510 25-Mn- 65 2.5- 0.092 s 1.09
β-:100.00
0
3.403E+06 3.403E+06 NUBASE
0511 25-Mn- 66 ? 0.064 s 2.80
β-:100.00
0
4.440E+06 4.440E+06 NUBASE
0512 25-Mn- 67 2.5- 0.045 s 8.89
β-:100.00
0
4.097E+06 4.097E+06 NUBASE
0513 25-Mn- 68 ? 0.028 s 14.29
β-:100.00
0
4.843E+06 4.843E+06 NUBASE
0514 25-Mn- 69 2.5- 0.014 s 28.57
β-:76.00; β-,n:24.00
0
3.904E+06 3.904E+06 5.855E+05 NUBASE
0515 26-Fe- 45 1.5+ 4.9E-03 s 30.61
2p:75.00; β+,p:25.00
0
1.234E+06 1.234E+06 2.083E+06 NUBASE
0516 26-Fe- 46 0.0+ 9E-03 s 44.44
β+m:64.00; β+,p:18.00;
β+,pm:18.00
0
3.887E+06 3.887E+06 1.117E+06 NUBASE
0517 26-Fe- 47 3.5- 0.022 s 3.21
β+:13.00; β+,p:87.00
0
4.063E+06 4.063E+06 3.385E+06 NUBASE
0518 26-Fe- 48 0.0+ 0.044 s 15.91
β+:96.40; β+,p:3.60
0
3.668E+06 3.668E+06 8.198E+04 NUBASE
0519 26-Fe- 49 3.5- 0.07 s 4.29
β+:48.00; β+,p:52.00
0
3.509E+06 3.509E+06 1.424E+06 NUBASE
0520 26-Fe- 50 0.0+ 0.155 s 7.10
β+:100.00
0
2.716E+06 2.716E+06 NUBASE
0521 26-Fe- 51 2.5- 5.083 h 1.64
β+:100.00
4
3.270E+06 1.062E+06 1.174E+03 ENSDF
0522 26-Fe- 52 0.0+ 8.275 h 0.10
β+m:100.00
4
1.920E+05 7.424E+05 ENSDF
0523 26-Fe- 52M 12.0+ 6.820E+06 45.9 s 1.31
β+:100.00
4
1.982E+06 4.886E+06 ENSDF
0524 26-Fe- 53 3.5- 8.51 m 0.82
β+:100.00
4
1.107E+06 1.184E+06 UKPADD67
0525 26-Fe- 53M 9.5- 3.040E+06 2.58 m 1.16
IT:100.00
1
3.035E+06 UKPADD67
0526 26-Fe- 54 0.0+
NUBASE
0527 26-Fe- 55 1.5- 2.735 y 0.80
β+:100.00
4
4.004E+03 1.661E+03 LNHB
0528 26-Fe- 56 0.0+
NUBASE
64 THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009
MAIN DATA TABLES
Matn Nuclide
SpPa
Exc ener
Half-life (%-err)
Decay modes (%)
Nsp
<β> (eV)
<γ> (eV)
<α>
(eV)
Source
0529 26-Fe- 57 0.5-
NUBASE
0530 26-Fe- 58 0.0+
NUBASE
0531 26-Fe- 59 1.5- 44.495 d 0.02
β-:100.00
4
1.184E+05 1.189E+06 LNHB
0532 26-Fe- 60 0.0+ 1.5E+06 y 20
β-m:100.00
1
5.110E+04 ENSDF
0533 26-Fe- 61 ? 5.98 m 1
β-:100.00
0
1.326E+06 1.326E+06 NUBASE
0534 26-Fe- 62 0.0+ 1.133 m 2.94
β-:100.00
2
8.240E+05 5.061E+05 ENSDF
0535 26-Fe- 63 2.5- 6.1 s 9.84
β-:100.00
4
2.604E+06 3.177E+05 UKPADD67
0536 26-Fe- 64 0.0+ 2 s 10
β-:100.00
2
2.105E+06 1.554E+04 ENSDF
0537 26-Fe- 65 0.5- 1.3 s 23.08
β-:100.00
0
2.763E+06 2.763E+06 NUBASE
0538 26-Fe- 66 0.0+ 0.44 s 9.09
β-:100.00
0
2.180E+06 2.180E+06 NUBASE
0539 26-Fe- 67 0.5- 0.394 s 2.28
β-:100.00
0
3.123E+06 3.123E+06 NUBASE
0540 26-Fe- 68 0.0+ 0.187 s 3.21
β-m:100.00
0
2.690E+06 2.690E+06 NUBASE
0541 26-Fe- 69 0.5- 0.109 s 8.26
β-:93.00; β-,nm:7.00
0
3.679E+06 3.679E+06 8.275E+04 NUBASE
0542 26-Fe- 70 0.0+ 0.094 s 18.09
β-m:100.00
0
3.180E+06 3.180E+06 NUBASE
0543 26-Fe- 71 3.5+ 0.03 s 100
β-:100.00
0
4.290E+06 4.290E+06 NUBASE
0544 26-Fe- 72 0.0+ 0.01 s 100
β-:100.00
0
3.667E+06 3.667E+06 NUBASE
0545 27-Co- 47 3.5- 1E-09 s 100
p:100.00
0
2.651E+06 NUBASE
0546 27-Co- 48 6.0+ 1E-09 s 100
p:100.00
0
9.710E+05 NUBASE
0547 27-Co- 49 3.5- 3.5E-08 s 100
p:100.00
0
1.291E+06 NUBASE
0548 27-Co- 50 6.0+ 0.044 s 9.09
β+:46.00; β+,p:54.00
0
4.422E+06 4.422E+06 1.772E+06 NUBASE
0549 27-Co- 51 3.5- 0.06 s 100
β+:100.00
0
4.317E+06 4.317E+06 NUBASE
0550 27-Co- 52 6.0+ 0.115 s 20
β+:50.00; β+
m:50.00
0
3.669E+06 3.669E+06 NUBASE
0551 27-Co- 52M 2.0+ 3.800E+05 0.104 s 10.58
β+:50.00; IT:50.00
0
2.465E+06 2.655E+06 NUBASE
0552 27-Co- 53 3.5- 0.24 s 8.33
β+:100.00
4
3.397E+06 1.096E+06 1.213E+03 ENSDF
0553 27-Co- 53M 9.5- 3.195E+06 0.247 s 4.86
β+m:98.50; p:1.50
0
2.776E+06 2.776E+06 2.390E+04 NUBASE
0554 27-Co- 54 0.0+ 0.193 s 0.07
β+:100.00
3
3.399E+06 1.021E+06 1.183E+03 ENSDF
0555 27-Co- 54M 7.0+ 1.974E+05 1.48 m 1.35
β+:100.00
4
2.047E+06 3.931E+06 ENSDF
0556 27-Co- 55 3.5- 17.53 h 0.17
β+:100.00
4
4.366E+05 2.007E+06 UKPADD67
0557 27-Co- 56 4.0+ 77.31 d 0.25
β+:100.00
4
1.222E+05 3.592E+06 LNHB
0558 27-Co- 57 3.5- 271.8 d 0.02
β+:100.00
4
1.829E+04 1.252E+05 LNHB
0559 27-Co- 58 2.0+ 70.86 d 0.10
β+:100.00
4
3.431E+04 9.762E+05 UKPADD67
0560 27-Co- 58M 5.0+ 2.488E+04 8.9 h 1.12
IT:100.00
3
2.227E+04 1.817E+03 LNHB
0561 27-Co- 59 3.5-
NUBASE
0562 27-Co- 60 5.0+ 5.271 y 0.02
β-:100.00
4
9.677E+04 2.504E+06 LNHB
0563 27-Co- 60M 2.0+ 5.860E+04 10.47 m 0.38
IT:99.75; β-:0.25
4
5.569E+04 6.786E+03 LNHB
0564 27-Co- 61 3.5- 1.65 h 0.30
β-:100.00
4
4.664E+05 9.697E+04 ENSDF
0565 27-Co- 62 2.0+ 1.5 m 2.67
β-:100.00
2
1.640E+06 1.600E+06 ENSDF
0566 27-Co- 62M 5.0+ 2.200E+04 13.91 m 0.36
β-:99.00; IT:1.00
0
1.761E+06 1.761E+06 NUBASE
0567 27-Co- 63 3.5- 27.4 s 1.82
β-:100.00
4
1.568E+06 1.441E+05 ENSDF
0568 27-Co- 64 1.0+ 0.3 s 10
β-:100.00
2
3.289E+06 1.812E+05 ENSDF
0569 27-Co- 65 3.5- 1.2 s 5
β-:100.00
4
2.665E+06 1.147E+05 ENSDF
0570 27-Co- 66 3.0+ 0.233 s 7.30
β-:100.00
2
3.356E+06 2.754E+06 1.170E+03 ENSDF
0571 27-Co- 67 3.5- 0.425 s 4.71
β-:100.00
2
2.754E+06 6.941E+05 ENSDF
THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009 65
MAIN DATA TABLES
Matn Nuclide
SpPa
Exc ener
Half-life (%-err)
Decay modes (%)
Nsp
<β> (eV)
<γ> (eV)
<α>
(eV)
Source
0572 27-Co- 68 7.0- 0.199 s 10.55
β-:100.00
4
3.839E+06 3.444E+06 1.580E+03 ENSDF
0573 27-Co- 68M 3.0+ 1.500E+05 1.6 s 18.75
β-:50.00; IT:50.00
0
2.044E+06 2.119E+06 NUBASE
0574 27-Co- 69 3.5- 0.227 s 5.73
β-:99.00; β-,n:1.00
0
3.307E+06 3.307E+06 1.348E+04 NUBASE
0575 27-Co- 70 6.0- 0.119 s 5.04
β-:100.00
0
4.503E+06 4.503E+06 NUBASE
0576 27-Co- 70M 3.0+ 2.000E+05 0.5 s 36
β-:100.00
0
4.570E+06 4.570E+06 NUBASE
0577 27-Co- 71 3.5- 0.097 s 2.06
β-:100.00
0
3.777E+06 3.777E+06 NUBASE
0578 27-Co- 72 ? 0.09 s 22.22
β-:100.00
0
4.880E+06 4.880E+06 NUBASE
0579 27-Co- 73 3.5- 0.08 s 100
β-:100.00
0
4.273E+06 4.273E+06 NUBASE
0580 27-Co- 74 ? 0.05 s 100
β-:100.00
0
5.373E+06 5.373E+06 NUBASE
0581 27-Co- 75 3.5- 0.04 s 100
β-:100.00
0
4.800E+06 4.800E+06 NUBASE
0582 28-Ni- 48 0.0+ 0.01 s 100
2p:100.00
0
3.062E+06 NUBASE
0583 28-Ni- 49 3.5- 0.013 s 30.77
β+:100.00
0
6.193E+06 6.193E+06 NUBASE
0584 28-Ni- 50 0.0+ 9.1E-03 s 19.78
β+:100.00
0
4.470E+06 4.470E+06 NUBASE
0585 28-Ni- 51 3.5- 0.03 s 100
β+:100.00
0
5.277E+06 5.277E+06 NUBASE
0586 28-Ni- 52 0.0+ 0.038 s 13.16
β+m:83.00; β+,p:17.00
0
3.450E+06 3.450E+06 4.370E+05 NUBASE
0587 28-Ni- 53 3.5- 0.045 s 33.33
β+:55.00; β+,p:22.50;
β+,pm:22.50
0
3.364E+06 3.364E+06 9.302E+05 NUBASE
0588 28-Ni- 54 0.0+ 0.104 s 6.73
β+:100.00
0
2.933E+06 2.933E+06 NUBASE
0589 28-Ni- 55 3.5- 0.204 s 1.47
β+:100.00
4
3.599E+06 1.017E+06 1.294E+03 ENSDF
0590 28-Ni- 56 0.0+ 6.075 d 0.16
β+:100.00
0
7.118E+05 7.118E+05 NUBASE
0591 28-Ni- 57 1.5- 1.496 d 0.84
β+:100.00
4
1.566E+05 1.941E+06 LNHB
0592 28-Ni- 58 0.0+ 7E+20 y 100
2β+:100.00
0
1.926E+06 NUBASE
0593 28-Ni- 59 1.5- 7.6E+04 y 6.58
β+:100.00
3
4.622E+03 2.544E+03 UKPADD67
0594 28-Ni- 60 0.0+
NUBASE
0595 28-Ni- 61 1.5-
NUBASE
0596 28-Ni- 62 0.0+
NUBASE
0597 28-Ni- 63 0.5- 100.6 y 1.39
β-:100.00
1
1.742E+04 LNHB
0598 28-Ni- 64 0.0+
NUBASE
0599 28-Ni- 65 2.5- 2.52 h 0.04
β-:100.00
4
6.297E+05 5.499E+05 UKPADD67
0600 28-Ni- 66 0.0+ 2.267 d 0.92
β-:100.00
1
6.524E+04 UKPADD67
0601 28-Ni- 67 0.5- 21 s 4.76
β-:100.00
2
1.523E+06 5.025E+04 UKPADD67
0602 28-Ni- 68 0.0+ 29 s 6.90
β-:100.00
0
7.011E+05 7.011E+05 NUBASE
0603 28-Ni- 69 4.5+ 11.4 s 2.63
β-:100.00
2
1.174E+06 2.635E+06 ENSDF
0604 28-Ni- 69M 0.5- 3.210E+05 3.5 s 11.43
β-:100.00
0
2.026E+06 2.026E+06 NUBASE
0605 28-Ni- 70 0.0+ 6 s 5
β-n:100.00
0
1.194E+06 1.194E+06 NUBASE
0606 28-Ni- 71 0.5- 2.56 s 1.17
β-:100.00
0
2.504E+06 2.504E+06 NUBASE
0607 28-Ni- 72 0.0+ 1.57 s 3.18
β-:100.00
0
1.948E+06 1.948E+06 NUBASE
0608 28-Ni- 73 4.5+ 0.84 s 3.57
β-:100.00
0
3.042E+06 3.042E+06 NUBASE
0609 28-Ni- 74 0.0+ 0.68 s 17.65
β-:100.00
0
2.545E+06 2.545E+06 NUBASE
0610 28-Ni- 75 3.5+ 0.6 s 33.33
β-:98.40; β-,n:1.60
0
3.368E+06 3.368E+06 1.614E+04 NUBASE
0611 28-Ni- 76 0.0+ 0.47 s 82.98
β-:50.00; β-
m:50.00
0
3.122E+06 3.122E+06 NUBASE
0612 28-Ni- 77 4.5+ 0.3 s 100
β-:100.00
0
3.943E+06 3.943E+06 NUBASE
0613 28-Ni- 78 0.0+ 0.2 s 100
β-:100.00
0
3.483E+06 3.483E+06 NUBASE
66 THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009
MAIN DATA TABLES
Matn Nuclide
SpPa
Exc ener
Half-life (%-err)
Decay modes (%)
Nsp
<β> (eV)
<γ> (eV)
<α>
(eV)
Source
0614 29-Cu- 52 3.0+ 1E-09 s 100
p:100.00
0
1.521E+06 NUBASE
0615 29-Cu- 53 1.5- 3E-07 s 100
p:50.00; β+:50.00
0
2.652E+06 2.652E+06 9.505E+05 NUBASE
0616 29-Cu- 54 3.0+ 7.5E-08 s 100
p:100.00
0
3.910E+05 NUBASE
0617 29-Cu- 55 1.5- 0.04 s 100
β+:50.00; p:50.00
0
2.286E+06 2.286E+06 1.505E+05 NUBASE
0618 29-Cu- 56 4.0+ 0.093 s 3.23
β+:99.60; β+,p:0.40
0
5.089E+06 5.089E+06 8.139E+03 NUBASE
0619 29-Cu- 57 1.5- 0.196 s 0.36
β+:100.00
4
3.600E+06 1.140E+06 1.260E+03 ENSDF
0620 29-Cu- 58 1.0+ 3.204 s 0.22
β+:100.00
4
3.296E+06 1.541E+06 1.111E+03 ENSDF
0621 29-Cu- 59 1.5- 1.358 m 0.61
β+:100.00
4
1.488E+06 1.444E+06 ENSDF
0622 29-Cu- 60 2.0+ 23.7 m 1.69
β+:100.00
4
9.016E+05 3.912E+06 ENSDF
0623 29-Cu- 61 1.5- 3.333 h 0.15
β+:100.00
4
3.088E+05 8.235E+05 ENSDF
0624 29-Cu- 62 1.0+ 9.75 m 0.10
β+:100.00
4
1.283E+06 1.012E+06 UKPADD67
0625 29-Cu- 63 1.5-
NUBASE
0626 29-Cu- 64 1.0+ 12.701 h 0.02
β+:61.00; β-:39.00
5
1.259E+05 1.901E+05 LNHB
0627 29-Cu- 65 1.5-
NUBASE
0628 29-Cu- 66 1.0+ 5.1 m 0.20
β-:100.00
2
1.071E+06 8.186E+04 UKPADD67
0629 29-Cu- 67 1.5- 2.579 d 0.16
β-:100.00
4
1.557E+05 1.154E+05 UKPADD67
0630 29-Cu- 68 1.0+ 31.1 s 4.82
β-:100.00
4
1.481E+06 1.021E+06 ENSDF
0631 29-Cu- 68M 6.0- 7.216E+05 3.75 m 1.33
IT:84.00; β-:16.00
0
2.753E+05 8.814E+05 NUBASE
0632 29-Cu- 69 1.5- 2.85 m 5.26
β-:100.00
2
8.865E+05 5.250E+05 ENSDF
0633 29-Cu- 70 6.0- 44.5 s 0.45
β-:100.00
2
1.327E+06 3.492E+06 ENSDF
0634 29-Cu- 70M 3.0- 1.011E+05 33 s 6.06
β-:52.00; IT:48.00
0
1.160E+06 1.208E+06 NUBASE
0635 29-Cu- 70N 1.0+ 2.426E+05 6.6 s 3.03
β-:93.20; ITm:6.80
0
2.122E+06 2.132E+06 NUBASE
0636 29-Cu- 71 1.5- 19.4 s 7.22
β-:100.00
0
1.539E+06 1.539E+06 NUBASE
0637 29-Cu- 72 1.0+ 6.6 s 1.52
β-:100.00
2
3.121E+06 1.428E+06 ENSDF
0638 29-Cu- 73 1.5- 4.2 s 7.14
β-:100.00
2
3.056E+05 ENSDF
0639 29-Cu- 74 1.0+ 1.594 s 0.63
β-:100.00
0
3.235E+06 3.235E+06 NUBASE
0640 29-Cu- 75 1.5- 1.224 s 0.25
β-:96.50; β-,n:3.50
0
2.717E+06 2.717E+06 3.079E+04 NUBASE
0641 29-Cu- 76 ? 0.641 s 0.94
β-:97.00; β-,n:3.00
0
3.635E+06 3.635E+06 2.567E+04 NUBASE
0642 29-Cu- 76M ? 1.27 s 23.62
β-:100.00
0
3.721E+06 3.721E+06 NUBASE
0643 29-Cu- 77 1.5- 0.469 s 1.71
β-:100.00
0
3.380E+06 3.380E+06 NUBASE
0644 29-Cu- 78 ? 0.342 s 3.22
β-:100.00
0
4.197E+06 4.197E+06 NUBASE
0645 29-Cu- 79 1.5- 0.188 s 13.30
β-:45.00; β-,n:55.00
0
2.618E+06 2.618E+06 9.541E+05 NUBASE
0646 29-Cu- 80 ? 0.1 s 100
β-:100.00
0
5.130E+06 5.130E+06 NUBASE
0647 30-Zn- 54 0.0+ 1E-09 s 100
2p:100.00
0
1.502E+06 NUBASE
0648 30-Zn- 55 2.5- 0.02 s 100
β+:100.00
0
5.567E+06 5.567E+06 NUBASE
0649 30-Zn- 56 0.0+ 0.036 s 27.78
β+:100.00
0
4.290E+06 4.290E+06 NUBASE
0650 30-Zn- 57 3.5- 0.038 s 10.53
β+:35.00; β+,p:65.00
0
3.938E+06 3.938E+06 2.245E+06 NUBASE
0651 30-Zn- 58 0.0+ 0.084 s 10.71
β+:97.00; β+,p:3.00
0
3.076E+06 3.076E+06 4.870E+04 NUBASE
0652 30-Zn- 59 1.5- 0.182 s 0.99
β+:100.00
4
3.802E+06 1.056E+06 1.330E+03 ENSDF
0653 30-Zn- 60 0.0+ 2.38 m 2.10
β+:100.00
4
1.119E+06 1.506E+06 ENSDF
0654 30-Zn- 61 1.5- 1.485 m 0.22
β+:100.00
4
1.855E+06 1.525E+06 ENSDF
0655 30-Zn- 61M 0.5- 8.840E+04 0.43 s 100
IT:100.00
0
8.840E+04 NUBASE
0656 30-Zn- 61N 1.5- 4.181E+05 0.14 s 50
IT:100.00
0
4.181E+05 NUBASE
THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009 67
MAIN DATA TABLES
Matn Nuclide
SpPa
Exc ener
Half-life (%-err)
Decay modes (%)
Nsp
<β> (eV)
<γ> (eV)
<α>
(eV)
Source
0657 30-Zn- 61O 2.5- 7.560E+05 0.13 s 100
IT:100.00
0
7.560E+05 NUBASE
0658 30-Zn- 62 0.0+ 9.26 h 0.22
β+:100.00
4
3.214E+04 4.432E+05 ENSDF
0659 30-Zn- 63 1.5- 38.4 m 0.26
β+:100.00
4
9.167E+05 1.104E+06 UKPADD67
0660 30-Zn- 64 0.0+ 2.3E+18 y 100
2β+:100.00
0
1.096E+06 NUBASE
0661 30-Zn- 65 2.5- 244.15 d 0.04
β+:100.00
4
6.693E+03 5.822E+05 LNHB
0662 30-Zn- 66 0.0+
NUBASE
0663 30-Zn- 67 2.5-
NUBASE
0664 30-Zn- 68 0.0+
NUBASE
0665 30-Zn- 69 0.5- 56.4 m 1.24
β-:100.00
4
3.229E+05 6.005E+00 UKPADD67
0666 30-Zn- 69M 4.5+ 4.386E+05 13.78 h 0.36
β-:0.03; IT:99.97
4
2.238E+04 4.164E+05 UKPADD67
0667 30-Zn- 70 0.0+
NUBASE
0668 30-Zn- 71 0.5- 2.45 m 4.08
β-:100.00
4
1.048E+06 3.149E+05 ENSDF
0669 30-Zn- 71M 4.5+ 1.577E+05 3.96 h 1.26
β-:100.00
4
5.370E+05 1.560E+06 ENSDF
0670 30-Zn- 72 0.0+ 1.938 d 0.22
β-:96.67; β-
m:3.33
4
1.029E+05 1.525E+05 ENSDF
0671 30-Zn- 73 0.5- 23.5 s 4.26
β-:100.00
4
1.844E+06 1.049E+05 ENSDF
0672 30-Zn- 73M 2.5+ 1.955E+05 13 s 1.54
IT:100.00
0
1.955E+05 NUBASE
0673 30-Zn- 73N 3.5+ 2.376E+05 5.8 s 13.79
ITm:50.00; β-:50.00
0
7.545E+05 7.755E+05 NUBASE
0674 30-Zn- 74 0.0+ 1.593 m 1.26
β-m:100.00
0
7.601E+05 7.601E+05 NUBASE
0675 30-Zn- 75 3.5+ 10.2 s 1.96
β-:100.00
2
1.940E+06 1.713E+06 ENSDF
0676 30-Zn- 76 0.0+ 5.7 s 5.26
β-:100.00
2
1.586E+06 5.230E+05 ENSDF
0677 30-Zn- 77 3.5+ 2.08 s 2.40
β-:100.00
0
2.424E+06 2.424E+06 NUBASE
0678 30-Zn- 77M 0.5- 7.724E+05 1.05 s 9.52
IT:50.00; β-:50.00
0
1.341E+06 1.727E+06 NUBASE
0679 30-Zn- 78 0.0+ 1.47 s 10.20
β-:100.00
0
2.122E+06 2.122E+06 NUBASE
0680 30-Zn- 79 4.5+ 0.995 s 1.91
β-:98.70; β-,n:1.30
0
2.998E+06 2.998E+06 7.200E+03 NUBASE
0681 30-Zn- 80 0.0+ 0.545 s 2.94
β-:100.00
2
2.594E+06 1.576E+06 ENSDF
0682 30-Zn- 81 2.5+ 0.29 s 17.24
β-:92.50; β-,n:7.50
0
3.746E+06 3.746E+06 9.260E+04 NUBASE
0683 30-Zn- 82 0.0+ 0.1 s 100
β-:100.00
0
3.547E+06 3.547E+06 NUBASE
0684 30-Zn- 83 2.5+ 0.08 s 100
β-:100.00
0
4.363E+06 4.363E+06 NUBASE
0685 31-Ga- 56 3.0+ 1E-09 s 100
p:100.00
0
2.891E+06 NUBASE
0686 31-Ga- 57 0.5- 1E-09 s 100
p:100.00
0
2.541E+06 NUBASE
0687 31-Ga- 58 2.0+ 1E-09 s 100
p:100.00
0
1.521E+06 NUBASE
0688 31-Ga- 59 1.5- 1E-09 s 100
p:100.00
0
8.910E+05 NUBASE
0689 31-Ga- 60 2.0+ 0.07 s 18.57
β+:100.00
4
4.600E+06 4.455E+06 2.450E+03 ENSDF
0690 31-Ga- 61 1.5- 0.168 s 1.79
β+:85.80; β+
m:9.00;
β+n:0.60; β+:4.60
0
3.070E+06 3.070E+06 NUBASE
0691 31-Ga- 62 0.0+ 0.116 s 0.26
β+:100.00
3
3.855E+06 1.021E+06 1.294E+03 ENSDF
0692 31-Ga- 63 1.5- 32.4 s 1.54
β+:100.00
4
1.890E+06 1.373E+06 ENSDF
0693 31-Ga- 64 0.0+ 2.627 m 0.46
β+:100.00
4
1.699E+06 3.352E+06 ENSDF
0694 31-Ga- 65 1.5- 15.2 m 1.32
β+:100.00
4
8.236E+05 1.168E+06 ENSDF
0695 31-Ga- 66 0.0+ 9.49 h 0.74
β+:100.00
4
9.760E+05 2.459E+06 LNHB
0696 31-Ga- 67 1.5- 3.261 d 0.02
β+:100.00
4
3.516E+04 1.596E+05 ENSDF
0697 31-Ga- 68 1.0+ 1.127 h 0.09
β+:100.00
4
7.399E+05 9.510E+05 LNHB
0698 31-Ga- 69 1.5-
NUBASE
68 THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009
MAIN DATA TABLES
Matn Nuclide
SpPa
Exc ener
Half-life (%-err)
Decay modes (%)
Nsp
<β> (eV)
<γ> (eV)
<α>
(eV)
Source
0699 31-Ga- 70 1.0+ 21.14 m 0.14
β+:0.41; β-:99.59
5
6.441E+05 7.282E+03 ENSDF
0700 31-Ga- 71 1.5-
NUBASE
0701 31-Ga- 72 3.0- 14.1 h 0.07
β-:100.00
4
5.067E+05 2.705E+06 ENSDF
0702 31-Ga- 72M 0.0+ 1.197E+05 0.04 s 0.33
IT:100.00
0
1.197E+05 NUBASE
0703 31-Ga- 73 1.5- 4.86 h 0.62
β-:1.47; β-
m:98.53
4
4.467E+05 3.410E+05 ENSDF
0704 31-Ga- 74 3.0- 8.12 m 1.48
β-:100.00
2
9.883E+05 3.006E+06 ENSDF
0705 31-Ga- 74M ? 5.957E+04 9.5 s 10.53
IT:75.00; β-:25.00
0
4.527E+05 4.973E+05 NUBASE
0706 31-Ga- 75 1.5- 2.1 m 1.59
β-:96.00; β-
m:4.00
0
1.129E+06 1.129E+06 NUBASE
0707 31-Ga- 76 ? 32.6 s 1.84
β-:100.00
2
1.801E+06 2.715E+06 ENSDF
0708 31-Ga- 77 1.5- 13 s 2.31
β-m:100.00
4
2.112E+06 4.570E+05 UKPADD67
0709 31-Ga- 78 3.0+ 5.09 s 0.98
β-:100.00
2
2.604E+06 2.500E+06 ENSDF
0710 31-Ga- 79 1.5- 2.847 s 0.11
β-:99.76; β-
m:0.15;
β-,n:0.09
0
2.325E+06 2.325E+06 2.850E+02 NUBASE
0711 31-Ga- 80 3.0+ 1.697 s 0.65
β-:100.00
2
3.456E+06 2.366E+06 1.096E+03 ENSDF
0712 31-Ga- 81 2.5- 1.217 s 0.41
β-:46.53; β-
m:41.57;
β-,n:11.90
0
2.452E+06 2.452E+06 1.030E+05 NUBASE
0713 31-Ga- 82 ? 0.599 s 0.33
β-:78.70; β-,n:10.65;
β-,nm:10.65
0
3.539E+06 3.539E+06 2.550E+05 NUBASE
0714 31-Ga- 83 1.5- 0.308 s 0.32
β-:63.00; β-,n:37.00
0
3.172E+06 3.172E+06 7.547E+05 NUBASE
0715 31-Ga- 84 ? 0.085 s 11.76
β-:30.00; β-,n:70.00
0
2.940E+06 2.940E+06 1.526E+06 NUBASE
0716 31-Ga- 85 1.5- 0.05 s 100
β-:100.00
0
4.340E+06 4.340E+06 NUBASE
0717 31-Ga- 86 ? 0.03 s 100
β-:100.00
0
5.163E+06 5.163E+06 NUBASE
0718 32-Ge- 58 0.0+ 1E-09 s 100
2p:100.00
0
2.782E+06 NUBASE
0719 32-Ge- 59 3.5- 1E-09 s 100
2p:100.00
0
1.222E+06 NUBASE
0720 32-Ge- 60 0.0+ 0.03 s 100
β+:100.00
0
4.077E+06 4.077E+06 NUBASE
0721 32-Ge- 61 1.5- 0.039 s 30.77
β+:20.00; β+,p:80.00
0
3.524E+06 3.524E+06 2.634E+06 NUBASE
0722 32-Ge- 62 0.0+ 0.13 s 30.77
β+:100.00
0
3.253E+06 3.253E+06 NUBASE
0723 32-Ge- 63 1.5- 0.142 s 5.63
β+:100.00
0
3.212E+06 3.212E+06 NUBASE
0724 32-Ge- 64 0.0+ 1.062 m 3.92
β+:100.00
0
1.495E+06 1.495E+06 NUBASE
0725 32-Ge- 65 1.5- 30.9 s 1.62
β+:99.99; β+,p:0.01
0
2.082E+06 2.082E+06 6.338E+01 NUBASE
0726 32-Ge- 66 0.0+ 2.26 h 2.21
β+:100.00
4
9.714E+04 6.745E+05 ENSDF
0727 32-Ge- 67 0.5- 18.9 m 1.59
β+:100.00
0
1.407E+06 1.407E+06 NUBASE
0728 32-Ge- 68 0.0- 270.95 d 0.06
β+:100.00
3
4.746E+03 4.143E+03 LNHB
0729 32-Ge- 69 2.5- 1.627 d 0.26
β+:100.00
4
1.200E+05 9.505E+05 ENSDF
0730 32-Ge- 70 0.0+
NUBASE
0731 32-Ge- 71 0.5- 11.43 d 0.26
β+:100.00
3
4.792E+03 4.195E+03 ENSDF
0732 32-Ge- 71M 4.5+ 1.984E+05 0.02 s 0.83
IT:100.00
3
3.292E+04 1.646E+05 ENSDF
0733 32-Ge- 72 0.0+
NUBASE
0734 32-Ge- 73 4.5+
NUBASE
0735 32-Ge- 73M 0.5- 6.673E+04 0.5 s 2
IT:100.00
3
5.561E+04 1.135E+04 UKPADD67
0736 32-Ge- 74 0.0+
NUBASE
0737 32-Ge- 75 0.5- 1.38 h 0.05
β-:100.00
2
4.204E+05 3.523E+04 ENSDF
0738 32-Ge- 75M 3.5+ 1.397E+05 47.7 s 1.05
IT:99.97; β-
m:0.03
0
1.012E+02 1.397E+05 NUBASE
THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009 69
MAIN DATA TABLES
Matn Nuclide
SpPa
Exc ener
Half-life (%-err)
Decay modes (%)
Nsp
<β> (eV)
<γ> (eV)
<α>
(eV)
Source
0739 32-Ge- 76 0.0+ 1.58E+21 y 10.76
2β-:100.00
0
2.039E+06 NUBASE
0740 32-Ge- 77 3.5+ 11.3 h 0.09
β-:100.00
2
6.422E+05 1.078E+06 ENSDF
0741 32-Ge- 77M 0.5- 1.597E+05 52.9 s 1.13
β-:81.00; IT:19.00
4
9.660E+05 7.401E+04 ENSDF
0742 32-Ge- 78 0.0+ 1.467 h 1.14
β-:100.00
2
2.267E+05 2.781E+05 ENSDF
0743 32-Ge- 79 0.5- 18.98 s 0.16
β-:100.00
4
1.714E+06 2.597E+05 ENSDF
0744 32-Ge- 79M 3.5+ 1.860E+05 39 s 2.56
β-:96.00; IT:4.00
4
1.292E+06 1.196E+06 ENSDF
0745 32-Ge- 80 0.0+ 29.5 s 1.36
β-:100.00
2
1.050E+06 1.466E+05 ENSDF
0746 32-Ge- 81 4.5+ 8 s 25
β-:100.00
0
2.078E+06 2.078E+06 NUBASE
0747 32-Ge- 81M 0.5+ 6.791E+05 7.6 s 7.89
β-:100.00; IT:1.00
4
2.475E+06 1.495E+06 ENSDF
0748 32-Ge- 82 0.0+ 4.55 s 6.59
β-:100.00
2
1.575E+06 1.079E+06 ENSDF
0749 32-Ge- 83 2.5+ 1.85 s 3.24
β-:100.00
0
2.993E+06 2.993E+06 NUBASE
0750 32-Ge- 84 0.0+ 0.954 s 1.47
β-:44.60; β-
m:44.60;
β-,n:10.80
0
2.424E+06 2.424E+06 9.608E+04 NUBASE
0751 32-Ge- 85 2.5+ 0.54 s 9.26
β-:86.00; β-,n:7.00;
β-,nm:7.00
0
3.111E+06 3.111E+06 1.729E+05 NUBASE
0752 32-Ge- 86 0.0+ 0.3 s 100
β-:100.00
0
3.103E+06 3.103E+06 NUBASE
0753 32-Ge- 87 2.5+ 0.15 s 100
β-:100.00
0
3.913E+06 3.913E+06 NUBASE
0754 32-Ge- 88 0.0+ 0.08 s 100
β-:100.00
0
3.717E+06 3.717E+06 NUBASE
0755 32-Ge- 89 1.5+ 0.05 s 100
β-:100.00
0
4.483E+06 4.483E+06 NUBASE
0756 33-As- 60 5.0+ 1E-09 s 100
p:100.00
0
3.311E+06 NUBASE
0757 33-As- 60M 2.0+ 6.000E+04 1E-09 s 100
p:100.00
0
3.371E+06 NUBASE
0758 33-As- 61 1.5- 1E-09 s 100
p:100.00
0
2.431E+06 NUBASE
0759 33-As- 62 1.0+ 1E-09 s 100
p:100.00
0
1.481E+06 NUBASE
0760 33-As- 63 1.5- 1E-09 s 100
p:100.00
0
1.131E+06 NUBASE
0761 33-As- 64 0.0+ 0.04 s 75
β+:100.00
0
4.943E+06 4.943E+06 NUBASE
0762 33-As- 65 1.5- 0.17 s 17.65
β+:100.00
0
3.143E+06 3.143E+06 NUBASE
0763 33-As- 66 0.0+ 0.096 s 0.24
β+:100.00
0
3.373E+06 3.373E+06 NUBASE
0764 33-As- 67 2.5- 42.5 s 2.82
β+:100.00
4
2.068E+06 1.464E+06 ENSDF
0765 33-As- 68 3.0+ 2.527 m 0.53
β+:100.00
4
2.021E+06 3.693E+06 ENSDF
0766 33-As- 69 2.5- 15.23 m 1.05
β+:100.00
4
1.219E+06 1.135E+06 ENSDF
0767 33-As- 70 4.0+ 52.6 m 0.57
β+:100.00
4
8.407E+05 3.997E+06 ENSDF
0768 33-As- 71 2.5- 2.72 d 0.23
β+:100.00
4
1.158E+05 5.751E+05 ENSDF
0769 33-As- 72 2.0- 1.083 d 0.38
β+:100.00
4
1.040E+06 1.781E+06 ENSDF
0770 33-As- 73 1.5- 80.3 d 0.07
β+m:100.00
3
5.232E+03 4.763E+03 UKPADD67
0771 33-As- 74 2.0- 17.78 d 0.17
β-:34.00; β+:66.00
5
2.683E+05 7.597E+05 UKPADD67
0772 33-As- 75 1.5-
NUBASE
0773 33-As- 75M 4.5+ 3.039E+05 0.018 s 1.31
IT:100.00
0
3.039E+05 NUBASE
0774 33-As- 76 2.0- 1.093 d 0.31
β-:100.00
4
1.064E+06 4.198E+05 UKPADD67
0775 33-As- 77 1.5- 1.618 d 0.13
β-:100.00
2
2.255E+05 8.313E+03 ENSDF
0776 33-As- 78 2.0- 1.512 h 0.22
β-:100.00
2
1.256E+06 1.300E+06 ENSDF
0777 33-As- 79 1.5- 9.01 m 1.66
β-:2.37; β-
m:97.63
2
8.392E+05 3.378E+04 ENSDF
0778 33-As- 80 1.0+ 15.2 s 1.32
β-:100.00
2
2.148E+06 5.821E+05 ENSDF
0779 33-As- 81 1.5- 33.3 s 2.40
β-:96.41; β-
m:3.59
4
1.575E+06 2.303E+05 ENSDF
70 THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009
MAIN DATA TABLES
Matn Nuclide
SpPa
Exc ener
Half-life (%-err)
Decay modes (%)
Nsp
<β> (eV)
<γ> (eV)
<α>
(eV)
Source
0780 33-As- 82 1.0+ 19.1 s 2.62
β-:100.00
2
3.197E+06 3.078E+05 ENSDF
0781 33-As- 82M 5.0- 2.450E+05 13.6 s 2.21
β-:100.00
4
2.037E+06 2.970E+06 UKPADD67
0782 33-As- 83 1.5- 13.4 s 2.24
β-:36.00; β-
m:64.00
0
1.772E+06 1.772E+06 NUBASE
0783 33-As- 84 3.0+ 4.02 s 0.75
β-:99.72; β-,n:0.14;
β-,nm:0.14
0
3.282E+06 3.282E+06 7.528E+02 NUBASE
0784 33-As- 84M ? 0.65 s 23.08
β-:100.00
0
3.291E+06 3.291E+06 NUBASE
0785 33-As- 85 1.5- 2.04 s 0.98
β-:78.00; β-,n:22.00
5
3.381E+06 3.585E+05 1.518E+05 UKPADD67
0786 33-As- 86 ? 0.945 s 0.85
β-:67.00; β-,n:33.00
0
2.974E+06 2.974E+06 4.296E+05 NUBASE
0787 33-As- 87 1.5- 0.61 s 18.03
β-:84.60; β-,n:15.40
0
3.239E+06 3.239E+06 2.499E+05 NUBASE
0788 33-As- 88 ? 0.3 s 100
β-:100.00
0
4.197E+06 4.197E+06 NUBASE
0789 33-As- 89 1.5- 0.2 s 100
β-:100.00
0
4.020E+06 4.020E+06 NUBASE
0790 33-As- 90 ? 0.08 s 100
β-:100.00
0
4.827E+06 4.827E+06 NUBASE
0791 33-As- 91 1.5- 0.05 s 100
β-:100.00
0
4.493E+06 4.493E+06 NUBASE
0792 33-As- 92 ? 0.03 s 100
β-:100.00
0
5.240E+06 5.240E+06 NUBASE
0793 34-Se- 65 1.5- 0.05 s 100
β+:100.00
0
4.687E+06 4.687E+06 NUBASE
0794 34-Se- 66 0.0+ 0.033 s 36.36
β+:100.00
0
3.260E+06 3.260E+06 NUBASE
0795 34-Se- 67 2.5- 0.133 s 8.27
β+:99.50; β+,p:0.50
0
3.380E+06 3.380E+06 9.801E+03 NUBASE
0796 34-Se- 68 0.0+ 35.5 s 1.97
β+:100.00
0
1.563E+06 1.563E+06 NUBASE
0797 34-Se- 69 1.5- 27.4 s 0.73
β+:100.00
4
2.304E+06 1.865E+06 ENSDF
0798 34-Se- 70 0.0+ 41.1 m 0.73
β+:100.00
4
4.842E+05 9.928E+05 ENSDF
0799 34-Se- 71 2.5- 4.74 m 1.05
β+:100.00
4
1.397E+06 1.584E+06 ENSDF
0800 34-Se- 72 0.0+ 8.4 d 0.95
β+:100.00
4
2.246E+04 3.434E+04 ENSDF
0801 34-Se- 73 4.5+ 7.15 h 1.12
β+:100.00
4
3.865E+05 1.090E+06 ENSDF
0802 34-Se- 73M 1.5- 2.571E+04 39.8 m 3.27
IT:72.60; β+:27.40
0
2.525E+05 2.712E+05 NUBASE
0803 34-Se- 74 0.0+
NUBASE
0804 34-Se- 75 2.5+ 119.64 d 0.20
β+:100.00
4
1.465E+04 3.902E+05 UKPADD67
0805 34-Se- 76 0.0+
NUBASE
0806 34-Se- 77 0.5-
NUBASE
0807 34-Se- 77M 3.5+ 1.619E+05 17.55 s 0.85
IT:100.00
3
7.328E+04 8.881E+04 UKPADD67
0808 34-Se- 78 0.0+
NUBASE
0809 34-Se- 79 3.5+ 3.77E+05 y 5.04
β-:100.00
1
5.259E+04 UKPADD67
0810 34-Se- 79M 0.5- 9.577E+04 3.9 m 0.51
IT:99.94; β-:0.06
4
8.187E+04 1.396E+04 UKPADD67
0811 34-Se- 80 0.0+
NUBASE
0812 34-Se- 81 0.5- 18.39 m 0.71
β-:100.00
4
6.091E+05 8.546E+03 UKPADD67
0813 34-Se- 81M 3.5+ 1.030E+05 57.28 m 0.03
β-:0.07; IT:99.93
4
8.540E+04 1.803E+04 UKPADD67
0814 34-Se- 82 0.0+ 1.21E+20 y 14.05
2β-:100.00
0
2.995E+06 ENSDF
0815 34-Se- 83 4.5+ 22.3 m 1.35
β-:100.00
0
1.223E+06 1.223E+06 NUBASE
0816 34-Se- 83M 0.5- 2.287E+05 1.168 m 0.57
β-:100.00
2
1.273E+06 9.715E+05 ENSDF
0817 34-Se- 84 0.0+ 3.1 m 3.23
β-:100.00; β-
m:~
2
5.404E+05 4.082E+05 ENSDF
0818 34-Se- 85 2.5+ 31.7 s 2.84
β-:100.00
0
2.061E+06 2.061E+06 NUBASE
0819 34-Se- 86 0.0+ 15.3 s 5.88
β-:100.00
0
1.700E+06 1.700E+06 NUBASE
0820 34-Se- 87 2.5+ 5.5 s 2.18
β-:100.00
2
2.962E+06 6.619E+05 ENSDF
0821 34-Se- 88 0.0+ 1.53 s 3.92
β-:99.01; β-,n:0.99
0
2.265E+06 2.265E+06 4.717E+03 NUBASE
THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009 71
MAIN DATA TABLES
Matn Nuclide
SpPa
Exc ener
Half-life (%-err)
Decay modes (%)
Nsp
<β> (eV)
<γ> (eV)
<α>
(eV)
Source
0822 34-Se- 89 2.5+ 0.41 s 9.76
β-:92.20; β-,n:7.80
0
2.947E+06 2.947E+06 6.744E+04 NUBASE
0823 34-Se- 90 0.0+ 0.3 s 100
β-:100.00
0
2.897E+06 2.897E+06 NUBASE
0824 34-Se- 91 0.5+ 0.27 s 18.52
β-:79.00; β-,n:21.00
0
3.267E+06 3.267E+06 3.260E+05 NUBASE
0825 34-Se- 92 0.0+ 0.1 s 100
β-:100.00
0
3.310E+06 3.310E+06 NUBASE
0826 34-Se- 93 0.5+ 0.05 s 100
β-:100.00
0
4.110E+06 4.110E+06 NUBASE
0827 34-Se- 94 0.0+ 0.02 s 100
β-:100.00
0
3.667E+06 3.667E+06 NUBASE
0828 35-Br- 67 0.5- 1E-09 s 100
p:100.00
0
1.631E+06 NUBASE
0829 35-Br- 68 3.0+ 1.5E-06 s 100
p:100.00
0
5.610E+05 NUBASE
0830 35-Br- 69 0.5- 2.4E-08 s 100
p:100.00
0
4.410E+05 NUBASE
0831 35-Br- 70 0.0+ 0.079 s 1.01
β+:100.00
0
3.540E+06 3.540E+06 NUBASE
0832 35-Br- 70M 9.0+ 2.292E+06 2.2 s 9.09
β+:50.00; IT:50.00
0
2.152E+06 3.298E+06 NUBASE
0833 35-Br- 71 2.5- 21.4 s 2.80
β+:100.00
0
2.020E+06 2.020E+06 NUBASE
0834 35-Br- 72 1.0+ 1.31 m 3.05
β+:100.00
4
2.717E+06 2.922E+06 UKPADD67
0835 35-Br- 72M 1.0- 1.011E+05 10.6 s 3.77
IT:100.00
3
5.088E+04 5.000E+04 UKPADD67
0836 35-Br- 73 0.5- 3.4 m 5.88
β+m:100.00
0
1.521E+06 1.521E+06 NUBASE
0837 35-Br- 74 0.0- 25.4 m 1.18
β+:100.00
4
1.055E+06 4.357E+06 ENSDF
0838 35-Br- 74M 4.0+ 1.380E+04 46 m 4.35
β+:100.00
4
1.243E+06 3.795E+06 ENSDF
0839 35-Br- 75 1.5- 1.612 h 1.34
β+:100.00
4
5.283E+05 1.194E+06 ENSDF
0840 35-Br- 76 1.0- 16.2 h 1.23
β+:100.00
4
6.481E+05 2.716E+06 ENSDF
0841 35-Br- 76M 4.0+ 1.026E+05 1.31 s 1.53
IT:99.40; β+:0.60
0
1.013E+04 1.121E+05 NUBASE
0842 35-Br- 77 1.5- 2.377 d 0.01
β+:100.00
4
6.034E+03 3.208E+05 ENSDF
0843 35-Br- 77M 4.5+ 1.059E+05 4.28 m 2.34
IT:100.00
3
8.479E+04 1.957E+04 ENSDF
0844 35-Br- 78 1.0+ 6.46 m 0.62
β+:100.00
4
1.024E+06 1.034E+06 ENSDF
0845 35-Br- 79 1.5-
NUBASE
0846 35-Br- 79M 4.5+ 2.072E+05 4.864 s 0.72
IT:100.00
3
4.701E+04 1.598E+05 ENSDF
0847 35-Br- 80 1.0+ 17.6 m 0.28
β-:91.70; β+:8.30
5
7.240E+05 7.700E+04 UKPADD67
0848 35-Br- 80M 5.0- 8.585E+04 4.41 h 0.23
IT:100.00
3
6.176E+04 2.426E+04 UKPADD67
0849 35-Br- 81 1.5-
NUBASE
0850 35-Br- 82 5.0- 1.472 d 0.08
β-:100.00
4
1.427E+05 2.638E+06 UKPADD67
0851 35-Br- 82M 2.0- 4.595E+04 6.09 m 1.15
β-:2.40; IT:97.60
4
7.009E+04 8.181E+03 UKPADD67
0852 35-Br- 83 1.5- 2.4 h 0.83
β-:0.09; β-
m:99.91
2
3.252E+05 6.874E+03 ENSDF
0853 35-Br- 84 2.0- 31.8 m 0.25
β-:100.00
2
1.240E+06 1.757E+06 ENSDF
0854 35-Br- 84M ? 3.200E+05 6 m 3.33
β-:100.00
2
9.100E+05 2.768E+06 ENSDF
0855 35-Br- 85 1.5- 2.9 m 2.07
β-:0.16; β-
m:99.84
2
1.041E+06 6.131E+04 ENSDF
0856 35-Br- 86 2.0- 55 s 1.45
β-:100.00
2
1.943E+06 3.297E+06 ENSDF
0857 35-Br- 87 1.5- 55.7 s 0.36
β-:97.49; β-,n:2.51
5
1.577E+06 3.089E+06 3.783E+03 UKPADD67
0858 35-Br- 88 2.0- 16.5 s 0.61
β-:93.30; β-,n:6.70
5
2.394E+06 3.112E+06 8.068E+03 UKPADD67
0859 35-Br- 89 1.5- 4.37 s 1.14
β-:85.90; β-,n:14.10
5
2.572E+06 1.711E+06 6.484E+03 UKPADD67
0860 35-Br- 90 1.0- 1.9 s 2.11
β-:75.40; β-,n:24.60
5
3.290E+06 1.538E+06 2.191E+04 UKPADD67
0861 35-Br- 91 1.5- 0.538 s 2.42
β-:80.00; β-,n:20.00
5
3.909E+06 4.512E+05 1.000E+04 UKPADD67
0862 35-Br- 92 2.0- 0.343 s 4.37
β-:66.90; β-,n:33.10
0
3.273E+06 3.273E+06 5.510E+05 NUBASE
0863 35-Br- 93 1.5- 0.102 s 9.80
β-:32.00; β-,n:68.00
0
2.473E+06 2.473E+06 1.303E+06 NUBASE
0864 35-Br- 94 ? 0.07 s 28.57
β-:30.00; β-,n:70.00
0
2.760E+06 2.760E+06 1.426E+06 NUBASE
72 THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009
MAIN DATA TABLES
Matn Nuclide
SpPa
Exc ener
Half-life (%-err)
Decay modes (%)
Nsp
<β> (eV)
<γ> (eV)
<α>
(eV)
Source
0865 35-Br- 95 1.5- 0.05 s 100
β-:100.00
0
4.047E+06 4.047E+06 NUBASE
0866 35-Br- 96 ? 0.02 s 100
β-:100.00
0
4.800E+06 4.800E+06 NUBASE
0867 35-Br- 97 1.5- 0.01 s 100
β-:100.00
0
4.423E+06 4.423E+06 NUBASE
0868 36-Kr- 69 2.5- 0.032 s 31.25
β+:100.00
0
4.680E+06 4.680E+06 NUBASE
0869 36-Kr- 70 0.0+ 0.052 s 32.69
β+m:100.00
0
2.486E+06 2.486E+06 NUBASE
0870 36-Kr- 71 2.5- 0.064 s 12.50
β+:100.00
2
4.314E+06 1.022E+06 1.393E+03 ENSDF
0871 36-Kr- 72 0.0+ 17.16 s 1.05
β+m:100.00
0
1.659E+06 1.659E+06 NUBASE
0872 36-Kr- 73 1.5- 27.3 s 3.66
β+:100.00
4
2.619E+06 1.478E+06 ENSDF
0873 36-Kr- 74 0.0+ 11.5 m 0.96
β+:100.00
0
9.915E+05 9.915E+05 NUBASE
0874 36-Kr- 75 2.5+ 4.29 m 3.96
β+:100.00
4
1.575E+06 1.281E+06 ENSDF
0875 36-Kr- 76 0.0+ 14.8 h 0.68
β+:100.00
0
4.250E+05 4.250E+05 NUBASE
0876 36-Kr- 77 2.5+ 1.24 h 0.81
β+:100.00
4
6.786E+05 1.038E+06 ENSDF
0877 36-Kr- 78 0.0+ 1.1E+20 y 100
2β+:100.00
0
2.846E+06 NUBASE
0878 36-Kr- 79 0.5- 1.46 d 0.29
β+:100.00
4
2.463E+04 2.578E+05 UKPADD67
0879 36-Kr- 79M 3.5+ 1.298E+05 50 s 6
IT:100.00
3
9.006E+04 3.980E+04 UKPADD67
0880 36-Kr- 80 0.0+
NUBASE
0881 36-Kr- 81 3.5+ 2.1E+05 y 4.76
β+:100.00
4
5.385E+03 7.369E+03 UKPADD67
0882 36-Kr- 81M 0.5- 1.905E+05 13.2 s 0.76
β+:~; IT:100.00
4
5.877E+04 1.317E+05 UKPADD67
0883 36-Kr- 82 0.0+
NUBASE
0884 36-Kr- 83 4.5+
NUBASE
0885 36-Kr- 83M 0.5- 4.154E+04 1.83 h 1.09
IT:100.00
3
3.910E+04 2.767E+03 ENSDF
0886 36-Kr- 84 0.0+
NUBASE
0887 36-Kr- 85 4.5+ 10.752 y 0.21
β-:100.00
4
2.281E+05 2.236E+03 LNHB
0888 36-Kr- 85M 0.5- 3.049E+05 4.48 h 0.18
β-:78.60; IT:21.40
4
2.542E+05 1.574E+05 ENSDF
0889 36-Kr- 86 0.0+
NUBASE
0890 36-Kr- 87 2.5+ 1.272 h 0.66
β-:100.00
4
1.331E+06 7.879E+05 ENSDF
0891 36-Kr- 88 0.0+ 2.84 h 1.06
β-:100.00
4
3.714E+05 1.950E+06 ENSDF
0892 36-Kr- 89 1.5+ 3.15 m 1.27
β-:100.00
2
1.377E+06 1.836E+06 ENSDF
0893 36-Kr- 90 0.0+ 32.32 s 0.28
β-:86.92; β-
m:13.08
0
1.459E+06 1.459E+06 NUBASE
0894 36-Kr- 91 2.5+ 8.57 s 0.47
β-:100.00
4
2.096E+06 1.733E+06 ENSDF
0895 36-Kr- 92 0.0+ 1.84 s 0.43
β-:100.00
4
1.998E+06 1.388E+06 ENSDF
0896 36-Kr- 93 0.5+ 1.286 s 0.78
β-:100.00
4
2.876E+06 2.131E+06 ENSDF
0897 36-Kr- 94 0.0+ 0.21 s 1.90
β-:98.89; β-,n:1.11
0
2.453E+06 2.453E+06 9.454E+03 NUBASE
0898 36-Kr- 95 0.5+ 0.114 s 2.63
β-:97.13; β-,n:2.87
0
3.209E+06 3.209E+06 3.187E+04 NUBASE
0899 36-Kr- 96 0.0+ 0.08 s 8.75
β-:48.15; β-
m:48.15;
β-,n:3.70
0
2.675E+06 2.675E+06 4.396E+04 NUBASE
0900 36-Kr- 97 1.5+ 0.063 s 6.35
β-:93.30; β-,n:3.35;
β-,nm:3.35
0
3.334E+06 3.334E+06 8.766E+04 NUBASE
0901 36-Kr- 98 0.0+ 0.046 s 17.39
β-m:93.00; β-,n:7.00
0
2.895E+06 2.895E+06 9.605E+04 NUBASE
0902 36-Kr- 99 1.5+ 0.04 s 27.50
β-:89.00; β-,n:5.50;
β-,nm:5.50
0
3.554E+06 3.554E+06 1.775E+05 NUBASE
0903 36-Kr-100 0.0+ 0.01 s 100
β-:100.00
0
3.500E+06 3.500E+06 NUBASE
0904 37-Rb- 71 2.5- 1E-09 s 100
p:100.00
0
2.091E+06 NUBASE
THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009 73
MAIN DATA TABLES
Matn Nuclide
SpPa
Exc ener
Half-life (%-err)
Decay modes (%)
Nsp
<β> (eV)
<γ> (eV)
<α>
(eV)
Source
0905 37-Rb- 72 3.0+ 1.5E-06 s 100
p:100.00
0
1.511E+06 NUBASE
0906 37-Rb- 73 1.5- 3E-08 s 100
p:100.00
0
6.020E+05 NUBASE
0907 37-Rb- 74 0.0+ 0.065 s 0.77
β+:100.00
3
4.473E+06 1.020E+06 1.421E+03 ENSDF
0908 37-Rb- 75 1.5- 19 s 6.32
β+:100.00
0
2.367E+06 2.367E+06 NUBASE
0909 37-Rb- 76 1.0- 36.5 s 1.64
β+:100.00
4
2.355E+06 3.330E+06 ENSDF
0910 37-Rb- 77 1.5- 3.77 m 1.06
β+:100.00
4
1.687E+06 1.516E+06 ENSDF
0911 37-Rb- 78 0.0+ 17.66 m 0.45
β+:100.00
4
1.216E+06 4.059E+06 ENSDF
0912 37-Rb- 78M 4.0- 1.033E+05 5.74 m 0.87
β+:90.00; IT:10.00
4
1.449E+06 3.212E+06 ENSDF
0913 37-Rb- 79 2.5+ 22.9 m 2.18
β+:100.00
4
8.071E+05 1.402E+06 ENSDF
0914 37-Rb- 80 1.0+ 34 s 11.76
β+:100.00
4
2.034E+06 1.184E+06 ENSDF
0915 37-Rb- 81 1.5- 4.576 h 0.11
β+:4.52; β+
m:95.48
0
6.857E+05 6.857E+05 NUBASE
0916 37-Rb- 81M 4.5+ 8.620E+04 30.25 m 0.83
IT:96.20; β+:3.77;
β+m:0.03
4
7.395E+04 2.835E+04 LNHB
0917 37-Rb- 82 1.0+ 1.273 m 0.16
β+:100.00
4
1.412E+06 1.108E+06 ENSDF
0918 37-Rb- 82M 5.0- 6.890E+04 6.472 h 0.09
β+:100.00
4
7.956E+04 2.904E+06 ENSDF
0919 37-Rb- 83 2.5- 86.2 d 0.12
β+:25.00; β+
m:75.00
4
8.636E+03 4.961E+05 UKPADD67
0920 37-Rb- 83M 4.5+ 4.211E+04 7.8E-03 s 8.97
IT:100.00
0
4.211E+04 NUBASE
0921 37-Rb- 84 2.0- 33.5 d 1.79
β-:3.20; β+:96.80
5
1.440E+05 8.872E+05 UKPADD67
0922 37-Rb- 84M 6.0- 4.636E+05 20.4 m 0.49
IT:100.00
3
8.018E+04 3.829E+05 UKPADD67
0923 37-Rb- 85 2.5-
NUBASE
0924 37-Rb- 86 2.0- 18.64 d 0.11
β+:0.01; β-:100.00
5
6.562E+05 9.378E+04 LNHB
0925 37-Rb- 86M 6.0- 5.560E+05 1.017 m 0.33
IT:100.00
3
9.960E+03 5.460E+05 UKPADD67
0926 37-Rb- 87 1.5- 4.81E+10 y 1.87
β-:100.00
1
8.170E+04 ENSDF
0927 37-Rb- 88 2.0- 17.8 m 0.56
β-:100.00
4
2.057E+06 6.672E+05 LNHB
0928 37-Rb- 89 1.5- 15.4 m 1.30
β-:100.00
4
9.292E+05 2.234E+06 UKPADD67
0929 37-Rb- 90 0.0- 2.633 m 3.16
β-:100.00
2
1.916E+06 2.271E+06 ENSDF
0930 37-Rb- 90M 3.0- 1.069E+05 4.3 m 1.55
β-:97.40; IT:2.60
4
1.118E+06 3.869E+06 ENSDF
0931 37-Rb- 91 1.5- 58.4 s 0.68
β-:100.00
4
1.368E+06 2.706E+06 ENSDF
0932 37-Rb- 92 0.0- 4.492 s 0.45
β-:100.00
2
2.875E+06 1.750E+06 ENSDF
0933 37-Rb- 93 2.5- 5.8 s 0.69
β-:98.60; β-,n:1.40
5
2.118E+06 2.602E+06 4.149E+03 UKPADD67
0934 37-Rb- 94 3.0- 2.702 s 0.26
β-:89.90; β-,n:10.10
5
3.102E+06 2.747E+06 1.005E+04 UKPADD67
0935 37-Rb- 95 2.5- 0.381 s 0.79
β-:91.40; β-,n:8.60
5
2.829E+06 2.642E+06 7.846E+03 UKPADD67
0936 37-Rb- 96 2.0+ 0.199 s 1.51
β-:86.60; β-,n:13.40
4
3.849E+06 2.089E+06 1.093E+03 ENSDF
0937 37-Rb- 96M 1.0- 0.2 s 100
β-:50.00; IT:50.00
0
1.952E+06 1.952E+06 NUBASE
0938 37-Rb- 97 1.5+ 0.17 s 0.41
β-:74.90; β-,n:25.10
4
3.775E+06 1.332E+06 ENSDF
0939 37-Rb- 98 ? 0.114 s 4.39
β-:86.15; β-,n:13.80;
β-,2n:0.05
0
3.793E+06 3.793E+06 2.245E+05 NUBASE
0940 37-Rb- 98M ? 3.900E+05 0.096 s 3.12
β-:100.00
0
4.272E+06 4.272E+06 NUBASE
0941 37-Rb- 99 2.5+ 0.05 s 1.39
β-:84.10; β-,n:15.90
0
3.476E+06 3.476E+06 3.059E+05 NUBASE
0942 37-Rb-100 3.0+ 0.051 s 15.69
β-:94.25; β-,n:5.60;
β-,2n:0.15
0
4.353E+06 4.353E+06 1.053E+05 NUBASE
0943 37-Rb-101 1.5+ 0.032 s 12.50
β-:100.00
4
5.106E+06 4.263E+05 1.410E+03 ENSDF
0944 37-Rb-102 ? 0.037 s 13.51
β-:82.00; β-,n:18.00
0
4.443E+06 4.443E+06 4.063E+05 NUBASE
74 THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009
MAIN DATA TABLES
Matn Nuclide
SpPa
Exc ener
Half-life (%-err)
Decay modes (%)
Nsp
<β> (eV)
<γ> (eV)
<α>
(eV)
Source
0945 38-Sr- 73 0.5- 0.025 s 100
β+:100.00
0
4.783E+06 4.783E+06 NUBASE
0946 38-Sr- 74 0.0+ 0.05 s 100
β+:100.00
0
3.739E+06 3.739E+06 NUBASE
0947 38-Sr- 75 1.5- 0.088 s 3.41
β+:94.80; β+,p:5.20
0
3.460E+06 3.460E+06 1.095E+05 NUBASE
0948 38-Sr- 76 0.0+ 8.9 s 3.37
β+:100.00
0
2.080E+06 2.080E+06 NUBASE
0949 38-Sr- 77 2.5+ 9 s 2.22
β+:100.00
4
2.612E+06 1.211E+06 ENSDF
0950 38-Sr- 78 0.0+ 2.65 m 5.03
β+:100.00
0
1.254E+06 1.254E+06 NUBASE
0951 38-Sr- 79 1.5- 2.25 m 4.44
β+:100.00
0
1.775E+06 1.775E+06 NUBASE
0952 38-Sr- 80 0.0+ 1.772 h 1.41
β+:100.00
4
6.339E+04 4.864E+05 ENSDF
0953 38-Sr- 81 0.5- 22.3 m 1.79
β+:99.90; β+
m:0.10
0
1.309E+06 1.309E+06 NUBASE
0954 38-Sr- 82 0.0+ 25.55 d 0.59
β+:100.00
3
5.041E+03 7.855E+03 ENSDF
0955 38-Sr- 83 3.5+ 1.35 d 0.09
β+:100.00
4
1.490E+05 7.762E+05 UKPADD67
0956 38-Sr- 83M 0.5- 2.592E+05 4.95 s 2.42
IT:100.00
3
3.117E+04 2.281E+05 UKPADD67
0957 38-Sr- 84 0.0+
NUBASE
0958 38-Sr- 85 4.5+ 64.849 d 0.01
β+:100.00
4
8.725E+03 5.187E+05 LNHB
0959 38-Sr- 85M 0.5- 2.387E+05 1.127 h 0.07
β+:13.40; IT:86.60
4
1.325E+04 2.159E+05 UKPADD67
0960 38-Sr- 86 0.0+
NUBASE
0961 38-Sr- 87 4.5+
NUBASE
0962 38-Sr- 87M 0.5- 3.885E+05 2.816 h 0.39
β+:0.30; IT:99.70
4
6.656E+04 3.209E+05 UKPADD67
0963 38-Sr- 88 0.0+
NUBASE
0964 38-Sr- 89 2.5+ 50.57 d 0.06
β-:99.99; β-
m:0.01
4
5.846E+05 8.691E+01 LNHB
0965 38-Sr- 90 0.0+ 28.79 y 0.21
β-:100.00
1
1.740E+05 LNHB
0966 38-Sr- 91 2.5+ 9.63 h 0.52
β-:41.16; β-
m:58.84
4
6.475E+05 7.072E+05 ENSDF
0967 38-Sr- 92 0.0+ 2.71 h 0.37
β-:100.00
4
1.799E+05 1.381E+06 UKPADD67
0968 38-Sr- 93 2.5+ 7.423 m 0.32
β-:74.98; β-
m:25.02
4
7.946E+05 2.218E+06 ENSDF
0969 38-Sr- 94 0.0+ 1.255 m 0.53
β-:100.00
4
8.332E+05 1.427E+06 UKPADD67
0970 38-Sr- 95 0.5+ 23.9 s 0.59
β-:100.00
4
1.901E+06 1.790E+06 ENSDF
0971 38-Sr- 96 0.0+ 1.06 s 2.83
β-:100.00
4
1.972E+06 9.249E+05 ENSDF
0972 38-Sr- 97 0.5+ 0.429 s 1.17
β-:85.08; β-
m:14.87;
β-,n:0.03; β-,nm:0.03
0
2.456E+06 2.456E+06 1.147E+02 NUBASE
0973 38-Sr- 98 0.0+ 0.653 s 0.31
β-:100.00
4
2.363E+06 5.774E+05 ENSDF
0974 38-Sr- 99 1.5+ 0.27 s 3.70
β-:100.00
4
3.200E+06 1.268E+06 ENSDF
0975 38-Sr-100 0.0+ 0.202 s 1.49
β-:99.22; β-,n:0.78
0
2.342E+06 2.342E+06 3.724E+03 NUBASE
0976 38-Sr-101 2.5- 0.118 s 2.54
β-:97.63; β-,n:1.19;
β-,nm:1.19
0
3.114E+06 3.114E+06 2.197E+04 NUBASE
0977 38-Sr-102 0.0+ 0.069 s 8.70
β-:47.25; β-
m:47.25;
β-,n:5.50
0
2.795E+06 2.795E+06 5.168E+04 NUBASE
0978 38-Sr-103 ? 0.05 s 100
β-:100.00
0
3.797E+06 3.797E+06 NUBASE
0979 38-Sr-104 0.0+ 0.03 s 100
β-:100.00
0
3.503E+06 3.503E+06 NUBASE
0980 38-Sr-105 ? 0.02 s 100
β-:100.00
0
4.257E+06 4.257E+06 NUBASE
0981 39-Y - 76 ? 5E-07 s 100
β+:50.00; p:50.00
0
2.590E+06 2.590E+06 3.155E+05 NUBASE
0982 39-Y - 77 2.5+ 0.063 s 26.98
β+:90.00; p:10.00
0
3.268E+06 3.268E+06 4.100E+03 NUBASE
0983 39-Y - 78 0.0+ 0.054 s 9.26
β+:100.00
0
3.548E+06 3.548E+06 NUBASE
0984 39-Y - 78M 5.0+ 5.8E-03 s 8.62
β+:100.00
0
3.548E+06 3.548E+06 NUBASE
THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009 75
MAIN DATA TABLES
Matn Nuclide
SpPa
Exc ener
Half-life (%-err)
Decay modes (%)
Nsp
<β> (eV)
<γ> (eV)
<α>
(eV)
Source
0985 39-Y - 79 2.5+ 14.8 s 4.05
β+:100.00
0
2.372E+06 2.372E+06 NUBASE
0986 39-Y - 80 4.0- 35 s 5.71
β+:100.00
4
3.186E+06 2.204E+06 ENSDF
0987 39-Y - 80M 1.0- 2.285E+05 4.8 s 6.25
IT:81.00; β+:19.00
0
5.900E+05 7.751E+05 NUBASE
0988 39-Y - 81 2.5+ 1.173 m 1.42
β+:100.00
4
1.978E+06 1.177E+06 ENSDF
0989 39-Y - 82 1.0+ 8.3 s 2.41
β+:100.00
0
2.606E+06 2.606E+06 NUBASE
0990 39-Y - 83 4.5+ 7.08 m 0.85
β+:97.78; β+
m:2.22
0
1.486E+06 1.486E+06 NUBASE
0991 39-Y - 83M 1.5- 6.198E+04 2.85 m 0.70
β+m:60.00; IT:40.00
0
8.536E+05 8.784E+05 NUBASE
0992 39-Y - 84 1.0+ 4.6 s 4.35
β+:100.00
4
2.357E+06 1.279E+06 ENSDF
0993 39-Y - 84M 5.0- 5.000E+05 40 m 2.50
β+:100.00
4
1.222E+06 3.973E+06 ENSDF
0994 39-Y - 85 0.5- 2.68 h 1.87
β+m:100.00
0
1.007E+06 1.007E+06 NUBASE
0995 39-Y - 85M 4.5+ 1.980E+04 4.86 h 2.67
β+:88.82; β+
m:11.18;
IT:~
0
1.085E+06 1.085E+06 NUBASE
0996 39-Y - 86 4.0- 14.74 h 0.14
β+:100.00
4
2.175E+05 3.570E+06 ENSDF
0997 39-Y - 86M 8.0+ 2.183E+05 48 m 2.08
β+:0.69; IT:99.31
4
2.307E+04 2.201E+05 ENSDF
0998 39-Y - 87 0.5- 3.325 d 0.25
β+m:100.00
4
7.197E+03 4.617E+05 UKPADD67
0999 39-Y - 87M 4.5+ 3.808E+05 13.37 h 0.22
β+:1.57; IT:98.43
4
7.865E+04 3.082E+05 UKPADD67
1000 39-Y - 88 4.0- 106.629 d 0.02
β+:100.00
4
6.334E+03 2.695E+06 LNHB
1001 39-Y - 88M 8.0+ 6.746E+05 0.014 s 1.44
IT:100.00
0
6.746E+05 NUBASE
1002 39-Y - 89 0.5-
NUBASE
1003 39-Y - 89M 4.5+ 9.090E+05 15.663 s 0.03
IT:100.00
3
7.246E+03 9.014E+05 ENSDF
1004 39-Y - 90 2.0- 2.671 d 0.12
β-:100.00
4
9.338E+05 1.237E+00 ENSDF
1005 39-Y - 90M 7.0+ 6.820E+05 3.19 h 1.88
IT:100.00
3
4.527E+04 6.353E+05 ENSDF
1006 39-Y - 91 0.5- 58.51 d 0.10
β-:100.00
2
6.059E+05 3.133E+03 LNHB
1007 39-Y - 91M 4.5+ 5.556E+05 49.71 m 0.08
IT:100.00
3
2.628E+04 5.283E+05 ENSDF
1008 39-Y - 92 2.0- 3.54 h 0.56
β-:100.00
4
1.437E+06 2.516E+05 LNHB
1009 39-Y - 93 0.5- 10.18 h 0.79
β-:100.00
4
1.172E+06 9.518E+04 ENSDF
1010 39-Y - 93M 3.5+ 7.587E+05 0.82 s 4.88
IT:100.00
3
7.508E+04 6.796E+05 ENSDF
1011 39-Y - 94 2.0- 18.7 m 0.53
β-:100.00
2
1.814E+06 7.642E+05 ENSDF
1012 39-Y - 95 0.5- 10.3 m 0.97
β-:100.00
2
1.436E+06 1.092E+06 ENSDF
1013 39-Y - 96 0.0- 5.34 s 0.94
β-:100.00
4
3.205E+06 8.009E+04 ENSDF
1014 39-Y - 96M 8.0+ 1.600E+06 9.62 s 1.56
β-:100.00
4
1.851E+06 4.486E+06 UKPADD67
1015 39-Y - 97 0.5- 3.75 s 0.53
β-:99.95; β-,n:0.06
5
2.135E+06 1.846E+06 1.189E+02 UKPADD67
1016 39-Y - 97M 4.5+ 6.675E+05 1.17 s 2.56
β-:99.25; IT:0.70;
β-,n:0.05
5
2.317E+06 2.111E+06 1.425E+02 UKPADD67
1017 39-Y - 97N 13.5- 3.523E+06 0.142 s 5.63
β-:1.60; ITm:98.40
4
1.207E+05 2.807E+06 UKPADD67
1018 39-Y - 98 0.0- 0.59 s 5.08
β-:99.73; β-,n:0.27
5
2.780E+06 2.613E+06 1.039E+03 UKPADD67
1019 39-Y - 98M 5.0+ 1.000E+06 2 s 10
β-:96.56; β-,n:3.44
5
2.788E+06 3.294E+06 1.576E+04 UKPADD67
1020 39-Y - 99 2.5+ 1.477 s 0.34
β-:98.30; β-,n:1.70
5
2.949E+06 9.167E+05 7.357E+03 UKPADD67
1021 39-Y -100 ? 0.735 s 0.95
β-:99.08; β-,n:0.92
0
3.080E+06 3.080E+06 5.535E+03 NUBASE
1022 39-Y -100M ? 2.000E+05 0.94 s 3.19
β-:100.00
0
3.170E+06 3.170E+06 NUBASE
1023 39-Y -101 2.5+ 0.45 s 4.44
β-:100.00
4
3.553E+06 7.210E+05 ENSDF
1024 39-Y -102 ? 0.3 s 3.33
β-:95.10; β-,n:4.90
0
3.165E+06 3.165E+06 4.286E+04 NUBASE
1025 39-Y -102M ? 2.000E+05 0.36 s 11.11
β-:95.10; β-,n:4.90
0
3.231E+06 3.231E+06 4.531E+04 NUBASE
76 THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009
MAIN DATA TABLES
Matn Nuclide
SpPa
Exc ener
Half-life (%-err)
Decay modes (%)
Nsp
<β> (eV)
<γ> (eV)
<α>
(eV)
Source
1026 39-Y -103 2.5+ 0.224 s 8.48
β-:92.00; β-,n:8.00
0
2.986E+06 2.986E+06 9.457E+04 NUBASE
1027 39-Y -104 0.0- 0.13 s 15.38
β-:91.22; β-,n:8.78
3
3.494E+06 3.750E+06 4.948E+04 UKPADD67
1028 39-Y -105 2.5+ 0.15 s 13.33
β-:80.25; β-,n:19.75
3
3.325E+06 2.372E+06 1.235E+05 UKPADD67
1029 39-Y -106 ? 0.05 s 100
β-:100.00
0
4.310E+06 4.310E+06 NUBASE
1030 39-Y -107 2.5+ 0.03 s 100
β-:100.00
0
4.157E+06 4.157E+06 NUBASE
1031 39-Y -108 ? 0.02 s 100
β-:100.00
0
4.820E+06 4.820E+06 NUBASE
1032 40-Zr- 78 0.0+ 0.05 s 100
β+:100.00
0
3.610E+06 3.610E+06 NUBASE
1033 40-Zr- 79 2.5+ 0.056 s 53.57
β+:100.00
0
3.667E+06 3.667E+06 NUBASE
1034 40-Zr- 80 0.0+ 4.6 s 13.04
β+m:100.00
0
1.824E+06 1.824E+06 NUBASE
1035 40-Zr- 81 1.5- 5.5 s 7.27
β+:99.88; β+,p:0.12
0
2.508E+06 2.508E+06 1.359E+03 NUBASE
1036 40-Zr- 82 0.0+ 32 s 15.62
β+:100.00
0
1.333E+06 1.333E+06 NUBASE
1037 40-Zr- 83 0.5- 41.6 s 5.77
β+:3.90; β+
m:96.10
4
2.101E+06 1.188E+06 ENSDF
1038 40-Zr- 84 0.0+ 25.9 m 2.70
β+:100.00
0
8.900E+05 8.900E+05 NUBASE
1039 40-Zr- 85 3.5+ 7.86 m 0.51
β+:100.00
4
1.325E+06 1.456E+06 ENSDF
1040 40-Zr- 85M 0.5- 2.922E+05 10.9 s 2.75
IT:92.00; β+:8.00
0
1.329E+05 4.017E+05 NUBASE
1041 40-Zr- 86 0.0+ 16.5 h 0.61
β+:50.00; β+
m:50.00
0
4.583E+05 4.583E+05 NUBASE
1042 40-Zr- 87 4.5+ 1.68 h 0.60
β+:0.28; β+
m:99.72
4
8.256E+05 9.411E+05 ENSDF
1043 40-Zr- 87M 0.5- 3.363E+05 14 s 1.43
IT:100.00
3
9.819E+04 2.374E+05 ENSDF
1044 40-Zr- 88 0.0+ 83 d 0.48
β+:100.00
4
1.403E+04 3.919E+05 LNHB
1045 40-Zr- 89 4.5+ 3.267 d 0.26
β+:0.13; β+
m:99.87
4
9.278E+04 2.539E+05 UKPADD67
1046 40-Zr- 89M 0.5- 5.878E+05 4.18 m 0.24
β+:6.66; IT:93.34
4
3.274E+04 6.380E+05 UKPADD67
1047 40-Zr- 90 0.0+
NUBASE
1048 40-Zr- 90M 5.0- 2.319E+06 0.809 s 0.25
IT:100.00
3
1.705E+04 2.329E+06 ENSDF
1049 40-Zr- 91 2.5+
NUBASE
1050 40-Zr- 92 0.0+
NUBASE
1051 40-Zr- 93 2.5+ 1.53E+06 y 6.54
β-:2.50; β-
m:97.50
1
1.922E+04 ENSDF
1052 40-Zr- 94 0.0+ 6E+15 y 100
2β-:100.00
0
1.144E+06 ENSDF
1053 40-Zr- 95 2.5+ 64.032 d 0.01
β-:98.92; β-
m:1.08
4
1.200E+05 7.328E+05 LNHB
1054 40-Zr- 96 0.0+ 3.9E+19 y 23.08
2β-:100.00
0
3.350E+06 ENSDF
1055 40-Zr- 97 0.5+ 16.744 h 0.07
β-:4.95; β-
m:95.05
4
7.023E+05 1.591E+05 ENSDF
1056 40-Zr- 98 0.0+ 30.7 s 1.30
β-:100.00
1
9.100E+05 ENSDF
1057 40-Zr- 99 0.5+ 2.2 s 4.55
β-m:36.80; β-:63.20
4
1.539E+06 8.414E+05 UKPADD67
1058 40-Zr-100 0.0+ 7.1 s 5.63
β-:100.00
2
1.307E+06 2.413E+05 ENSDF
1059 40-Zr-101 1.5+ 2.3 s 4.35
β-:100.00
4
2.179E+06 5.582E+05 ENSDF
1060 40-Zr-102 0.0+ 2.9 s 6.90
β-:100.00
2
1.997E+06 2.369E+05 ENSDF
1061 40-Zr-103 2.5- 1.3 s 7.69
β-:100.00
0
2.317E+06 2.317E+06 NUBASE
1062 40-Zr-104 0.0+ 1.2 s 25
β-:100.00
0
1.960E+06 1.960E+06 NUBASE
1063 40-Zr-105 2.5+ 0.6 s 33.33
β-:98.60; β-,n:1.40
3
2.662E+06 1.764E+06 4.466E+03 UKPADD67
1064 40-Zr-106 0.0+ 0.9 s 22.22
β-:98.48; β-,n:1.52
3
2.138E+06 1.091E+06 5.801E+03 UKPADD67
1065 40-Zr-107 2.5+ 0.24 s 16.67
β-:96.29; β-,n:3.71
3
2.982E+06 2.201E+06 1.751E+04 UKPADD67
1066 40-Zr-108 0.0+ 0.08 s 100
β-:100.00
0
2.833E+06 2.833E+06 NUBASE
1067 40-Zr-109 ? 0.06 s 100
β-:100.00
0
3.607E+06 3.607E+06 NUBASE
1068 40-Zr-110 0.0+ 0.03 s 100
β-:100.00
0
3.240E+06 3.240E+06 NUBASE
THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009 77
MAIN DATA TABLES
Matn Nuclide
SpPa
Exc ener
Half-life (%-err)
Decay modes (%)
Nsp
<β> (eV)
<γ> (eV)
<α>
(eV)
Source
1069 41-Nb- 81 1.5- 4.4E-08 s 100
p:50.00; β+:50.00
0
1.835E+06 1.835E+06 3.755E+05 NUBASE
1070 41-Nb- 82 0.0+ 0.05 s 10
β+:100.00
3
4.839E+06 1.020E+06 1.496E+03 ENSDF
1071 41-Nb- 83 2.5+ 4.1 s 7.32
β+:100.00
0
2.500E+06 2.500E+06 NUBASE
1072 41-Nb- 84 3.0+ 12 s 25
β+:100.00
4
3.831E+06 1.728E+06 ENSDF
1073 41-Nb- 85 4.5+ 20.9 s 3.35
β+:100.00
0
2.000E+06 2.000E+06 NUBASE
1074 41-Nb- 85M 0.5- 7.590E+05 12 s 41.67
β+m:100.00
0
2.156E+06 2.156E+06 NUBASE
1075 41-Nb- 86 6.0+ 1.467 m 1.14
β+:100.00
0
2.657E+06 2.657E+06 NUBASE
1076 41-Nb- 86M ? 2.500E+05 56 s 14.29
β+:100.00
0
2.740E+06 2.740E+06 NUBASE
1077 41-Nb- 87 0.5- 3.75 m 2.40
β+:100.00
4
1.774E+06 1.220E+06 ENSDF
1078 41-Nb- 87M 4.5+ 3.840E+03 2.6 m 3.85
β+:100.00
4
1.390E+06 1.767E+06 ENSDF
1079 41-Nb- 88 8.0+ 14.5 m 0.69
β+:100.00
0
2.518E+06 2.518E+06 NUBASE
1080 41-Nb- 88M 4.0- 3.900E+05 7.8 m 1.28
β+:100.00
0
2.648E+06 2.648E+06 NUBASE
1081 41-Nb- 89 4.5+ 2.03 h 3.45
β+:98.77; β+
m:1.23
4
1.105E+06 1.365E+06 ENSDF
1082 41-Nb- 89M 0.5- 1.1 h 3.03
β+m:100.00
0
1.210E+06 1.210E+06 NUBASE
1083 41-Nb- 90 8.0+ 14.6 h 0.34
β+:1.81; β+
m:98.19
0
1.278E+06 1.278E+06 NUBASE
1084 41-Nb- 90M 4.0- 1.247E+05 18.81 s 0.32
IT:100.00
0
1.247E+05 NUBASE
1085 41-Nb- 90N 1.0+ 3.820E+05 6.19E-03 s 1.29
ITm:100.00
0
2.573E+05 NUBASE
1086 41-Nb- 91 4.5+ 680.016 y 19.12
β+:100.00
3
5.880E+03 1.257E+04 UKPADD67
1087 41-Nb- 91M 0.5- 1.045E+05 60.9 d 0.33
IT:97.60; β+:2.40
4
9.346E+04 3.803E+04 UKPADD67
1088 41-Nb- 92 7.0+ 3.5E+07 y 8.57
β+:100.00
4
7.932E+03 1.503E+06 UKPADD67
1089 41-Nb- 92M 2.0+ 1.355E+05 10.15 d 0.20
β+:100.00
4
6.447E+03 9.704E+05 UKPADD67
1090 41-Nb- 93 4.5+
NUBASE
1091 41-Nb- 93M 0.5- 3.080E+04 16.126 y 0.85
IT:100.00
3
2.896E+04 1.955E+03 UKPADD67
1092 41-Nb- 94 6.0+ 1.999E+04 y 12.33
β-:100.00
4
1.683E+05 1.572E+06 UKPADD67
1093 41-Nb- 94M 3.0+ 4.095E+04 6.26 m 0.16
β-:0.50; IT:99.50
4
3.509E+04 1.227E+04 UKPADD67
1094 41-Nb- 95 4.5+ 34.991 d 0.02
β-:100.00
4
4.452E+04 7.645E+05 LNHB
1095 41-Nb- 95M 0.5- 2.357E+05 3.608 d 0.92
β-:5.60; IT:94.40
4
1.787E+05 7.069E+04 ENSDF
1096 41-Nb- 96 6.0+ 23.35 h 0.21
β-:100.00
4
2.502E+05 2.446E+06 UKPADD67
1097 41-Nb- 97 4.5+ 1.202 h 0.97
β-:100.00
4
4.684E+05 6.642E+05 ENSDF
1098 41-Nb- 97M 0.5- 7.434E+05 52.7 s 3.42
IT:100.00
3
1.440E+04 7.280E+05 ENSDF
1099 41-Nb- 98 1.0+ 2.86 s 2.10
β-:100.00
4
1.965E+06 3.245E+05 ENSDF
1100 41-Nb- 98M 5.0+ 8.400E+04 51.3 m 0.78
β-:100.00
4
7.714E+05 2.782E+06 ENSDF
1101 41-Nb- 99 4.5+ 15 s 1.33
β-:100.00
4
1.514E+06 1.743E+05 ENSDF
1102 41-Nb- 99M 0.5- 3.653E+05 2.6 m 7.69
β-:98.00; IT:2.00
4
1.416E+06 6.504E+05 ENSDF
1103 41-Nb-100 1.0+ 1.5 s 13.33
β-:100.00
4
2.493E+06 7.082E+05 ENSDF
1104 41-Nb-100M 4.0+ 4.800E+05 2.9 s 6.90
β-:100.00
4
2.047E+06 2.064E+06 UKPADD67
1105 41-Nb-101 2.5+ 7.1 s 4.23
β-:100.00
4
1.863E+06 2.446E+05 ENSDF
1106 41-Nb-102 1.0+ 1.3 s 15.38
β-:100.00
0
2.402E+06 2.402E+06 NUBASE
1107 41-Nb-102M ? 1.300E+05 4.3 s 9.30
β-:100.00
2
2.276E+06 2.094E+06 ENSDF
1108 41-Nb-103 2.5+ 1.5 s 13.33
β-:100.00
0
1.843E+06 1.843E+06 NUBASE
1109 41-Nb-104 1.0+ 4.9 s 6.12
β-:99.94; β-,n:0.06
0
2.702E+06 2.702E+06 8.381E+01 NUBASE
1110 41-Nb-104M ? 2.200E+05 0.94 s 4.26
β-:99.95; β-,n:0.05
0
2.775E+06 2.775E+06 9.734E+01 NUBASE
1111 41-Nb-105 2.5+ 2.95 s 2.03
β-:98.30; β-,n:1.70
0
2.133E+06 2.133E+06 5.987E+03 NUBASE
78 THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009
MAIN DATA TABLES
Matn Nuclide
SpPa
Exc ener
Half-life (%-err)
Decay modes (%)
Nsp
<β> (eV)
<γ> (eV)
<α>
(eV)
Source
1112 41-Nb-106 2.0+ 0.92 s 4.35
β-:95.50; β-,n:4.50
0
2.939E+06 2.939E+06 2.440E+04 NUBASE
1113 41-Nb-107 2.5+ 0.3 s 3
β-:94.00; β-,n:6.00
0
2.562E+06 2.562E+06 4.896E+04 NUBASE
1114 41-Nb-108 2.0+ 0.193 s 8.81
β-:93.80; β-,n:6.20
0
3.379E+06 3.379E+06 6.461E+04 NUBASE
1115 41-Nb-109 2.5+ 0.19 s 31.58
β-:87.35; β-,n:12.65
3
3.158E+06 2.263E+06 6.840E+04 UKPADD67
1116 41-Nb-110 2.0+ 0.17 s 11.76
β-:60.00; β-,n:40.00
0
2.924E+06 2.924E+06 5.559E+05 NUBASE
1117 41-Nb-111 2.5+ 0.08 s 100
β-:100.00
0
3.490E+06 3.490E+06 NUBASE
1118 41-Nb-112 2.0+ 0.06 s 100
β-:100.00
0
4.343E+06 4.343E+06 NUBASE
1119 41-Nb-113 2.5+ 0.03 s 100
β-:100.00
0
3.980E+06 3.980E+06 NUBASE
1120 42-Mo- 83 1.5- 0.023 s 82.61
β+:100.00
0
3.737E+06 3.737E+06 NUBASE
1121 42-Mo- 84 0.0+ 3.8E-03 s 23.68
β+:100.00
0
2.023E+06 2.023E+06 NUBASE
1122 42-Mo- 85 0.5- 3.2 s 6.25
β+m:100.00
0
2.430E+06 2.430E+06 NUBASE
1123 42-Mo- 86 0.0+ 19.6 s 5.61
β+:50.00; β+
m:50.00
0
1.715E+06 1.715E+06 NUBASE
1124 42-Mo- 87 3.5+ 14.02 s 1.85
β+:100.00
4
2.322E+03 1.239E+06 ENSDF
1125 42-Mo- 88 0.0+ 8 m 2.50
β+:50.00; β+
m:50.00
0
1.058E+06 1.058E+06 NUBASE
1126 42-Mo- 89 4.5+ 2.11 m 4.74
β+:100.00
4
1.955E+06 1.226E+06 ENSDF
1127 42-Mo- 89M 0.5- 3.875E+05 0.19 s 7.89
IT:100.00
0
3.875E+05 NUBASE
1128 42-Mo- 90 0.0+ 5.56 h 1.62
β+:6.70; β+
n:93.30
0
7.109E+05 7.109E+05 NUBASE
1129 42-Mo- 91 4.5+ 15.49 m 0.06
β+:99.97; β+
m:0.03
4
1.451E+06 9.776E+05 ENSDF
1130 42-Mo- 91M 0.5- 6.529E+05 1.077 m 0.93
β+m:50.00; IT:50.00
4
5.563E+05 1.387E+06 ENSDF
1131 42-Mo- 92 0.0+ 1.9E+20 y 100
2β+:100.00
0
1.649E+06 NUBASE
1132 42-Mo- 93 2.5+ 4000.009 y 20
β+:12.00; β+
m:88.00
4
5.086E+03 1.073E+04 LNHB
1133 42-Mo- 93M 10.5+ 2.425E+06 6.85 h 1.02
β+:0.12; IT:99.88
4
1.072E+05 2.318E+06 UKPADD67
1134 42-Mo- 94 0.0+
NUBASE
1135 42-Mo- 95 2.5+
NUBASE
1136 42-Mo- 96 0.0+
NUBASE
1137 42-Mo- 97 2.5+
NUBASE
1138 42-Mo- 98 0.0+ 1E+14 y 100
2β-:100.00
0
1.120E+05 ENSDF
1139 42-Mo- 99 0.5+ 2.748 d 0.02
β-:11.94; β-
m:88.06
4
3.937E+05 1.484E+05 ENSDF
1140 42-Mo-100 0.0+ 9.9E+18 y 7.07
2β-:100.00
0
3.034E+06 ENSDF
1141 42-Mo-101 0.5+ 14.61 m 0.21
β-:100.00
4
5.433E+05 1.424E+06 ENSDF
1142 42-Mo-102 0.0+ 11.3 m 1.77
β-:100.00
2
3.491E+05 1.845E+04 ENSDF
1143 42-Mo-103 1.5+ 1.132 m 0.88
β-:100.00
4
1.316E+06 6.362E+05 UKPADD67
1144 42-Mo-104 0.0+ 1 m 3.33
β-:100.00
0
7.200E+05 7.200E+05 NUBASE
1145 42-Mo-105 2.5- 35.6 s 4.49
β-:100.00
4
1.922E+06 5.515E+05 ENSDF
1146 42-Mo-106 0.0+ 8.73 s 1.37
β-:100.00
0
1.173E+06 1.173E+06 NUBASE
1147 42-Mo-107 3.5- 3.5 s 14.29
β-:100.00
0
2.053E+06 2.053E+06 NUBASE
1148 42-Mo-108 0.0+ 1.09 s 1.83
β-:100.00
0
1.550E+06 1.550E+06 NUBASE
1149 42-Mo-109 2.5+ 0.5 s 40
β-:99.47; β-,n:0.53
3
2.675E+06 1.876E+06 9.118E+02 UKPADD67
1150 42-Mo-110 0.0+ 0.3 s 13.33
β-:100.00
0
1.833E+06 1.833E+06 NUBASE
1151 42-Mo-111 2.5+ 0.5 s 40
β-:98.97; β-,n:1.03
3
3.098E+06 2.413E+06 3.572E+03 UKPADD67
1152 42-Mo-112 0.0+ 1 s 20
β-:97.92; β-,n:2.08
3
2.552E+06 1.354E+06 7.960E+03 UKPADD67
1153 42-Mo-113 ? 0.1 s 100
β-:100.00
0
3.193E+06 3.193E+06 NUBASE
1154 42-Mo-114 0.0+ 0.08 s 100
β-:100.00
0
2.807E+06 2.807E+06 NUBASE
THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009 79
MAIN DATA TABLES
Matn Nuclide
SpPa
Exc ener
Half-life (%-err)
Decay modes (%)
Nsp
<β> (eV)
<γ> (eV)
<α>
(eV)
Source
1155 42-Mo-115 ? 0.06 s 100
β-:100.00
0
3.600E+06 3.600E+06 NUBASE
1156 43-Tc- 85 0.5- 1.1E-07 s 100
p:50.00; β+:50.00
0
1.905E+06 1.905E+06 4.255E+05 NUBASE
1157 43-Tc- 86 0.0+ 0.055 s 10.91
β+:100.00
0
3.783E+06 3.783E+06 NUBASE
1158 43-Tc- 87 0.5- 2.2 s 9.09
β+:100.00
0
2.857E+06 2.857E+06 NUBASE
1159 43-Tc- 87M 4.5+ 2.000E+04 2 s 100
β+:50.00; IT:50.00
0
1.432E+06 1.442E+06 NUBASE
1160 43-Tc- 88 ? 5.8 s 3.45
β+:100.00
0
3.330E+06 3.330E+06 NUBASE
1161 43-Tc- 88M ? 6.4 s 12.50
β+:100.00
0
3.330E+06 3.330E+06 NUBASE
1162 43-Tc- 89 4.5+ 12.8 s 7.03
β+:50.00; β+
m:50.00
0
2.323E+06 2.323E+06 NUBASE
1163 43-Tc- 89M 0.5- 6.260E+04 12.9 s 6.20
β+:49.99; β+
m:49.99;
IT:0.01
0
2.344E+06 2.344E+06 NUBASE
1164 43-Tc- 90 1.0+ 8.7 s 2.30
β+:100.00
4
3.348E+06 1.751E+06 ENSDF
1165 43-Tc- 90M 8.0+ 3.100E+05 49.2 s 0.81
β+:100.00
0
3.089E+06 3.089E+06 NUBASE
1166 43-Tc- 91 4.5+ 3.14 m 0.64
β+:99.32; β+
m:0.68
0
2.073E+06 2.073E+06 NUBASE
1167 43-Tc- 91M 0.5- 1.393E+05 3.3 m 3.03
β+:2.46; β+
m:96.54;
IT:1.00
0
1.890E+06 1.891E+06 NUBASE
1168 43-Tc- 92 8.0+ 4.25 m 3.53
β+:100.00
0
2.623E+06 2.623E+06 NUBASE
1169 43-Tc- 93 4.5+ 2.75 h 1.82
β+:100.00
4
4.309E+04 1.568E+06 ENSDF
1170 43-Tc- 93M 0.5- 3.918E+05 43.5 m 2.30
β+:23.40; IT:76.60
4
9.077E+04 8.077E+05 ENSDF
1171 43-Tc- 94 7.0+ 4.883 h 0.34
β+:100.00
4
4.314E+04 2.649E+06 ENSDF
1172 43-Tc- 94M 2.0+ 7.550E+04 52 m 1.92
β+:100.00
4
7.540E+05 1.930E+06 ENSDF
1173 43-Tc- 95 4.5+ 20 h 0.50
β+:100.00
4
6.296E+03 7.965E+05 ENSDF
1174 43-Tc- 95M 0.5- 3.890E+04 61 d 3.28
β+:96.12; IT:3.88
4
1.477E+04 6.885E+05 ENSDF
1175 43-Tc- 96 7.0+ 4.28 d 1.64
β+:100.00
4
5.306E+03 2.503E+06 ENSDF
1176 43-Tc- 96M 4.0+ 3.428E+04 51.5 m 1.94
IT:98.00; β+:2.00
0
2.005E+04 5.365E+04 NUBASE
1177 43-Tc- 97 4.5+ 2.6E+06 y 15.38
β+:100.00
3
5.653E+03 1.168E+04 UKPADD67
1178 43-Tc- 97M 0.5- 9.660E+04 90.2 d 1.22
IT:100.00
3
8.704E+04 9.496E+03 UKPADD67
1179 43-Tc- 98 6.0+ 4.2E+06 y 7.14
β-:100.00
2
1.180E+05 1.413E+06 ENSDF
1180 43-Tc- 99 4.5+ 2.14E+05 y 3.74
β-:100.00
4
8.540E+04 7.040E-01 LNHB
1181 43-Tc- 99M 0.5- 1.427E+05 6.01 h 0.17
IT:100.00; β-:~
4
1.549E+04 1.265E+05 ENSDF
1182 43-Tc-100 1.0+ 15.8 s 0.63
β-:100.00
4
1.315E+06 8.272E+04 ENSDF
1183 43-Tc-101 4.5+ 14.2 m 0.70
β-:100.00
4
4.786E+05 3.359E+05 ENSDF
1184 43-Tc-102 1.0+ 5.28 s 2.84
β-:100.00
2
1.945E+06 8.076E+04 ENSDF
1185 43-Tc-102M ? 2.000E+04 4.35 m 1.61
β-:100.00
2
7.798E+05 2.511E+06 ENSDF
1186 43-Tc-103 2.5+ 54.2 s 1.48
β-:100.00
4
9.794E+05 2.484E+05 ENSDF
1187 43-Tc-104 3.0+ 18.3 m 1.64
β-:100.00
4
1.595E+06 1.890E+06 ENSDF
1188 43-Tc-105 1.5- 7.6 m 1.32
β-:100.00
2
1.310E+06 6.684E+05 ENSDF
1189 43-Tc-106 ? 36 s 2.78
β-:100.00
4
1.943E+06 2.191E+06 ENSDF
1190 43-Tc-107 1.5- 21.2 s 0.94
β-:100.00
4
2.056E+06 5.148E+05 ENSDF
1191 43-Tc-108 2.0+ 5.17 s 1.35
β-:100.00
0
2.573E+06 2.573E+06 NUBASE
1192 43-Tc-109 1.5- 0.86 s 4.65
β-:99.92; β-,n:0.08
0
2.102E+06 2.102E+06 2.117E+02 NUBASE
1193 43-Tc-110 2.0+ 0.92 s 3.26
β-:99.96; β-,n:0.04
0
3.006E+06 3.006E+06 1.819E+02 NUBASE
1194 43-Tc-111 1.5- 0.29 s 6.90
β-:100.00
4
3.219E+06 4.054E+05 ENSDF
1195 43-Tc-112 2.0+ 0.29 s 6.90
β-:98.50; β-,n:1.50
0
3.122E+06 3.122E+06 9.745E+03 NUBASE
80 THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009
MAIN DATA TABLES
Matn Nuclide
SpPa
Exc ener
Half-life (%-err)
Decay modes (%)
Nsp
<β> (eV)
<γ> (eV)
<α>
(eV)
Source
1196 43-Tc-113 2.5+ 0.13 s 30.77
β-:92.81; β-,n:7.19
3
2.732E+06 1.822E+06 3.352E+04 UKPADD67
1197 43-Tc-114 2.0+ 0.2 s 20
β-:93.46; β-,n:6.54
3
3.578E+06 3.257E+06 3.288E+04 UKPADD67
1198 43-Tc-115 2.5+ 0.27 s 18.52
β-:85.66; β-,n:14.34
3
2.995E+06 2.162E+06 7.974E+04 UKPADD67
1199 43-Tc-116 2.0+ 0.12 s 16.67
β-:87.78; β-,n:12.22
3
3.693E+06 3.495E+06 7.173E+04 UKPADD67
1200 43-Tc-117 1.5- 0.04 s 100
β-:100.00
0
3.387E+06 3.387E+06 NUBASE
1201 43-Tc-118 2.0+ 0.03 s 100
β-:100.00
0
4.240E+06 4.240E+06 NUBASE
1202 44-Ru- 87 0.5- 0.05 s 100
β+:100.00
0
3.927E+06 3.927E+06 NUBASE
1203 44-Ru- 88 0.0+ 1.3 s 23.08
β+:50.00; β+
m:50.00
0
2.353E+06 2.353E+06 NUBASE
1204 44-Ru- 89 3.5+ 1.38 s 7.97
β+:50.00; β+
m:50.00
0
2.766E+06 2.766E+06 NUBASE
1205 44-Ru- 90 0.0+ 11 s 27.27
β+:50.00; β+
m:50.00
0
1.915E+06 1.915E+06 NUBASE
1206 44-Ru- 91 4.5+ 9 s 11.11
β+:100.00
0
2.440E+06 2.440E+06 NUBASE
1207 44-Ru- 91M 0.5- 4.000E+05 7.6 s 10.53
β+m:100.00
0
2.527E+06 2.527E+06 NUBASE
1208 44-Ru- 92 0.0+ 3.65 m 1.37
β+:100.00
0
1.508E+06 1.508E+06 NUBASE
1209 44-Ru- 93 4.5+ 59.7 s 1.01
β+:100.00
4
2.340E+06 1.131E+06 ENSDF
1210 44-Ru- 93M 0.5- 7.344E+05 10.8 s 2.78
β+m:77.97; IT:22.00;
β+,p:0.03
0
1.735E+06 1.897E+06 2.012E+02 NUBASE
1211 44-Ru- 94 0.0+ 51.8 m 1.16
β+m:100.00
4
5.005E+03 5.195E+05 ENSDF
1212 44-Ru- 95 2.5+ 1.643 h 0.85
β+:97.39; β+
m:2.61
4
8.172E+04 1.238E+06 ENSDF
1213 44-Ru- 96 0.0+ 6.7E+16 y 100
2β+:100.00
0
2.718E+06 NUBASE
1214 44-Ru- 97 2.5+ 2.9 d 3.45
β+:99.96; β+
m:0.04
4
1.233E+04 2.407E+05 ENSDF
1215 44-Ru- 98 0.0+
NUBASE
1216 44-Ru- 99 2.5+
NUBASE
1217 44-Ru-100 0.0+
NUBASE
1218 44-Ru-101 2.5+
NUBASE
1219 44-Ru-102 0.0+
NUBASE
1220 44-Ru-103 1.5+ 39.26 d 0.05
β-:1.20; β-
m:98.80
4
6.656E+04 4.961E+05 ENSDF
1221 44-Ru-103M 5.5- 2.380E+05 1.69E-03 s 4.14
IT:100.00
3
2.249E+04 2.159E+05 ENSDF
1222 44-Ru-104 0.0+
NUBASE
1223 44-Ru-105 1.5+ 4.44 h 0.45
β-:71.61; β-
m:28.39
4
4.400E+05 7.478E+05 ENSDF
1224 44-Ru-106 0.0+ 1.02 y 0.27
β-:100.00
1
1.010E+04 LNHB
1225 44-Ru-107 2.5+ 3.75 m 1.33
β-:100.00
4
1.084E+06 3.453E+05 ENSDF
1226 44-Ru-108 0.0+ 4.55 m 1.10
β-:100.00
0
4.500E+05 4.500E+05 NUBASE
1227 44-Ru-109 2.5+ 34.5 s 1.45
β-:100.00
4
1.044E+06 1.664E+06 ENSDF
1228 44-Ru-110 0.0+ 11.6 s 5.17
β-:100.00
4
1.157E+06 3.472E+04 ENSDF
1229 44-Ru-111 2.5+ 2.12 s 3.30
β-:100.00
0
1.896E+06 1.896E+06 NUBASE
1230 44-Ru-112 0.0+ 1.75 s 4
β-:100.00
0
1.420E+06 1.420E+06 NUBASE
1231 44-Ru-113 2.5+ 0.8 s 7.50
β-:100.00
4
2.695E+06 5.828E+05 ENSDF
1232 44-Ru-113M 5.5- 1.300E+05 0.51 s 5.88
IT:50.00; β-:50.00
0
1.102E+06 1.167E+06 NUBASE
1233 44-Ru-114 0.0+ 0.53 s 11.32
β-:100.00
0
1.700E+06 1.700E+06 NUBASE
1234 44-Ru-115 2.5+ 0.7 s 28.57
β-:99.77; β-,n:0.23
3
2.538E+06 1.806E+06 6.150E+02 UKPADD67
1235 44-Ru-116 0.0+ 1.7 s 17.65
β-:98.92; β-,n:1.08
3
1.843E+06 9.860E+05 3.609E+03 UKPADD67
1236 44-Ru-117 2.5+ 0.34 s 20.59
β-:97.95; β-,n:2.05
3
2.697E+06 2.026E+06 8.306E+03 UKPADD67
1237 44-Ru-118 0.0+ 0.7 s 28.57
β-:95.89; β-,n:4.11
3
2.094E+06 1.118E+06 1.780E+04 UKPADD67
THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009 81
MAIN DATA TABLES
Matn Nuclide
SpPa
Exc ener
Half-life (%-err)
Decay modes (%)
Nsp
<β> (eV)
<γ> (eV)
<α>
(eV)
Source
1238 44-Ru-119 2.5+ 0.19 s 21.05
β-:95.64; β-,n:4.36
3
2.920E+06 2.311E+06 2.066E+04 UKPADD67
1239 44-Ru-120 0.0+ 0.08 s 100
β-:100.00
0
2.763E+06 2.763E+06 NUBASE
1240 45-Rh- 89 3.5+ 0.01 s 100
β+:100.00
0
3.950E+06 3.950E+06 NUBASE
1241 45-Rh- 90 0.0+ 0.015 s 46.67
β+:100.00
0
4.030E+06 4.030E+06 NUBASE
1242 45-Rh- 90M 9.0+ 1.1E-03 s 27.27
β+:100.00
0
4.030E+06 4.030E+06 NUBASE
1243 45-Rh- 91 3.5+ 1.74 s 8.05
β+:100.00
0
3.187E+06 3.187E+06 NUBASE
1244 45-Rh- 92 6.0+ 4.3 s 30.23
β+:100.00
0
3.683E+06 3.683E+06 NUBASE
1245 45-Rh- 93 4.5+ 13.9 s 11.51
β+:50.00; β+
m:50.00
0
2.578E+06 2.578E+06 NUBASE
1246 45-Rh- 94 3.0+ 1.177 m 0.85
β+:100.00
4
2.883E+06 3.307E+06 ENSDF
1247 45-Rh- 94M 8.0+ 3.000E+05 25.8 s 0.78
β+:100.00
4
2.812E+06 3.663E+06 ENSDF
1248 45-Rh- 95 4.5+ 5.02 m 1.99
β+:100.00
0
1.703E+06 1.703E+06 NUBASE
1249 45-Rh- 95M 0.5- 5.433E+05 1.96 m 2.04
IT:88.00; β+:12.00
0
2.261E+05 7.042E+05 NUBASE
1250 45-Rh- 96 6.0+ 9.9 m 1.01
β+:100.00
0
2.131E+06 2.131E+06 NUBASE
1251 45-Rh- 96M 3.0+ 5.200E+04 1.51 m 1.32
IT:60.00; β+:40.00
0
8.593E+05 8.905E+05 NUBASE
1252 45-Rh- 97 4.5+ 30.7 m 1.95
β+:100.00
4
5.208E+05 1.355E+06 ENSDF
1253 45-Rh- 97M 0.5- 2.588E+05 46.2 m 3.46
β+:94.40; IT:5.60
4
1.866E+05 2.092E+06 ENSDF
1254 45-Rh- 98 2.0+ 8.72 m 1.38
β+:100.00
4
1.321E+06 1.774E+06 ENSDF
1255 45-Rh- 98M 5.0+ 6.000E+04 3.6 m 5.56
IT:89.00; β+:11.00
0
1.873E+05 2.407E+05 NUBASE
1256 45-Rh- 99 0.5- 16.1 d 1.24
β+:100.00
0
6.810E+05 6.810E+05 NUBASE
1257 45-Rh- 99M 4.5+ 6.430E+04 4.7 h 2.13
β+:99.84; IT:0.16
0
7.013E+05 7.014E+05 NUBASE
1258 45-Rh-100 1.0- 20.8 h 0.48
β+:100.00
4
4.597E+04 2.742E+06 ENSDF
1259 45-Rh-100M 5.0+ 1.076E+05 4.6 m 4.35
IT:98.30; β+:1.70
0
2.121E+04 1.270E+05 NUBASE
1260 45-Rh-101 0.5- 3.2 y 9.38
β+:100.00
4
2.804E+04 3.123E+05 UKPADD67
1261 45-Rh-101M 4.5+ 1.573E+05 4.34 d 0.23
β+:92.56; IT:7.44
4
2.017E+04 3.056E+05 UKPADD67
1262 45-Rh-102 6.0+ 2.902 y 1.42
β+:100.00
4
1.216E+04 2.122E+06 UKPADD67
1263 45-Rh-102M 2.0- 7.000E+04 208 d 1.92
β-:20.00; β+:75.00;
IT:5.00
5
1.736E+05 4.932E+05 UKPADD67
1264 45-Rh-103 0.5-
NUBASE
1265 45-Rh-103M 3.5+ 3.976E+04 56.114 m 100
IT:100.00
3
3.581E+04 1.686E+03 LNHB
1266 45-Rh-104 1.0+ 42.3 s 0.95
β-:99.55; β+:0.45
5
9.805E+05 1.502E+04 UKPADD67
1267 45-Rh-104M 5.0+ 1.290E+05 4.34 m 0.69
β-:0.13; IT:99.87
4
8.620E+04 4.552E+04 UKPADD67
1268 45-Rh-105 3.5+ 1.473 d 0.17
β-:100.00
4
1.535E+05 7.727E+04 ENSDF
1269 45-Rh-105M 0.5- 1.296E+05 40 s 100
IT:100.00
3
9.242E+04 3.459E+04 ENSDF
1270 45-Rh-106 1.0+ 30 s 0.67
β-:100.00
4
1.411E+06 2.043E+05 LNHB
1271 45-Rh-106M 6.0+ 1.370E+05 2.2 h 2.27
β-:100.00
4
3.216E+05 2.759E+06 UKPADD67
1272 45-Rh-107 3.5+ 21.7 m 1.84
β-:100.00
4
4.321E+05 3.119E+05 ENSDF
1273 45-Rh-108 1.0+ 16.8 s 2.98
β-:100.00
2
1.854E+06 3.171E+05 ENSDF
1274 45-Rh-108M 5.0+ 6 m 5
β-:100.00
0
1.501E+06 1.501E+06 NUBASE
1275 45-Rh-109 3.5+ 1.333 m 2.50
β-:50.00; β-
m:50.00
0
8.338E+05 8.338E+05 NUBASE
1276 45-Rh-110 4.0+ 28.5 s 5.26
β-:100.00
4
1.182E+06 2.554E+06 UKPADD67
1277 45-Rh-110M 1.0+ 1.000E+05 3.2 s 6.25
β-:100.00
4
2.266E+06 3.360E+05 UKPADD67
1278 45-Rh-111 3.5+ 12 s 8.33
β-:100.00
4
1.389E+06 3.570E+05 UKPADD67
1279 45-Rh-112 1.0+ 2.1 s 14.29
β-:100.00
2
2.873E+06 1.924E+05 ENSDF
82 THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009
MAIN DATA TABLES
Matn Nuclide
SpPa
Exc ener
Half-life (%-err)
Decay modes (%)
Nsp
<β> (eV)
<γ> (eV)
<α>
(eV)
Source
1280 45-Rh-112M ? 3.600E+05 6.8 s 2.94
β-:100.00
2
1.909E+06 2.261E+06 ENSDF
1281 45-Rh-113 3.5+ 2.8 s 4.29
β-:100.00
0
1.670E+06 1.670E+06 NUBASE
1282 45-Rh-114 1.0+ 1.85 s 2.70
β-:100.00
4
1.957E+06 4.068E+05 ENSDF
1283 45-Rh-114M ? 2.000E+05 1.85 s 2.70
β-:100.00
0
2.689E+06 2.689E+06 NUBASE
1284 45-Rh-115 3.5+ 0.99 s 5.05
β-:85.48; β-
m:14.52
0
2.059E+06 2.059E+06 NUBASE
1285 45-Rh-116 1.0+ 0.68 s 8.82
β-:100.00
4
3.445E+06 7.345E+05 ENSDF
1286 45-Rh-116M 6.0- 1.500E+05 0.57 s 8.77
β-:100.00
2
2.611E+06 2.167E+06 ENSDF
1287 45-Rh-117 3.5+ 0.44 s 9.09
β-:100.00
0
2.527E+06 2.527E+06 NUBASE
1288 45-Rh-118 1.0+ 0.32 s 18.75
β-:97.08; β-,n:2.92
3
3.094E+06 2.494E+06 1.216E+04 UKPADD67
1289 45-Rh-119 3.5+ 0.3 s 100
β-:100.00
0
2.793E+06 2.793E+06 NUBASE
1290 45-Rh-120 3.5+ 0.17 s 17.65
β-:94.07; β-,n:5.93
3
3.261E+06 2.837E+06 2.919E+04 UKPADD67
1291 45-Rh-121 3.5+ 0.25 s 20
β-:86.43; β-,n:13.57
3
2.671E+06 1.852E+06 7.406E+04 UKPADD67
1292 45-Rh-122 ? 0.05 s 100
β-:100.00
0
3.930E+06 3.930E+06 NUBASE
1293 46-Pd- 91 3.5+ 0.01 s 100
β+:100.00
0
3.900E+06 3.900E+06 NUBASE
1294 46-Pd- 92 0.0+ 1.1 s 27.27
β+:100.00
0
2.620E+06 2.620E+06 NUBASE
1295 46-Pd- 93 4.5+ 1.07 s 11.21
β+:100.00
0
3.157E+06 3.157E+06 NUBASE
1296 46-Pd- 94 0.0+ 9 s 5.56
β+:100.00
0
2.197E+06 2.197E+06 NUBASE
1297 46-Pd- 95 4.5+ 10 s 100
β+:50.00; β+
m:50.00
0
2.639E+06 2.639E+06 NUBASE
1298 46-Pd- 95M 10.5+ 1.870E+06 13.3 s 2.26
β+:94.10; IT:5.00;
β+,p:0.90
0
3.171E+06 3.265E+06 1.575E+04 NUBASE
1299 46-Pd- 96 0.0+ 2.033 m 1.64
β+m:100.00
4
2.213E+05 1.436E+06 ENSDF
1300 46-Pd- 97 2.5+ 3.1 m 2.90
β+:98.31; β+
m:1.69
4
7.700E+05 2.205E+06 ENSDF
1301 46-Pd- 98 0.0+ 17.7 m 1.69
β+:100.00
4
4.382E+04 4.160E+05 ENSDF
1302 46-Pd- 99 2.5+ 21.4 m 0.93
β+:2.95; β+
m:97.05
4
4.243E+05 1.260E+06 ENSDF
1303 46-Pd-100 0.0+ 3.63 d 2.48
β+:100.00
4
4.327E+04 1.228E+05 ENSDF
1304 46-Pd-101 2.5+ 8.47 h 0.71
β+:0.27; β+
m:99.73
4
3.117E+04 3.509E+05 ENSDF
1305 46-Pd-102 0.0+
NUBASE
1306 46-Pd-103 2.5+ 16.98 d 0.12
β+:0.03; β+
m:99.97
4
5.883E+03 1.468E+04 UKPADD67
1307 46-Pd-104 0.0+
NUBASE
1308 46-Pd-105 2.5+
NUBASE
1309 46-Pd-106 0.0+
NUBASE
1310 46-Pd-107 2.5+ 6.5E+06 y 4.62
β-:100.00
1
9.300E+03 ENSDF
1311 46-Pd-107M 5.5- 2.149E+05 21.3 s 2.35
IT:100.00
3
6.269E+04 1.518E+05 ENSDF
1312 46-Pd-108 0.0+
NUBASE
1313 46-Pd-109 2.5+ 13.701 h 0.02
β-:0.05; β-
m:99.95
4
3.608E+05 6.445E+02 ENSDF
1314 46-Pd-109M 5.5- 1.889E+05 4.69 m 0.21
IT:100.00
3
7.622E+04 1.113E+05 ENSDF
1315 46-Pd-110 0.0+ 6E+17 y 100
2β-:100.00
0
2.000E+06 ENSDF
1316 46-Pd-111 2.5+ 23.4 m 0.85
β-:0.70; β-
m:99.30
4
8.319E+05 4.625E+04 ENSDF
1317 46-Pd-111M 5.5- 1.722E+05 5.5 h 1.82
IT:73.00; β-:7.81;
β-m:19.19
0
2.112E+05 3.369E+05 NUBASE
1318 46-Pd-112 0.0+ 20.3 h 0.99
β-:100.00
4
8.990E+04 5.248E+03 UKPADD67
1319 46-Pd-113 2.5+ 1.517 m 2.20
β-m:95.00; β-:5.00
4
1.330E+06 1.275E+05 UKPADD67
1320 46-Pd-113M 4.5- 8.110E+04 0.3 s 33.33
IT:100.00
3
5.942E+04 2.140E+04 UKPADD67
THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009 83
MAIN DATA TABLES
Matn Nuclide
SpPa
Exc ener
Half-life (%-err)
Decay modes (%)
Nsp
<β> (eV)
<γ> (eV)
<α>
(eV)
Source
1321 46-Pd-114 0.0+ 2.42 m 2.48
β-:100.00
4
5.329E+05 2.590E+04 ENSDF
1322 46-Pd-115 2.5+ 25 s 8
β-:73.00; β-
m:27.00
0
1.526E+06 1.526E+06 NUBASE
1323 46-Pd-115M 5.5- 8.918E+04 50 s 6
β-m:92.00; IT:8.00
0
1.422E+06 1.429E+06 NUBASE
1324 46-Pd-116 0.0+ 11.8 s 3.39
β-:100.00
4
1.003E+06 1.571E+05 ENSDF
1325 46-Pd-117 2.5+ 4.3 s 6.98
β-:50.00; β-
m:50.00
0
1.909E+06 1.909E+06 NUBASE
1326 46-Pd-117M 5.5- 2.032E+05 0.019 s 3.66
IT:100.00
3
7.585E+04 1.302E+05 ENSDF
1327 46-Pd-118 0.0+ 1.9 s 5.26
β-:85.70; β-
m:14.30
4
1.580E+06 4.217E+05 ENSDF
1328 46-Pd-119 ? 0.92 s 14.13
β-:50.00; β-
m:50.00
0
2.310E+06 2.310E+06 NUBASE
1329 46-Pd-120 0.0+ 0.5 s 20
β-:50.00; β-
m:50.00
0
1.800E+06 1.800E+06 NUBASE
1330 46-Pd-121 2.5+ 0.6 s 16.67
β-:99.73; β-,n:0.27
3
2.335E+06 1.638E+06 7.481E+02 UKPADD67
1331 46-Pd-122 0.0+ 0.3 s 100
β-:100.00
0
2.180E+06 2.180E+06 NUBASE
1332 46-Pd-123 ? 0.2 s 100
β-:100.00
0
3.117E+06 3.117E+06 NUBASE
1333 46-Pd-124 0.0+ 0.1 s 100
β-:100.00
0
2.557E+06 2.557E+06 NUBASE
1334 47-Ag- 93 4.5+ 5E-03 s 100
p:50.00; β+:50.00
0
2.153E+06 2.153E+06 7.155E+05 NUBASE
1335 47-Ag- 94 0.0+ 0.037 s 48.65
β+:100.00
0
4.350E+06 4.350E+06 NUBASE
1336 47-Ag- 94M 7.0+ 1.350E+06 0.422 s 3.79
β+:100.00
0
4.800E+06 4.800E+06 NUBASE
1337 47-Ag- 94N 21.0+ 6.500E+06 0.3 s 66.67
β+:100.00
0
6.517E+06 6.517E+06 NUBASE
1338 47-Ag- 95 4.5+ 1.74 s 7.47
β+:100.00
0
3.350E+06 3.350E+06 NUBASE
1339 47-Ag- 95M 0.5- 3.442E+05 0.5 s 100
IT:100.00
0
3.442E+05 NUBASE
1340 47-Ag- 95N 11.5+ 2.531E+06 0.016 s 100
IT:100.00
0
2.531E+06 NUBASE
1341 47-Ag- 95O 18.5+ 4.859E+06 0.04 s 100
ITn:100.00
0
2.328E+06 NUBASE
1342 47-Ag- 96 ? 4.45 s 0.90
β+:90.30; β+,p:4.85;
β+,pm:4.85
0
3.660E+06 3.660E+06 1.506E+05 NUBASE
1343 47-Ag- 96M 2.0+ 6.9 s 8.70
β+:82.00; β+,p:9.00;
β+,pm:9.00
0
3.466E+06 3.466E+06 2.794E+05 NUBASE
1344 47-Ag- 97 4.5+ 25.3 s 1.19
β+:100.00
1
3.138E+06 ENSDF
1345 47-Ag- 98 6.0+ 47.5 s 0.63
β+:100.00
4
1.390E+06 4.616E+06 ENSDF
1346 47-Ag- 99 4.5+ 2.067 m 2.42
β+:100.00
0
1.809E+06 1.809E+06 NUBASE
1347 47-Ag- 99M 0.5- 5.061E+05 10.5 s 4.76
IT:100.00
0
5.061E+05 NUBASE
1348 47-Ag-100 5.0+ 2.01 m 4.48
β+:100.00
0
2.359E+06 2.359E+06 NUBASE
1349 47-Ag-100M 2.0+ 1.552E+04 2.24 m 5.80
β+:50.00; IT:50.00
0
1.182E+06 1.190E+06 NUBASE
1350 47-Ag-101 4.5+ 11.1 m 2.70
β+:100.00
4
8.322E+05 1.544E+06 ENSDF
1351 47-Ag-101M 0.5- 2.741E+05 3.1 s 3.23
IT:100.00
0
2.741E+05 NUBASE
1352 47-Ag-102 5.0+ 12.9 m 2.33
β+:100.00
4
9.615E+05 2.981E+06 ENSDF
1353 47-Ag-102M 2.0+ 9.300E+03 7.7 m 6.49
β+:51.00; IT:49.00
0
9.638E+05 9.684E+05 NUBASE
1354 47-Ag-103 3.5+ 1.095 h 1.07
β+:100.00
4
1.860E+05 8.362E+05 ENSDF
1355 47-Ag-103M 0.5- 1.344E+05 5.7 s 5.26
IT:100.00
0
1.344E+05 NUBASE
1356 47-Ag-104 5.0+ 1.153 h 1.45
β+:100.00
0
1.426E+06 1.426E+06 NUBASE
1357 47-Ag-104M 2.0+ 6.900E+03 33.5 m 5.97
β+:99.93; IT:0.07
0
1.428E+06 1.428E+06 NUBASE
1358 47-Ag-105 0.5- 41.3 d 0.24
β+:100.00
4
1.993E+04 5.304E+05 UKPADD67
1359 47-Ag-105M 3.5+ 2.546E+04 7.23 m 2.21
β+:0.34; IT:99.66
4
2.534E+04 1.221E+03 UKPADD67
1360 47-Ag-106 1.0+ 24 m 0.42
β-:0.50; β+:99.50
5
5.035E+05 7.060E+05 UKPADD67
1361 47-Ag-106M 6.0+ 8.966E+04 8.46 d 1.18
β+:100.00
4
1.227E+04 2.754E+06 UKPADD67
84 THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009
MAIN DATA TABLES
Matn Nuclide
SpPa
Exc ener
Half-life (%-err)
Decay modes (%)
Nsp
<β> (eV)
<γ> (eV)
<α>
(eV)
Source
1362 47-Ag-107 0.5-
NUBASE
1363 47-Ag-107M 3.5+ 9.312E+04 44.3 s 0.45
IT:100.00
3
7.918E+04 1.273E+04 ENSDF
1364 47-Ag-108 1.0+ 2.4 m 0.83
β-:97.10; β+:2.90
5
6.055E+05 2.283E+04 UKPADD67
1365 47-Ag-108M 6.0+ 1.095E+05 418.01 y 3.59
β+:91.30; IT:8.70
4
1.604E+04 1.630E+06 UKPADD67
1366 47-Ag-109 0.5-
NUBASE
1367 47-Ag-109M 3.5+ 8.803E+04 39.7 s 0.50
IT:100.00
3
7.674E+04 1.130E+04 UKPADD67
1368 47-Ag-110 1.0+ 24.56 s 0.45
β+:0.30; β-:99.70
5
1.181E+06 3.134E+04 LNHB
1369 47-Ag-110M 6.0+ 1.176E+05 249.78 d 0.01
IT:1.36; β-:98.64
4
7.223E+04 2.762E+06 LNHB
1370 47-Ag-111 0.5- 7.45 d 0.13
β-:100.00
4
3.509E+05 2.648E+04 ENSDF
1371 47-Ag-111M 3.5+ 5.982E+04 1.08 m 1.23
β-:0.50; IT:99.50
4
5.601E+04 6.878E+03 UKPADD67
1372 47-Ag-112 2.0- 3.13 h 0.29
β-:100.00
0
1.319E+06 1.319E+06 NUBASE
1373 47-Ag-113 0.5- 5.37 h 0.93
β-:98.27; β-
m:1.73
4
7.613E+05 7.154E+04 ENSDF
1374 47-Ag-113M 3.5+ 4.320E+04 1.145 m 7.28
IT:64.00; β-:36.00
4
2.211E+05 2.123E+05 ENSDF
1375 47-Ag-114 1.0+ 4.6 s 2.17
β-:100.00
2
2.150E+06 2.581E+05 ENSDF
1376 47-Ag-114M 4.0+ 1.990E+05 1.5E-03 s 3.33
IT:100.00
3
1.019E+05 9.712E+04 UKPADD67
1377 47-Ag-115 0.5- 20 m 2.50
β-:94.24; β-
m:5.76
4
1.082E+06 4.495E+05 ENSDF
1378 47-Ag-115M 3.5+ 4.110E+04 18.6 s 4.30
β-:76.70; β-
m:2.30;
IT:21.00
4
8.441E+05 4.550E+05 UKPADD67
1379 47-Ag-116 2.0- 2.68 m 3.73
β-:100.00
2
1.751E+06 2.094E+06 ENSDF
1380 47-Ag-116M 5.0+ 8.190E+04 8.6 s 3.49
β-:94.00; IT:6.00
4
1.661E+06 1.688E+06 ENSDF
1381 47-Ag-117 0.5- 1.227 m 1.90
β-:83.07; β-
m:16.93
0
1.377E+06 1.377E+06 NUBASE
1382 47-Ag-117M 3.5+ 2.860E+04 5.34 s 0.94
β-:70.72; β-
m:23.28;
IT:6.00
0
1.300E+06 1.302E+06 NUBASE
1383 47-Ag-118 1.0- 3.76 s 3.99
β-:100.00
0
2.380E+06 2.380E+06 NUBASE
1384 47-Ag-118M 4.0+ 1.275E+05 2 s 10
β-:59.00; IT:41.00
0
1.429E+06 1.481E+06 NUBASE
1385 47-Ag-119 0.5- 6 s 8.33
β-:50.00; β-
m:50.00
0
1.759E+06 1.759E+06 NUBASE
1386 47-Ag-119M 3.5+ 2.000E+04 2.1 s 4.76
β-:100.00
0
1.790E+06 1.790E+06 NUBASE
1387 47-Ag-120 3.0+ 1.23 s 3.25
β-:100.00; β-,n:~;
β-,nm:~
0
2.775E+06 2.775E+06 8.657E-01 NUBASE
1388 47-Ag-120M 6.0- 2.030E+05 0.371 s 6.47
β-:63.00; IT:37.00
0
1.791E+06 1.866E+06 NUBASE
1389 47-Ag-121 3.5+ 0.78 s 1.28
β-:89.05; β-
m:10.95
4
2.301E+06 1.167E+06 ENSDF
1390 47-Ag-122 3.0+ 0.48 s 16.67
β-:100.00
2
3.567E+06 1.081E+06 ENSDF
1391 47-Ag-122M 8.0- 8.000E+04 1.5 s 33.33
β-:100.00
0
3.193E+06 3.193E+06 NUBASE
1392 47-Ag-123 3.5+ 0.31 s 3.23
β-:81.82; β-
m:18.18
4
2.919E+06 8.440E+05 ENSDF
1393 47-Ag-124 3.0+ 0.172 s 2.91
β-:99.90; β-,n:0.05;
β-,nm:0.05
0
3.411E+06 3.411E+06 6.526E+02 NUBASE
1394 47-Ag-124M 8.0- 0.2 s 100
β-:50.00; IT:50.00
0
1.707E+06 1.707E+06 NUBASE
1395 47-Ag-125 3.5+ 0.166 s 4.22
β-:50.00; β-
m:50.00
0
2.845E+06 2.845E+06 NUBASE
1396 47-Ag-126 3.0+ 0.107 s 11.21
β-:100.00
0
3.773E+06 3.773E+06 NUBASE
1397 47-Ag-127 3.5+ 0.079 s 3.80
β-:100.00
0
3.207E+06 3.207E+06 NUBASE
1398 47-Ag-128 ? 0.058 s 8.62
β-:100.00
0
4.163E+06 4.163E+06 NUBASE
1399 47-Ag-129 3.5+ 0.044 s 15.91
β-:50.00; β-
m:50.00
0
3.583E+06 3.583E+06 NUBASE
1400 47-Ag-130 ? 0.05 s 100
β-:100.00
0
5.137E+06 5.137E+06 NUBASE
THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009 85
MAIN DATA TABLES
Matn Nuclide
SpPa
Exc ener
Half-life (%-err)
Decay modes (%)
Nsp
<β> (eV)
<γ> (eV)
<α>
(eV)
Source
1401 48-Cd- 95 4.5+ 5E-03 s 100
β+:100.00
0
4.467E+06 4.467E+06 NUBASE
1402 48-Cd- 96 0.0+ 1 s 100
β+m:100.00
0
2.823E+06 2.823E+06 NUBASE
1403 48-Cd- 97 4.5+ 2.8 s 21.43
β+:100.00
0
3.407E+06 3.407E+06 NUBASE
1404 48-Cd- 98 0.0+ 9.2 s 3.26
β+:100.00
4
1.035E+06 2.464E+06 ENSDF
1405 48-Cd- 99 2.5+ 16 s 18.75
β+:49.90; β+
m:49.90;
β+,p:0.21; β+,n:~;
β+,nm:~
0
2.217E+06 2.217E+06 2.186E+03 NUBASE
1406 48-Cd-100 0.0+ 49.1 s 1.02
β+:100.00
4
4.492E+05 1.630E+06 ENSDF
1407 48-Cd-101 2.5+ 1.36 m 3.68
β+:88.95; β+
m:11.05
4
9.790E+05 2.449E+06 ENSDF
1408 48-Cd-102 0.0+ 5.5 m 9.09
β+:5.77; β+
m:94.23
4
7.264E+04 8.285E+05 ENSDF
1409 48-Cd-103 2.5+ 7.3 m 1.37
β+:81.31; β+
m:18.69
0
1.372E+06 1.372E+06 NUBASE
1410 48-Cd-104 0.0+ 57.7 m 1.73
β+m:100.00
0
3.764E+05 3.764E+05 NUBASE
1411 48-Cd-105 2.5+ 55.5 m 0.72
β+:17.79; β+
m:82.21
0
9.057E+05 9.057E+05 NUBASE
1412 48-Cd-106 0.0+ 6.6E+18 y 100
2β+:100.00
0
2.770E+06 NUBASE
1413 48-Cd-107 2.5+ 6.52 h 0.31
β+:0.06; β+
m:99.94
4
6.274E+03 2.124E+04 UKPADD67
1414 48-Cd-108 0.0+ 4.1E+17 y 100
2β+:100.00
0
2.720E+05 NUBASE
1415 48-Cd-109 2.5+ 1.267 y 0.15
β+m:100.00
3
5.712E+03 1.515E+04 UKPADD67
1416 48-Cd-110 0.0+
NUBASE
1417 48-Cd-111 0.5+
NUBASE
1418 48-Cd-111M 5.5- 3.962E+05 48.54 m 0.10
IT:100.00
3
1.054E+05 2.842E+05 ENSDF
1419 48-Cd-112 0.0+
NUBASE
1420 48-Cd-113 0.5+ 7.7E+15 y 3.90
β-:100.00
1
9.330E+04 ENSDF
1421 48-Cd-113M 5.5- 2.637E+05 14.1 y 3.55
IT:0.14; β-:99.86
4
1.856E+05 7.070E+01 ENSDF
1422 48-Cd-114 0.0+ 6E+17 y 100
2β-:100.00
0
5.360E+05 ENSDF
1423 48-Cd-115 0.5+ 2.228 d 0.19
β-:~; β-
m:100.00
4
3.187E+05 1.925E+05 ENSDF
1424 48-Cd-115M 5.5- 1.810E+05 44.6 d 0.67
β-:99.99; β-
m:0.01
4
6.044E+05 3.292E+04 ENSDF
1425 48-Cd-116 0.0+ 3.4E+19 y 8.82
2β-:100.00
0
2.804E+06 ENSDF
1426 48-Cd-117 0.5+ 2.49 h 1.61
β-:8.36; β-
m:91.64
4
4.311E+05 1.078E+06 ENSDF
1427 48-Cd-117M 5.5- 1.364E+05 3.36 h 1.49
β-:98.48; β-
m:1.52
2
2.075E+05 2.034E+06 ENSDF
1428 48-Cd-118 0.0+ 50.3 m 0.40
β-:100.00
1
1.610E+05 ENSDF
1429 48-Cd-119 1.5+ 2.69 m 0.74
β-:9.72; β-
m:90.28
4
8.132E+05 1.485E+06 ENSDF
1430 48-Cd-119M 5.5- 1.465E+05 2.2 m 0.91
β-:99.78; β-
m:0.22
4
6.975E+05 2.162E+06 ENSDF
1431 48-Cd-120 0.0+ 50.8 s 0.41
β-:100.00
1
6.770E+05 ENSDF
1432 48-Cd-121 1.5+ 13.5 s 2.22
β-:32.56; β-
m:67.44
4
1.206E+06 1.662E+06 ENSDF
1433 48-Cd-121M 5.5- 2.149E+05 8.3 s 9.64
β-:100.00
4
1.191E+06 2.124E+06 ENSDF
1434 48-Cd-122 0.0+ 5.24 s 0.57
β-:100.00
1
1.247E+06 ENSDF
1435 48-Cd-123 1.5+ 2.1 s 0.95
β-:30.97; β-
m:69.03
4
1.729E+06 1.883E+06 ENSDF
1436 48-Cd-123M 5.5- 3.165E+05 1.82 s 1.65
β-:98.78; β-
m:1.22
4
1.609E+06 2.331E+06 ENSDF
1437 48-Cd-124 0.0+ 1.25 s 1.60
β-:100.00
0
1.390E+06 1.390E+06 NUBASE
1438 48-Cd-125 1.5+ 0.65 s 3.08
β-:47.86; β-
m:52.14
2
2.217E+06 1.860E+06 ENSDF
1439 48-Cd-125M 5.5- 5.000E+04 0.48 s 6.25
β-:100.00
2
2.088E+06 2.332E+06 ENSDF
1440 48-Cd-126 0.0+ 0.515 s 3.30
β-:100.00
0
1.827E+06 1.827E+06 NUBASE
1441 48-Cd-127 1.5+ 0.37 s 18.92
β-m:100.00
0
2.670E+06 2.670E+06 NUBASE
86 THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009
MAIN DATA TABLES
Matn Nuclide
SpPa
Exc ener
Half-life (%-err)
Decay modes (%)
Nsp
<β> (eV)
<γ> (eV)
<α>
(eV)
Source
1442 48-Cd-128 0.0+ 0.28 s 14.29
β-m:100.00
0
2.274E+06 2.274E+06 NUBASE
1443 48-Cd-129 1.5+ 0.242 s 3.31
β-m:100.00
0
3.120E+06 3.120E+06 NUBASE
1444 48-Cd-129M 5.5- 0.104 s 5.77
β-:100.00
0
3.247E+06 3.247E+06 NUBASE
1445 48-Cd-130 0.0+ 0.162 s 4.32
β-:96.50; β-,n:1.75;
β-,nm:1.75
0
2.703E+06 2.703E+06 2.720E+04 NUBASE
1446 48-Cd-131 3.5- 0.068 s 4.41
β-:96.50; β-,n:3.50
0
4.196E+06 4.196E+06 5.730E+04 NUBASE
1447 48-Cd-132 0.0+ 0.097 s 10.31
β-:40.00; β-,nm:60.00
0
2.909E+06 2.909E+06 1.349E+06 NUBASE
1448 49-In- 97 4.5+ 5E-03 s 100
p:50.00; β+:50.00
0
2.267E+06 2.267E+06 9.055E+05 NUBASE
1449 49-In- 98 0.0+ 0.045 s 51.11
β+:100.00
0
4.577E+06 4.577E+06 NUBASE
1450 49-In- 98M ? 1.7 s 47.06
β+:100.00
0
4.577E+06 4.577E+06 NUBASE
1451 49-In- 99 4.5+ 3.1 s 25.81
β+:100.00
0
2.860E+06 2.860E+06 NUBASE
1452 49-In- 99M 0.5- 4.000E+05 1 s 100
β+:50.00; IT:50.00
0
1.497E+06 1.697E+06 NUBASE
1453 49-In-100 6.0+ 5.9 s 3.39
β+:96.10; β+,p:1.95;
β+,pm:1.95
0
3.278E+06 3.278E+06 4.922E+04 NUBASE
1454 49-In-101 4.5+ 15.1 s 7.28
β+:100.00
0
2.380E+06 2.380E+06 NUBASE
1455 49-In-101M 0.5- 5.500E+05 10 s 100
β+:95.00; IT:5.00
0
2.435E+06 2.463E+06 NUBASE
1456 49-In-102 6.0+ 22 s 4.55
β+:100.00
4
2.719E+06 3.258E+06 ENSDF
1457 49-In-103 4.5+ 1 m 1.67
β+:100.00
0
2.017E+06 2.017E+06 NUBASE
1458 49-In-103M 0.5- 6.317E+05 34 s 5.88
β+:67.00; IT:33.00
0
1.492E+06 1.701E+06 NUBASE
1459 49-In-104 ? 1.8 m 1.67
β+:100.00
0
2.622E+06 2.622E+06 NUBASE
1460 49-In-104M 3.0+ 9.348E+04 15.7 s 3.18
IT:80.00; β+:20.00
0
5.306E+05 6.054E+05 NUBASE
1461 49-In-105 4.5+ 5.07 m 1.38
β+:100.00
4
9.830E+05 1.814E+06 ENSDF
1462 49-In-105M 0.5- 6.741E+05 48 s 12.50
IT:100.00
3
3.131E+04 6.360E+05 ENSDF
1463 49-In-106 7.0+ 6.2 m 1.61
β+:100.00
0
2.175E+06 2.175E+06 NUBASE
1464 49-In-106M 3.0+ 2.860E+04 5.2 m 1.92
β+:100.00
0
2.185E+06 2.185E+06 NUBASE
1465 49-In-107 4.5+ 32.4 m 0.93
β+:100.00
4
3.470E+05 1.498E+06 ENSDF
1466 49-In-107M 0.5- 6.785E+05 50.4 s 1.19
IT:100.00
3
3.732E+04 6.407E+05 ENSDF
1467 49-In-108 7.0+ 58 m 2.07
β+:100.00
0
1.712E+06 1.712E+06 NUBASE
1468 49-In-108M 2.0+ 2.975E+04 39.6 m 1.77
β+:100.00
0
1.722E+06 1.722E+06 NUBASE
1469 49-In-109 4.5+ 4.2 h 2.38
β+:100.00
4
3.131E+04 6.335E+05 ENSDF
1470 49-In-109M 0.5- 6.501E+05 1.34 m 5.22
IT:100.00
3
3.666E+04 6.103E+05 ENSDF
1471 49-In-109N 9.5+ 2.101E+06 0.209 s 2.87
IT:100.00
3
1.703E+04 2.085E+06 ENSDF
1472 49-In-110 7.0+ 4.9 h 2.04
β+:100.00
0
1.293E+06 1.293E+06 NUBASE
1473 49-In-110M 2.0+ 6.210E+04 1.152 h 0.72
β+:100.00
4
6.526E+05 1.572E+06 ENSDF
1474 49-In-111 4.5+ 2.805 d 0.02
β+:100.00; β+
m:0.01
4
3.251E+04 4.059E+05 LNHB
1475 49-In-111M 0.5- 5.372E+05 7.9 m 5.06
IT:100.00
3
6.784E+04 4.696E+05 UKPADD67
1476 49-In-112 1.0+ 14.7 m 4.76
β-:44.00; β+:56.00
5
2.452E+05 2.902E+05 UKPADD67
1477 49-In-112M 4.0+ 1.566E+05 20.7 m 0.48
IT:100.00
3
1.222E+05 3.456E+04 UKPADD67
1478 49-In-113 4.5+
NUBASE
1479 49-In-113M 0.5- 3.917E+05 1.658 h 0.23
IT:100.00
3
1.309E+05 2.605E+05 LNHB
1480 49-In-114 1.0+ 1.198 m 0.14
β-:99.50; β+:0.50
5
7.692E+05 4.370E+03 UKPADD67
1481 49-In-114M 5.0+ 1.903E+05 50 d 0.40
β+:3.50; IT:96.50
4
1.409E+05 8.899E+04 UKPADD67
1482 49-In-114N 8.0- 5.020E+05 0.043 s 2.33
ITm:100.00
3
3.396E+04 2.777E+05 UKPADD67
THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009 87
MAIN DATA TABLES
Matn Nuclide
SpPa
Exc ener
Half-life (%-err)
Decay modes (%)
Nsp
<β> (eV)
<γ> (eV)
<α>
(eV)
Source
1483 49-In-115 4.5+ 4.41E+14 y 5.67
β-:100.00
1
1.520E+05 ENSDF
1484 49-In-115M 0.5- 3.262E+05 4.486 h 0.09
IT:95.00; β-:5.00
4
1.734E+05 1.626E+05 ENSDF
1485 49-In-116 1.0+ 14.2 s 2.11
β-:100.00
4
1.357E+06 5.265E+03 UKPADD67
1486 49-In-116M 5.0+ 1.273E+05 54.6 m 0.55
β-:100.00
4
3.126E+05 2.491E+06 UKPADD67
1487 49-In-116N 8.0- 2.897E+05 2.17 s 2.30
ITm:100.00
3
9.412E+04 6.817E+04 UKPADD67
1488 49-In-117 4.5+ 43.2 m 0.69
β-:99.66; β-
m:0.34
4
2.641E+05 6.942E+05 ENSDF
1489 49-In-117M 0.5- 3.153E+05 1.937 h 0.60
IT:47.10; β-:52.90
4
4.336E+05 9.093E+04 ENSDF
1490 49-In-118 1.0+ 5 s 6
β-:100.00
4
1.879E+06 7.782E+04 ENSDF
1491 49-In-118M 5.0+ 1.000E+05 4.45 m 1.12
β-:100.00
4
6.065E+05 2.766E+06 ENSDF
1492 49-In-118N 8.0- 2.400E+05 8.5 s 3.53
ITm:98.60; β-:1.40
0
2.178E+04 1.598E+05 NUBASE
1493 49-In-119 4.5+ 2.4 m 4.17
β-:9.66; β-
m:90.34
0
7.612E+05 7.612E+05 NUBASE
1494 49-In-119M 0.5- 3.114E+05 18 m 1.67
β-:94.40; IT:5.60
0
8.420E+05 8.594E+05 NUBASE
1495 49-In-120 1.0+ 3.08 s 2.60
β-:100.00
2
2.244E+06 2.566E+05 ENSDF
1496 49-In-120M 5.0+ 7.000E+04 46.2 s 1.73
β-:100.00
4
9.989E+05 2.985E+06 ENSDF
1497 49-In-120N 8.0- 3.000E+05 47.3 s 1.06
β-:100.00
0
1.888E+06 1.888E+06 NUBASE
1498 49-In-121 4.5+ 23.1 s 2.60
β-:88.67; β-
m:11.33
4
9.867E+05 9.229E+05 ENSDF
1499 49-In-121M 0.5- 3.136E+05 3.88 m 2.58
β-:98.80; IT:1.20
4
1.517E+06 6.329E+04 ENSDF
1500 49-In-122 1.0+ 1.5 s 20
β-:100.00
2
2.535E+06 6.311E+05 ENSDF
1501 49-In-122M 8.0- 2.000E+05 10.8 s 3.70
β-:100.00
4
1.363E+06 3.460E+06 ENSDF
1502 49-In-122N 8.0- 2.000E+05 10.8 s 3.70
β-:100.00
4
1.363E+06 3.460E+06 ENSDF
1503 49-In-123 4.5+ 5.98 s 1
β-:7.62; β-
m:92.38
4
1.406E+06 1.046E+06 ENSDF
1504 49-In-123M 0.5- 3.272E+05 47.8 s 1.05
β-:~; β-
m:100.00
4
2.032E+06 6.250E+04 ENSDF
1505 49-In-124 3.0+ 3.11 s 3.22
β-:100.00
4
2.052E+06 2.650E+06 ENSDF
1506 49-In-124M 8.0- 5.000E+04 3.7 s 5.41
β-:100.00
4
1.623E+06 3.531E+06 ENSDF
1507 49-In-125 4.5+ 2.36 s 1.69
β-:16.89; β-
m:83.11
4
1.810E+06 1.202E+06 ENSDF
1508 49-In-125M 0.5- 3.601E+05 12.2 s 1.64
β-m:100.00
0
1.917E+06 1.917E+06 NUBASE
1509 49-In-126 3.0+ 1.53 s 0.65
β-:100.00
2
2.399E+06 2.764E+06 ENSDF
1510 49-In-126M 8.0- 1.000E+05 1.64 s 3.05
β-:100.00
0
2.770E+06 2.770E+06 NUBASE
1511 49-In-127 4.5+ 1.09 s 0.92
β-:38.98; β-
m:61.02
4
2.418E+06 1.136E+06 ENSDF
1512 49-In-127M 0.5- 4.600E+05 3.67 s 1.09
β-m:99.31; β-,n:0.69
0
2.308E+06 2.308E+06 2.447E+03 NUBASE
1513 49-In-128 3.0+ 0.84 s 7.14
β-:100.00
2
2.643E+06 3.017E+06 ENSDF
1514 49-In-128M 1.0- 2.479E+05 0.01 s 70
IT:100.00
0
2.479E+05 NUBASE
1515 49-In-128N 8.0- 3.200E+05 0.72 s 13.89
β-m:100.00
0
2.401E+06 2.401E+06 NUBASE
1516 49-In-129 4.5+ 0.61 s 1.64
β-:89.35; β-
m:10.65
4
2.506E+06 1.975E+06 ENSDF
1517 49-In-129M 0.5- 3.800E+05 1.23 s 2.44
β-:99.70
4
3.469E+06 3.584E+05 ENSDF
1518 49-In-130 1.0- 0.29 s 6.90
β-:71.06; β-
m:28.94
4
2.951E+06 3.427E+06 ENSDF
1519 49-In-130M 10.0- 5.000E+04 0.54 s 1.85
β-m:100.00
4
2.825E+06 1.995E+06 ENSDF
1520 49-In-130N 5.0+ 4.000E+05 0.54 s 1.85
β-:100.00
4
3.332E+06 2.991E+06 ENSDF
1521 49-In-131 4.5+ 0.28 s 10.71
β-:94.69; β-
m:5.31
2
2.987E+06 2.413E+06 ENSDF
1522 49-In-131M 0.5- 3.500E+05 0.35 s 14.29
β-:97.98; β-,n:1.00;
β-,nm:1.00; IT:0.02
0
3.128E+06 3.128E+06 1.654E+04 NUBASE
1523 49-In-131N ? 4.100E+06 0.32 s 18.75
β-m:98.97; β-,n:0.01;
β-,nm:0.01; IT:1.00
0
4.354E+06 4.395E+06 4.940E+02 NUBASE
88 THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009
MAIN DATA TABLES
Matn Nuclide
SpPa
Exc ener
Half-life (%-err)
Decay modes (%)
Nsp
<β> (eV)
<γ> (eV)
<α>
(eV)
Source
1524 49-In-132 7.0- 0.201 s 6.47
β-:100.00
4
3.478E+06 5.704E+06 ENSDF
1525 49-In-133 4.5+ 0.165 s 1.82
β-:15.00; β-,n:85.00
0
2.893E+06 2.893E+06 2.242E+06 NUBASE
1526 49-In-133M 0.5- 3.300E+05 0.18 s 55.56
IT:100.00
0
3.300E+05 NUBASE
1527 49-In-134 ? 0.14 s 2.86
β-:31.00; β-,n:65.00;
β-,2n:4.00
0
3.376E+06 3.376E+06 1.848E+06 NUBASE
1528 49-In-135 4.5+ 0.092 s 10.87
β-:100.00
0
4.533E+06 4.533E+06 NUBASE
1529 50-Sn- 99 4.5+ 5E-03 s 100
β+:100.00
0
4.690E+06 4.690E+06 NUBASE
1530 50-Sn-100 0.0+ 1.1 s 36.36
β+:83.00; β+,p:17.00
0
2.290E+06 2.290E+06 2.457E+05 NUBASE
1531 50-Sn-101 2.5+ 3 s 33.33
β+:50.00; β+
m:50.00
0
2.925E+06 2.925E+06 NUBASE
1532 50-Sn-102 0.0+ 4.6 s 30.43
β+:100.00
0
1.927E+06 1.927E+06 NUBASE
1533 50-Sn-103 2.5+ 7 s 42.86
β+:50.00; β+
m:50.00
0
2.438E+06 2.438E+06 NUBASE
1534 50-Sn-104 0.0+ 20.8 s 2.40
β+:9.32; β+
m:90.68
4
7.262E+05 1.884E+06 ENSDF
1535 50-Sn-105 2.5+ 34 s 2.94
β+:50.00; β+
m:50.00
0
1.961E+06 1.961E+06 NUBASE
1536 50-Sn-106 0.0+ 1.917 m 4.35
β+m:100.00
4
1.096E+05 1.200E+06 ENSDF
1537 50-Sn-107 2.5+ 2.9 m 1.72
β+:50.00; β+
m:50.00
0
1.547E+06 1.547E+06 NUBASE
1538 50-Sn-108 0.0+ 10.3 m 0.78
β+m:100.00
4
3.070E+04 6.716E+05 ENSDF
1539 50-Sn-109 2.5+ 18 m 1.11
β+:69.15; β+
m:30.85
0
1.216E+06 1.216E+06 NUBASE
1540 50-Sn-110 0.0+ 4.1 h 2.44
β+m:100.00
4
1.417E+04 2.904E+05 UKPADD67
1541 50-Sn-111 3.5+ 35.3 m 1.70
β+:99.80; β+
m:0.20
0
8.166E+05 8.166E+05 NUBASE
1542 50-Sn-112 0.0+
NUBASE
1543 50-Sn-113 0.5+ 115.09 d 0.03
β+:0.01; β+
m:99.99
4
6.272E+03 2.325E+04 UKPADD67
1544 50-Sn-113M 3.5+ 7.739E+04 20.9 m 2.39
β+:8.90; IT:91.10
4
5.858E+04 1.448E+04 UKPADD67
1545 50-Sn-114 0.0+
NUBASE
1546 50-Sn-115 0.5+
NUBASE
1547 50-Sn-116 0.0+
NUBASE
1548 50-Sn-117 0.5+
NUBASE
1549 50-Sn-117M 5.5- 3.146E+05 13.6 d 0.29
IT:100.00
3
1.557E+05 1.575E+05 ENSDF
1550 50-Sn-118 0.0+
NUBASE
1551 50-Sn-119 0.5+
NUBASE
1552 50-Sn-119M 5.5- 8.953E+04 293 d 0.44
IT:100.00
3
7.826E+04 1.136E+04 UKPADD67
1553 50-Sn-120 0.0+
NUBASE
1554 50-Sn-121 1.5+ 1.126 d 0.15
β-:100.00
1
1.156E+05 ENSDF
1555 50-Sn-121M 5.5- 6.300E+03 55.001 y 9.09
β-:22.40; IT:77.60
4
3.533E+04 5.096E+03 UKPADD67
1556 50-Sn-122 0.0+
NUBASE
1557 50-Sn-123 5.5- 129.2 d 0.31
β-:100.00
4
5.228E+05 6.892E+03 ENSDF
1558 50-Sn-123M 1.5+ 2.460E+04 40.06 m 0.02
β-:100.00
4
4.785E+05 1.407E+05 ENSDF
1559 50-Sn-124 0.0+ 1E+17 y 100
2β-:100.00
0
2.288E+06 ENSDF
1560 50-Sn-125 5.5- 9.64 d 0.31
β-:100.00
4
8.034E+05 3.336E+05 ENSDF
1561 50-Sn-125M 1.5+ 2.750E+04 9.52 m 0.53
β-:100.00
4
8.063E+05 3.460E+05 ENSDF
1562 50-Sn-126 0.0+ 2.3E+05 y 6.09
β-m:33.07; β-
n:66.93
4
1.221E+05 5.665E+04 ENSDF
1563 50-Sn-127 5.5- 2.1 h 1.90
β-:100.00
0
1.067E+06 1.067E+06 NUBASE
1564 50-Sn-127M 1.5+ 4.700E+03 4.13 m 0.73
β-:100.00
0
1.069E+06 1.069E+06 NUBASE
1565 50-Sn-128 0.0+ 59.07 m 0.24
β-:100.00; β-
m:~
4
2.510E+05 6.034E+05 ENSDF
THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009 89
MAIN DATA TABLES N
Matn Nuclide
SpPa
Exc ener
Half-life (%-err)
Decay modes (%)
Nsp
<β> (eV)
<γ> (eV)
<α>
(eV)
Source
1566 50-Sn-128M 7.0- 2.092E+06 6.5 s 7.69
IT:100.00
3
7.860E+04 2.012E+06 ENSDF
1567 50-Sn-129 1.5+ 2.23 m 1.35
β-:100.00
4
1.098E+06 1.350E+06 UKPADD67
1568 50-Sn-129M 5.5- 3.520E+04 7.2 m 4.17
β-m:31.00; β-:69.00
4
7.055E+05 1.707E+06 UKPADD67
1569 50-Sn-130 0.0+ 3.73 m 1.88
β-m:100.00
4
4.621E+05 9.376E+05 UKPADD67
1570 50-Sn-130M 7.0- 1.947E+06 1.7 m 5.88
β-m:16.00; β-:84.00
4
1.388E+06 8.130E+05 UKPADD67
1571 50-Sn-131 1.5+ 56 s 0.89
β-:100.00
0
1.558E+06 1.558E+06 NUBASE
1572 50-Sn-131M 5.5- 8.000E+04 58.4 s 0.86
β-:100.00; IT:~
0
1.585E+06 1.585E+06 NUBASE
1573 50-Sn-132 0.0+ 39.7 s 1.26
β-:100.00; β-
m:~
4
6.987E+05 1.301E+06 ENSDF
1574 50-Sn-133 3.5- 1.45 s 2.07
β-:100.00
2
3.396E+06 2.725E+05 ENSDF
1575 50-Sn-134 0.0+ 1.05 s 1.05
β-:83.00; β-,n:17.00
0
2.212E+06 2.212E+06 1.730E+05 NUBASE
1576 50-Sn-135 3.5- 0.53 s 3.77
β-:79.00; β-,n:10.50;
β-,nm:10.50
0
2.622E+06 2.622E+06 2.761E+05 NUBASE
1577 50-Sn-136 0.0+ 0.25 s 12
β-:70.00; β-,n:30.00
0
2.341E+06 2.341E+06 3.854E+05 NUBASE
1578 50-Sn-137 2.5- 0.19 s 31.58
β-:42.00; β-,n:58.00
0
2.335E+06 2.335E+06 9.423E+05 NUBASE
1579 51-Sb-103 2.5+ 0.1 s 100
β+:100.00
0
3.597E+06 3.597E+06 NUBASE
1580 51-Sb-104 ? 0.47 s 27.66
β+:39.50; β+,p:3.50;
β+,pm:3.50; p:7.00;
α:46.50
0
1.771E+06 1.771E+06 1.365E+06 NUBASE
1581 51-Sb-105 2.5+ 1.12 s 14.29
β+:99.00; p:1.00
0
3.115E+06 3.115E+06 4.810E+03 NUBASE
1582 51-Sb-106 4.0+ 0.6 s 33.33
β+:100.00
0
3.700E+06 3.700E+06 NUBASE
1583 51-Sb-107 2.5+ 4.6 s 17.39
β+:100.00
0
2.643E+06 2.643E+06 NUBASE
1584 51-Sb-108 4.0+ 7.4 s 4.05
β+:100.00
0
3.177E+06 3.177E+06 NUBASE
1585 51-Sb-109 2.5+ 16.67 s 0.90
β+:100.00
4
1.950E+06 1.894E+06 ENSDF
1586 51-Sb-110 4.0+ 23 s 1.74
β+:100.00
4
1.961E+06 3.692E+06 ENSDF
1587 51-Sb-111 2.5+ 1.25 m 1.33
β+:100.00
4
1.352E+06 1.475E+06 ENSDF
1588 51-Sb-112 3.0+ 51.4 s 1.95
β+:100.00
4
1.754E+06 2.755E+06 ENSDF
1589 51-Sb-113 2.5+ 6.67 m 1.05
β+:80.20; β+
m:19.80
0
1.299E+06 1.299E+06 NUBASE
1590 51-Sb-114 3.0+ 3.49 m 0.86
β+:100.00
4
1.152E+06 2.632E+06 ENSDF
1591 51-Sb-115 2.5+ 32.1 m 0.93
β+:100.00
4
2.333E+05 8.875E+05 ENSDF
1592 51-Sb-116 3.0+ 15.8 m 5.06
β+:100.00
4
5.217E+05 2.287E+06 ENSDF
1593 51-Sb-116M 8.0- 3.830E+05 1.005 h 1
β+:100.00
4
2.142E+05 3.187E+06 ENSDF
1594 51-Sb-117 2.5+ 2.8 h 0.36
β+:100.00
4
2.813E+04 1.848E+05 ENSDF
1595 51-Sb-118 1.0+ 3.6 m 2.78
β+:100.00
4
8.731E+05 8.041E+05 ENSDF
1596 51-Sb-118M 8.0- 2.500E+05 5 h 0.40
β+:100.00
4
3.519E+04 2.599E+06 ENSDF
1597 51-Sb-119 2.5+ 1.596 d 0.52
β+:100.00
4
2.597E+04 2.342E+04 UKPADD67
1598 51-Sb-119M 13.5+ 2.852E+06 0.85 s 10.59
IT:100.00
0
2.852E+06 NUBASE
1599 51-Sb-120 1.0+ 15.9 m 0.63
β+:100.00
4
3.068E+05 4.600E+05 UKPADD67
1600 51-Sb-120M 8.0- 2.000E+05 5.76 d 0.52
β+:100.00
4
4.505E+04 2.462E+06 UKPADD67
1601 51-Sb-121 2.5+
NUBASE
1602 51-Sb-122 2.0- 2.7 d 0.37
β+:2.60; β-:97.40
5
5.626E+05 4.429E+05 LNHB
1603 51-Sb-122M 8.0- 1.636E+05 4.19 m 2.15
IT:100.00
3
9.306E+04 7.053E+04 UKPADD67
1604 51-Sb-123 3.5+
NUBASE
1605 51-Sb-124 3.0- 60.2 d 0.05
β-:100.00
4
3.921E+05 1.840E+06 LNHB
90 THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009
MAIN DATA TABLES
Matn Nuclide
SpPa
Exc ener
Half-life (%-err)
Decay modes (%)
Nsp
<β> (eV)
<γ> (eV)
<α>
(eV)
Source
1606 51-Sb-124M 5.0+ 1.086E+04 1.55 m 5.38
β-:25.00; IT:75.00
4
1.141E+05 4.375E+05 UKPADD67
1607 51-Sb-124N 8.0- 3.685E+04 20.2 m 0.99
ITm:100.00
3
2.577E+04 3.380E+02 UKPADD67
1608 51-Sb-125 3.5+ 2.759 y 0.01
β-:77.62; β-
m:22.38
4
1.002E+05 4.370E+05 ENSDF
1609 51-Sb-126 8.0- 12.4 d 0.81
β-:100.00
4
3.367E+05 2.777E+06 LNHB
1610 51-Sb-126M 5.0+ 1.770E+04 19.1 m 1.05
IT:14.00; β-:86.00
4
6.248E+05 1.576E+06 UKPADD67
1611 51-Sb-126N 3.0- 4.040E+04 11 s 18.18
ITm:100.00
3
2.244E+04 3.785E+02 UKPADD67
1612 51-Sb-127 3.5+ 3.85 d 1.30
β-:83.52; β-
m:16.48
4
3.129E+05 6.921E+05 ENSDF
1613 51-Sb-128 8.0- 9.01 h 0.33
β-:100.00
4
4.777E+05 3.048E+06 ENSDF
1614 51-Sb-128M 5.0+ 1.000E+04 10.4 m 1.92
IT:3.60; β-:96.40
2
9.448E+05 1.881E+06 ENSDF
1615 51-Sb-129 3.5+ 4.36 h 0.69
β-:83.40; β-
m:16.60
4
3.548E+05 1.380E+06 UKPADD67
1616 51-Sb-129M 9.5- 1.851E+06 17.7 m 0.56
β-:2.00; β-
m:83.00;
IT:15.00
4
9.989E+05 1.478E+06 UKPADD67
1617 51-Sb-130 8.0- 39.5 m 2.03
β-:100.00
4
7.139E+05 3.126E+06 ENSDF
1618 51-Sb-130M ? 4.800E+03 6.3 m 3.17
β-:100.00
0
1.688E+06 1.688E+06 NUBASE
1619 51-Sb-131 3.5+ 23.03 m 0.17
β-:91.99; β-
m:8.01
4
5.762E+05 1.736E+06 ENSDF
1620 51-Sb-132 4.0+ 2.79 m 1.79
β-:100.00
4
1.255E+06 2.496E+06 ENSDF
1621 51-Sb-132M 8.0- 2.000E+05 4.1 m 1.71
β-:100.00
4
1.276E+06 2.408E+06 ENSDF
1622 51-Sb-133 3.5+ 2.5 m 4
β-:82.71; β-
m:17.29
2
6.571E+05 2.184E+06 ENSDF
1623 51-Sb-134 0.0- 0.78 s 7.69
β-:100.00
4
3.743E+06 6.465E+04 ENSDF
1624 51-Sb-134M 7.0- 8.000E+04 10.07 s 0.50
β-:99.91; β-,n:0.05;
β-,nm:0.05
0
2.821E+06 2.821E+06 1.403E+02 NUBASE
1625 51-Sb-135 3.5+ 1.74 s 1.72
β-:84.30; β-,n:15.70
5
2.967E+06 6.881E+05 1.771E+05 UKPADD67
1626 51-Sb-136 1.0- 0.923 s 1.52
β-:83.42; β-,n:16.30;
β-,2n:0.28
0
2.855E+06 2.855E+06 1.999E+05 NUBASE
1627 51-Sb-137 3.5+ 0.45 s 11.11
β-:51.00; β-,n:49.00
0
2.328E+06 2.328E+06 7.471E+05 NUBASE
1628 51-Sb-138 2.0- 0.5 s 100
β-:100.00
0
3.593E+06 3.593E+06 NUBASE
1629 51-Sb-139 3.5+ 0.3 s 100
β-:100.00
0
3.493E+06 3.493E+06 NUBASE
1630 52-Te-105 2.5+ 1E-06 s 100
α:50.00; β+:50.00
0
1.887E+06 1.887E+06 2.318E+06 NUBASE
1631 52-Te-106 0.0+ 6E-05 s 50
α:100.00
1
4.290E+06 ENSDF
1632 52-Te-107 2.5+ 3.1E-03 s 3.23
α:70.00; β+:30.00
0
1.011E+06 1.011E+06 2.804E+06 NUBASE
1633 52-Te-108 0.0+ 2.1 s 4.76
β+:48.54; α:49.00;
β+,p:2.40; β+,n:0.03;
β+,nm:0.03
0
1.133E+06 1.133E+06 1.723E+06 NUBASE
1634 52-Te-109 2.5+ 4.6 s 6.52
β+:86.69; α:3.90;
β+,p:9.40; β+,n:~;
β+,nm:~
0
2.667E+06 2.667E+06 2.937E+05 NUBASE
1635 52-Te-110 0.0+ 18.6 s 4.30
β+:100.00; α:~
0
1.753E+06 1.753E+06 8.175E+01 NUBASE
1636 52-Te-111 2.5+ 19.3 s 2.07
β+:100.00
0
2.469E+06 2.469E+06 NUBASE
1637 52-Te-112 0.0+ 2 m 10
β+:100.00
0
1.434E+06 1.434E+06 NUBASE
1638 52-Te-113 3.5+ 1.7 m 11.76
β+:100.00
4
1.683E+06 1.888E+06 ENSDF
1639 52-Te-114 0.0+ 15.2 m 4.61
β+:100.00
4
1.789E+05 1.086E+06 ENSDF
1640 52-Te-115 3.5+ 5.8 m 3.45
β+:100.00
4
6.395E+05 2.019E+06 ENSDF
1641 52-Te-115M 0.5+ 2.000E+04 6.7 m 5.97
β+:100.00
4
5.029E+05 2.088E+06 ENSDF
THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009 91
MAIN DATA TABLES
Matn Nuclide
SpPa
Exc ener
Half-life (%-err)
Decay modes (%)
Nsp
<β> (eV)
<γ> (eV)
<α>
(eV)
Source
1642 52-Te-116 0.0+ 2.49 h 1.61
β+:100.00
4
5.823E+04 1.128E+05 ENSDF
1643 52-Te-117 0.5+ 1.033 h 3.23
β+:100.00
4
2.114E+05 1.540E+06 ENSDF
1644 52-Te-117M 5.5- 2.961E+05 0.103 s 2.91
IT:100.00
3
3.421E+04 2.650E+05 ENSDF
1645 52-Te-118 0.0+ 6 d 0.33
β+:100.00
3
4.964E+03 1.988E+04 ENSDF
1646 52-Te-119 0.5+ 16.05 h 0.31
β+:100.00
4
1.304E+04 7.669E+05 ENSDF
1647 52-Te-119M 5.5- 2.610E+05 4.7 d 0.85
β+:100.00
4
1.654E+04 1.498E+06 ENSDF
1648 52-Te-120 0.0+
NUBASE
1649 52-Te-121 0.5+ 19.16 d 0.26
β+:100.00
4
9.840E+03 5.775E+05 UKPADD67
1650 52-Te-121M 5.5- 2.940E+05 154 d 4.55
β+:11.30; IT:88.70
4
8.009E+04 2.169E+05 UKPADD67
1651 52-Te-122 0.0+
NUBASE
1652 52-Te-123 0.5+ 9.2E+16 y 100
β+:100.00
3
2.002E+03 2.595E+02 ENSDF
1653 52-Te-123M 5.5- 2.474E+05 119.5 d 0.08
IT:100.00
3
9.604E+04 1.477E+05 LNHB
1654 52-Te-124 0.0+
NUBASE
1655 52-Te-125 0.5+
NUBASE
1656 52-Te-125M 5.5- 1.448E+05 57.4 d 0.26
IT:100.00
3
1.053E+05 3.513E+04 LNHB
1657 52-Te-126 0.0+
NUBASE
1658 52-Te-127 1.5+ 9.35 h 0.64
β-:100.00
4
2.244E+05 4.847E+03 UKPADD67
1659 52-Te-127M 5.5- 8.826E+04 109 d 1.83
IT:97.60; β-:2.40
4
8.214E+04 1.158E+04 UKPADD67
1660 52-Te-128 0.0+ 2.2E+24 y 13.64
2β-:100.00
0
8.672E+05 ENSDF
1661 52-Te-129 1.5+ 1.16 h 0.29
β-:100.00
4
5.428E+05 6.237E+04 ENSDF
1662 52-Te-129M 5.5- 1.055E+05 33.6 d 0.30
β-:37.00; IT:63.00
4
2.630E+05 3.766E+04 ENSDF
1663 52-Te-130 0.0+ 7.9E+23 y 12.66
2β-:100.00
0
2.528E+06 ENSDF
1664 52-Te-131 1.5+ 25 m 0.40
β-:100.00
4
7.369E+05 4.457E+05 LNHB
1665 52-Te-131M 5.5- 1.823E+05 1.25 d 0.64
IT:21.00; β-:79.00
4
1.932E+05 1.456E+06 LNHB
1666 52-Te-132 0.0+ 3.204 d 0.41
β-:100.00
4
1.014E+05 2.340E+05 ENSDF
1667 52-Te-133 1.5+ 12.45 m 2.41
β-:100.00
4
6.780E+05 1.182E+06 LNHB
1668 52-Te-133M 5.5- 3.343E+05 55.4 m 0.72
β-:82.50; IT:17.50
4
3.761E+05 1.823E+06 ENSDF
1669 52-Te-134 0.0+ 41.8 m 1.91
β-:100.00
4
2.248E+05 8.773E+05 LNHB
1670 52-Te-135 3.5- 19 s 1.05
β-:100.00
2
2.442E+06 3.844E+05 ENSDF
1671 52-Te-136 0.0+ 17.5 s 1.14
β-:100.00
4
1.302E+06 1.987E+06 ENSDF
1672 52-Te-137 1.5- 2.49 s 2.01
β-:97.01; β-,n:1.49;
β-,nm:1.49
0
2.257E+06 2.257E+06 1.154E+04 NUBASE
1673 52-Te-138 0.0+ 1.4 s 28.57
β-:93.70; β-,n:6.30
0
2.038E+06 2.038E+06 3.940E+04 NUBASE
1674 52-Te-139 2.5- 0.5 s 100
β-:100.00
0
2.680E+06 2.680E+06 NUBASE
1675 52-Te-140 0.0+ 0.3 s 100
β-:100.00
0
2.437E+06 2.437E+06 NUBASE
1676 52-Te-141 2.5- 0.1 s 100
β-:100.00
0
2.987E+06 2.987E+06 NUBASE
1677 52-Te-142 0.0+ 0.05 s 100
β-:100.00
0
2.763E+06 2.763E+06 NUBASE
1678 53-I -108 1.0+ 0.036 s 16.67
α:90.00; β+:9.00;
p:1.00
0
3.921E+05 3.921E+05 3.701E+06 NUBASE
1679 53-I -109 2.5+ 1.03E-04 s 4.85
p:100.00
0
8.210E+05 NUBASE
1680 53-I -110 1.0+ 0.65 s 3.08
β+:70.90; α:17.00;
β+,p:11.00; β+,n:1.10
0
3.105E+06 3.105E+06 8.877E+05 NUBASE
1681 53-I -111 2.5+ 2.5 s 8
β+:99.91; α:0.09
0
2.841E+06 2.841E+06 2.882E+03 NUBASE
92 THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009
MAIN DATA TABLES
Matn Nuclide
SpPa
Exc ener
Half-life (%-err)
Decay modes (%)
Nsp
<β> (eV)
<γ> (eV)
<α>
(eV)
Source
1682 53-I -112 1.0+ 3.42 s 3.22
β+:99.02; α:~;
β+,p:0.88; β+,n:0.10
0
3.384E+06 3.384E+06 1.746E+04 NUBASE
1683 53-I -113 2.5+ 6.6 s 3.03
β+:100.00; α:~
0
2.406E+06 2.406E+06 8.951E-03 NUBASE
1684 53-I -114 1.0+ 2.1 s 9.52
β+:100.00
0
3.030E+06 3.030E+06 NUBASE
1685 53-I -114M ? 2.659E+05 6.2 s 8.06
β+:91.00; IT:9.00
0
2.838E+06 2.862E+06 NUBASE
1686 53-I -115 2.5+ 1.3 m 15.38
β+:50.00; β+
m:50.00
0
1.907E+06 1.907E+06 NUBASE
1687 53-I -116 1.0+ 2.91 s 5.15
β+:100.00
0
2.593E+06 2.593E+06 NUBASE
1688 53-I -117 2.5+ 2.22 m 1.80
β+:50.00; β+
m:50.00
0
1.505E+06 1.505E+06 NUBASE
1689 53-I -118 2.0- 13.7 m 3.65
β+:100.00
4
2.107E+06 1.961E+06 ENSDF
1690 53-I -118M 7.0- 1.901E+05 8.5 m 5.88
β+:100.00
4
1.148E+06 3.701E+06 ENSDF
1691 53-I -119 2.5+ 19.1 m 2.09
β+:99.05; β+
m:0.95
4
4.829E+05 8.780E+05 ENSDF
1692 53-I -120 2.0- 1.36 h 0.25
β+:100.00
4
1.168E+06 2.099E+06 ENSDF
1693 53-I -120M 7.0- 3.200E+05 53 m 7.55
β+:100.00
0
1.978E+06 1.978E+06 NUBASE
1694 53-I -121 2.5+ 2.12 h 0.47
β+:99.71; β+
m:0.29
4
6.716E+04 3.966E+05 ENSDF
1695 53-I -122 1.0+ 3.63 m 1.65
β+:100.00
4
1.107E+06 9.616E+05 ENSDF
1696 53-I -123 2.5+ 13.223 h 0.03
β+:100.00
4
2.621E+04 1.719E+05 LNHB
1697 53-I -124 2.0- 4.176 d 0.01
β+:100.00
4
1.924E+05 1.111E+06 ENSDF
1698 53-I -125 2.5+ 59.407 d 0.02
β+:100.00
4
1.648E+04 4.224E+04 LNHB
1699 53-I -126 2.0- 12.98 d 0.39
β-:43.70; β+:56.30
5
1.438E+05 4.356E+05 UKPADD67
1700 53-I -127 2.5+
NUBASE
1701 53-I -128 1.0+ 24.99 m 0.08
β+:6.90; β-:93.10
5
7.401E+05 8.609E+04 LNHB
1702 53-I -129 3.5+ 1.61E+07 y 4.35
β-:100.00
4
6.233E+04 2.451E+04 LNHB
1703 53-I -130 5.0+ 12.36 h 0.08
β-:100.00
4
2.789E+05 2.136E+06 ENSDF
1704 53-I -130M 2.0+ 3.995E+04 8.84 m 0.68
IT:84.00; β-:16.00
0
1.594E+05 1.930E+05 NUBASE
1705 53-I -131 3.5+ 8.023 d 0.02
β-:98.91; β-
m:1.09
4
1.924E+05 3.815E+05 LNHB
1706 53-I -132 4.0+ 2.295 h 0.57
β-:100.00
4
4.968E+05 2.255E+06 ENSDF
1707 53-I -132M 8.0- 1.200E+05 1.383 h 1.20
IT:86.00; β-:14.00
4
1.627E+05 3.448E+05 UKPADD67
1708 53-I -133 3.5+ 20.8 h 0.48
β-:97.15; β-
m:2.85
4
4.089E+05 6.115E+05 ENSDF
1709 53-I -133M 9.5- 1.632E+06 9 s 22.22
IT:100.00
3
4.908E+04 1.581E+06 ENSDF
1710 53-I -134 4.0+ 52.5 m 0.38
β-:100.00
4
6.232E+05 2.523E+06 ENSDF
1711 53-I -134M 8.0- 3.165E+05 3.6 m 2.78
IT:97.70; β-
m:2.30
4
8.671E+04 2.425E+05 ENSDF
1712 53-I -135 3.5+ 6.57 h 0.30
β-:83.49; β-
m:16.51
4
3.663E+05 1.578E+06 ENSDF
1713 53-I -136 1.0- 1.39 m 1.20
β-:100.00
4
1.986E+06 2.349E+06 ENSDF
1714 53-I -136M 6.0- 6.500E+05 46.9 s 2.13
β-:100.00
0
2.525E+06 2.525E+06 NUBASE
1715 53-I -137 3.5+ 24.51 s 0.24
β-:93.50; β-,n:6.50
5
1.862E+06 1.220E+06 3.938E+04 UKPADD67
1716 53-I -138 2.0- 6.46 s 0.93
β-:94.70; β-,n:5.30
5
2.720E+06 1.325E+06 5.288E+03 UKPADD67
1717 53-I -139 3.5+ 2.3 s 1.30
β-:90.20; β-,n:9.80
5
2.533E+06 6.723E+05 1.112E+04 UKPADD67
1718 53-I -140 3.0- 0.86 s 4.65
β-:90.70; β-,n:9.30
0
2.713E+06 2.713E+06 7.679E+04 NUBASE
1719 53-I -141 3.5+ 0.43 s 4.65
β-:79.00; β-,n:21.00
0
2.288E+06 2.288E+06 2.309E+05 NUBASE
1720 53-I -142 2.0- 0.2 s 100
β-:75.00; β-,n:25.00
0
2.724E+06 2.724E+06 2.837E+05 NUBASE
1721 53-I -143 3.5+ 0.1 s 100
β-:60.00; β-,n:40.00
0
2.339E+06 2.339E+06 5.769E+05 NUBASE
1722 53-I -144 1.0- 0.05 s 100
β-:60.00; β-,n:40.00
0
2.720E+06 2.720E+06 5.799E+05 NUBASE
1723 54-Xe-110 0.0+ 0.31 s 61.29
α:64.00; β+:36.00
0
1.010E+06 1.010E+06 2.486E+06 NUBASE
THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009 93
MAIN DATA TABLES
Matn Nuclide
SpPa
Exc ener
Half-life (%-err)
Decay modes (%)
Nsp
<β> (eV)
<γ> (eV)
<α>
(eV)
Source
1724 54-Xe-111 2.5+ 0.74 s 27.03
β+:90.00; α:10.00
0
3.165E+06 3.165E+06 3.715E+05 NUBASE
1725 54-Xe-112 0.0+ 2.7 s 29.63
β+:99.10; α:0.90
0
2.355E+06 2.355E+06 2.993E+04 NUBASE
1726 54-Xe-113 2.5+ 2.74 s 2.92
β+:92.98; α:0.01;
β+,p:7.00; β+,n:0.01
0
2.941E+06 2.941E+06 1.392E+05 NUBASE
1727 54-Xe-114 0.0+ 10 s 4
β+:100.00
0
1.905E+06 1.905E+06 NUBASE
1728 54-Xe-115 2.5+ 18 s 22.22
β+:99.66; β+,p:0.34;
β+,n:~
0
2.557E+06 2.557E+06 5.059E+03 NUBASE
1729 54-Xe-116 0.0+ 59 s 3.39
β+:100.00
0
1.481E+06 1.481E+06 NUBASE
1730 54-Xe-117 2.5+ 1.017 m 3.28
β+:100.00; β+,p:~
0
2.083E+06 2.083E+06 2.751E+01 NUBASE
1731 54-Xe-118 0.0+ 3.8 m 23.68
β+:100.00
0
9.640E+05 9.640E+05 NUBASE
1732 54-Xe-119 2.5+ 5.8 m 5.17
β+:100.00
0
1.657E+06 1.657E+06 NUBASE
1733 54-Xe-120 0.0+ 40 m 2.50
β+:100.00
4
5.087E+04 4.239E+05 ENSDF
1734 54-Xe-121 2.5+ 40.1 m 0.50
β+:100.00
4
5.434E+05 1.400E+06 ENSDF
1735 54-Xe-122 0.0+ 20.1 h 0.50
β+:100.00
4
8.675E+03 6.820E+04 ENSDF
1736 54-Xe-123 0.5+ 2.08 h 0.96
β+:100.00
4
1.822E+05 6.372E+05 ENSDF
1737 54-Xe-124 0.0+ 2E+14 y 100
2β+:100.00
0
2.864E+06 NUBASE
1738 54-Xe-125 0.5+ 16.9 h 1.18
β+:100.00
4
3.451E+04 2.705E+05 UKPADD67
1739 54-Xe-125M 4.5- 2.526E+05 56 s 5.36
IT:100.00
3
1.364E+05 1.161E+05 UKPADD67
1740 54-Xe-126 0.0+
NUBASE
1741 54-Xe-127 0.5+ 36.4 d 0.27
β+:100.00
4
2.987E+04 2.806E+05 LNHB
1742 54-Xe-127M 4.5- 2.971E+05 1.16 m 1.29
IT:100.00
3
1.287E+05 1.685E+05 UKPADD67
1743 54-Xe-128 0.0+
NUBASE
1744 54-Xe-129 0.5+
NUBASE
1745 54-Xe-129M 5.5- 2.361E+05 8.88 d 0.23
IT:100.00
3
1.814E+05 5.122E+04 ENSDF
1746 54-Xe-130 0.0+
NUBASE
1747 54-Xe-131 1.5+
NUBASE
1748 54-Xe-131M 5.5- 1.639E+05 11.93 d 0.13
IT:100.00
3
1.424E+05 2.007E+04 LNHB
1749 54-Xe-132 0.0+
NUBASE
1750 54-Xe-132M 10.0+ 2.752E+06 8.39E-03 s 1.31
IT:100.00
3
5.330E+04 2.709E+06 ENSDF
1751 54-Xe-133 1.5+ 5.244 d 0.08
β-:100.00
4
1.335E+05 4.612E+04 LNHB
1752 54-Xe-133M 5.5- 2.332E+05 2.188 d 0.50
IT:100.00
3
1.895E+05 4.160E+04 LNHB
1753 54-Xe-134 0.0+ 1.1E+16 y 100
2β-:100.00
0
8.300E+05 ENSDF
1754 54-Xe-134M 7.0- 1.966E+06 0.29 s 5.86
IT:100.00
3
6.794E+04 1.901E+06 ENSDF
1755 54-Xe-135 1.5+ 9.14 h 0.22
β-:100.00
4
3.150E+05 2.482E+05 ENSDF
1756 54-Xe-135M 5.5- 5.266E+05 15.29 m 0.33
IT:99.40; β-:0.60
4
9.369E+04 4.256E+05 ENSDF
1757 54-Xe-136 0.0+ 2.1E+20 y 100
2β-:100.00
0
2.467E+06 ENSDF
1758 54-Xe-137 3.5- 3.818 m 0.34
β-:100.00
4
1.695E+06 1.905E+05 ENSDF
1759 54-Xe-138 0.0+ 14.08 m 0.57
β-:100.00
4
6.419E+05 1.124E+06 ENSDF
1760 54-Xe-139 1.5- 39.68 s 0.35
β-:100.00
0
1.686E+06 1.686E+06 NUBASE
1761 54-Xe-140 0.0+ 13.6 s 0.74
β-:100.00
0
1.354E+06 1.354E+06 NUBASE
1762 54-Xe-141 2.5- 1.73 s 0.58
β-:99.96; β-,n:0.04
0
2.048E+06 2.048E+06 7.147E+01 NUBASE
1763 54-Xe-142 0.0+ 1.22 s 1.64
β-:99.64; β-,n:0.36
0
1.673E+06 1.673E+06 8.331E+02 NUBASE
1764 54-Xe-143 2.5- 0.511 s 1.17
β-:99.00; β-,n:1.00
0
2.388E+06 2.388E+06 4.984E+03 NUBASE
94 THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009
MAIN DATA TABLES
Matn Nuclide
SpPa
Exc ener
Half-life (%-err)
Decay modes (%)
Nsp
<β> (eV)
<γ> (eV)
<α>
(eV)
Source
1765 54-Xe-144 0.0+ 0.388 s 1.80
β-:97.00; β-,n:3.00
0
1.954E+06 1.954E+06 1.740E+04 NUBASE
1766 54-Xe-145 1.5- 0.188 s 2.13
β-:95.00; β-,n:2.50;
β-,nm:2.50
0
2.557E+06 2.557E+06 3.686E+04 NUBASE
1767 54-Xe-146 0.0+ 0.146 s 4.11
β-:93.10; β-,n:6.90
0
2.214E+06 2.214E+06 5.720E+04 NUBASE
1768 54-Xe-147 1.5- 0.13 s 61.54
β-:96.00; β-,n:4.00
0
2.846E+06 2.846E+06 4.289E+04 NUBASE
1769 55-Cs-112 1.0+ 5E-04 s 20
p:100.00
0
8.210E+05 NUBASE
1770 55-Cs-113 2.5+ 1.67E-05 s 4.19
p:100.00
0
9.810E+05 NUBASE
1771 55-Cs-114 1.0+ 0.57 s 3.51
β+:91.09; β+,p:8.70;
β+,n:0.19; α:0.02
0
4.019E+06 4.019E+06 2.102E+05 NUBASE
1772 55-Cs-115 4.5+ 1.4 s 57.14
β+:99.93; β+,p:0.03;
β+,pm:0.03
0
2.985E+06 2.985E+06 9.937E+02 NUBASE
1773 55-Cs-116 1.0+ 0.7 s 5.71
β+:99.67; β+,p:0.28;
β+,n:0.05
0
3.653E+06 3.653E+06 6.454E+03 NUBASE
1774 55-Cs-116M ? 1.000E+05 3.85 s 3.38
β+:99.48; β+,p:0.51;
β+,n:0.01
0
3.682E+06 3.682E+06 9.284E+03 NUBASE
1775 55-Cs-117 4.5+ 8.4 s 7.14
β+:100.00
0
2.582E+06 2.582E+06 NUBASE
1776 55-Cs-117M 1.5+ 1.500E+05 6.5 s 6.15
β+:100.00
0
2.632E+06 2.632E+06 NUBASE
1777 55-Cs-118 ? 14 s 14.29
β+:99.98; β+,p:0.02;
β+,n:~
0
3.223E+06 3.223E+06 2.819E+02 NUBASE
1778 55-Cs-118M 7.0- 1.000E+05 17 s 17.65
β+:99.98; β+,p:0.02;
β+,n:~
0
3.256E+06 3.256E+06 2.874E+02 NUBASE
1779 55-Cs-119 4.5+ 43 s 0.47
β+:100.00; β+,n:~;
β+,nm:~
0
2.163E+06 2.163E+06 3.664E-02 NUBASE
1780 55-Cs-119M 1.5+ 5.000E+04 30.4 s 0.33
β+:100.00
0
2.180E+06 2.180E+06 NUBASE
1781 55-Cs-120 2.0+ 1.02 m 2.94
β+:100.00; β+,n:~;
β+,p:~
0
2.761E+06 2.761E+06 4.930E-01 NUBASE
1782 55-Cs-120M 7.0- 1.000E+05 57 s 10.53
β+:100.00; β+,n:~;
β+,p:~
0
2.794E+06 2.794E+06 4.998E-01 NUBASE
1783 55-Cs-121 1.5+
2.583 m 2.58
β+:100.00
4
1.736E+06
1.067E+06
ENSDF
1784 55-Cs-121M 4.5+ 6.850E+04
2.033 m 2.46
β+:83.00; IT:17.00
0
1.505E+06
1.517E+06
NUBASE
1785 55-Cs-122 1.0+
21.2 s 0.94
β+:100.00
4
2.518E+06
1.298E+06
ENSDF
1786 55-Cs-122M 8.0- 1.260E+05
3.7 m 2.97
β+:100.00
0
2.447E+06
2.447E+06
NUBASE
1787 55-Cs-122N 5.0- 1.270E+05
0.36 s 5.56
IT:50.00; ITm:50.00
0
6.400E+04
NUBASE
1788 55-Cs-123 0.5+
5.91 m 0.85
β+:100.00
4
9.424E+05
1.068E+06
UKPADD67
1789 55-Cs-123M 5.5- 1.563E+05
1.7 s 11.76
IT:100.00
3
1.121E+05
4.413E+04
UKPADD67
1790 55-Cs-124 1.0+
30.9 s 1.29
β+:100.00
0
1.976E+06
1.976E+06
NUBASE
1791 55-Cs-124M 7.0+ 4.626E+05
6.3 s 3.17
IT:100.00
0
4.626E+05
NUBASE
1792 55-Cs-125 0.5+
46.7 m 0.21
β+:100.00
4
3.497E+05
6.888E+05
ENSDF
1793 55-Cs-125M 5.5- 2.666E+05
0.9 s 3.33
IT:100.00
0
2.666E+05
NUBASE
1794 55-Cs-126 1.0+
1.64 m 1.22
β+:100.00
4
1.318E+06
1.140E+06
ENSDF
1795 55-Cs-127 0.5+
6.25 h 1.60
β+:100.00
4
2.774E+04
4.312E+05
ENSDF
1796 55-Cs-128 1.0+
3.62 m 0.55
β+:100.00
4
8.748E+05
8.917E+05
ENSDF
1797 55-Cs-129 0.5+
1.342 d 0.62
β+:100.00
4
1.742E+04
2.832E+05
UKPADD67
1798 55-Cs-130 1.0+
29.21 m 0.14
β+:98.40; β-:1.60
5
3.867E+05
5.028E+05
ENSDF
THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009 95
MAIN DATA TABLES
Matn Nuclide
SpPa
Exc ener
Half-life (%-err)
Decay modes (%)
Nsp
<β> (eV)
<γ> (eV)
<α>
(eV)
Source
1799 55-Cs-130M 5.0- 1.632E+05 3.46 m 1.73
IT:99.84; β+:0.16
0
1.677E+03 1.647E+05 NUBASE
1800 55-Cs-131 2.5+ 9.69 d 0.21
β+:100.00
3
6.370E+03 2.312E+04 UKPADD67
1801 55-Cs-132 2.0+ 6.53 d 0.31
β-:1.80; β+:98.20
5
1.411E+04 7.152E+05 UKPADD67
1802 55-Cs-133 3.5+
NUBASE
1803 55-Cs-134 4.0+ 2.065 y 0.03
β+:~; β-:100.00
5
1.636E+05 1.555E+06 LNHB
1804 55-Cs-134M 8.0- 1.387E+05 2.908 h 0.10
IT:100.00
3
1.118E+05 2.708E+04 UKPADD67
1805 55-Cs-135 3.5+ 2.3E+06 y 13.04
β-:100.00
1
7.590E+04 ENSDF
1806 55-Cs-135M 9.5- 1.633E+06 53 m 3.77
IT:100.00
3
3.370E+04 1.600E+06 ENSDF
1807 55-Cs-136 5.0+ 13.03 d 0.54
β-:100.00
4
1.419E+05 2.146E+06 UKPADD67
1808 55-Cs-136M 8.0- 6.000E+05 19 s 10.53
β-:50.00; IT:50.00
0
6.167E+05 6.167E+05 UKPADD67
1809 55-Cs-137 3.5+ 30.041 y 0.10
β-:5.60; β-
m:94.40
2
1.879E+05 1.644E+00 ENSDF
1810 55-Cs-138 3.0- 33.41 m 0.54
β-:100.00
4
1.244E+06 2.355E+06 ENSDF
1811 55-Cs-138M 6.0- 7.990E+04 2.91 m 2.75
IT:81.00; β-:19.00
4
3.239E+05 4.148E+05 ENSDF
1812 55-Cs-139 3.5+ 9.27 m 0.54
β-:100.00
4
1.671E+06 3.050E+05 ENSDF
1813 55-Cs-140 1.0- 1.062 m 0.47
β-:100.00
4
1.964E+06 1.675E+06 ENSDF
1814 55-Cs-141 3.5+ 24.84 s 0.68
β-:100.00
4
1.506E+06 1.701E+06 ENSDF
1815 55-Cs-142 0.0- 1.684 s 0.83
β-:100.00
4
2.899E+06 6.753E+05 ENSDF
1816 55-Cs-143 1.5+ 1.791 s 0.39
β-:98.36; β-,n:1.64
0
2.063E+06 2.063E+06 8.531E+03 NUBASE
1817 55-Cs-144 1.0- 0.994 s 0.40
β-:96.80; β-,n:3.20
0
2.763E+06 2.763E+06 2.076E+04 NUBASE
1818 55-Cs-144M ? 3.000E+05 1 s 100
β-:50.00; IT:50.00
0
1.466E+06 1.616E+06 NUBASE
1819 55-Cs-145 1.5+ 0.594 s 2.19
β-:85.70; β-,n:14.30
4
2.956E+06 7.149E+05 ENSDF
1820 55-Cs-146 1.0- 0.323 s 1.86
β-:85.80; β-,n:14.20
0
2.815E+06 2.815E+06 1.320E+05 NUBASE
1821 55-Cs-147 1.5+ 0.225 s 2.22
β-:71.50; β-,n:28.50
0
2.395E+06 2.395E+06 3.497E+05 NUBASE
1822 55-Cs-148 ? 0.146 s 4.11
β-:74.90; β-,n:25.10
0
3.002E+06 3.002E+06 3.281E+05 NUBASE
1823 55-Cs-149 1.5+ 0.15 s 100
β-:100.00
0
3.213E+06 3.213E+06 NUBASE
1824 55-Cs-150 ? 0.1 s 100
β-:100.00
0
3.880E+06 3.880E+06 NUBASE
1825 55-Cs-151 1.5+ 0.06 s 100
β-:100.00
0
3.533E+06 3.533E+06 NUBASE
1826 56-Ba-114 0.0+ 0.53 s 43.40
β+:79.10; β+,p:20.00;
α:0.90
0
2.707E+06 2.707E+06 4.743E+05 NUBASE
1827 56-Ba-115 2.5+ 0.45 s 11.11
β+:85.00; β+,p:15.00
0
3.427E+06 3.427E+06 4.038E+05 NUBASE
1828 56-Ba-116 0.0+ 1.3 s 15.38
β+:97.00; β+,p:3.00
0
2.466E+06 2.466E+06 5.076E+04 NUBASE
1829 56-Ba-117 1.5+ 1.75 s 4
β+m:86.98; β+,p:13.00;
β+,n:0.02
0
2.885E+06 2.885E+06 2.759E+05 NUBASE
1830 56-Ba-118 0.0+ 5.2 s 3.85
β+:100.00
0
2.013E+06 2.013E+06 NUBASE
1831 56-Ba-119 2.5+ 5.4 s 5.56
β+:37.50; β+
m:37.50;
β+,p:25.00
0
2.310E+06 2.310E+06 3.875E+05 NUBASE
1832 56-Ba-120 0.0+ 24 s 8.33
β+:100.00
0
1.666E+06 1.666E+06 NUBASE
1833 56-Ba-121 2.5+ 29.7 s 5.05
β+:49.99; β+
m:49.99;
β+,p:0.02
0
2.108E+06 2.108E+06 2.072E+02 NUBASE
1834 56-Ba-122 0.0+ 1.95 m 7.69
β+:100.00
0
1.177E+06 1.177E+06 NUBASE
1835 56-Ba-123 2.5+ 2.7 m 14.81
β+:50.00; β+
m:50.00
0
1.770E+06 1.770E+06 NUBASE
1836 56-Ba-124 0.0+ 11 m 4.55
β+:100.00
4
1.621E+05 5.500E+05 ENSDF
1837 56-Ba-125 0.5+ 3.5 m 11.43
β+:100.00
0
1.473E+06 1.473E+06 NUBASE
96 THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009
MAIN DATA TABLES
Matn Nuclide
SpPa
Exc ener
Half-life (%-err)
Decay modes (%)
Nsp
<β> (eV)
<γ> (eV)
<α>
(eV)
Source
1838 56-Ba-126 0.0+ 1.667 h 2
β+:100.00
4
1.813E+04 5.651E+05 UKPADD67
1839 56-Ba-127 0.5+ 12.7 m 3.15
β+:100.00
4
5.928E+05 7.123E+05 ENSDF
1840 56-Ba-127M 3.5- 8.033E+04 1.9 s 10.53
IT:100.00
0
8.033E+04 NUBASE
1841 56-Ba-128 0.0+ 2.43 d 2.06
β+:100.00
4
7.054E+03 6.599E+04 ENSDF
1842 56-Ba-129 0.5+ 2.38 h 4.62
β+:100.00
4
1.273E+05 4.665E+05 UKPADD67
1843 56-Ba-129M 3.5+ 8.420E+03 2.14 h 2.34
β+:100.00
4
6.910E+04 1.207E+06 UKPADD67
1844 56-Ba-130 0.0+
NUBASE
1845 56-Ba-130M 8.0- 2.475E+06 9.54E-03 s 1.47
IT:100.00
0
2.475E+06 NUBASE
1846 56-Ba-131 0.5+ 11.55 d 0.43
β+:100.00
4
4.625E+04 4.595E+05 UKPADD67
1847 56-Ba-131M 4.5- 1.875E+05 14.6 m 1.37
IT:100.00
3
1.101E+05 7.715E+04 UKPADD67
1848 56-Ba-132 0.0+
NUBASE
1849 56-Ba-133 0.5+ 10.54 y 0.09
β+:100.00
4
5.348E+04 4.017E+05 LNHB
1850 56-Ba-133M 5.5- 2.882E+05 1.592 d 0.79
β+:0.01; IT:99.99
4
2.216E+05 6.691E+04 UKPADD67
1851 56-Ba-134 0.0+
NUBASE
1852 56-Ba-135 1.5+
NUBASE
1853 56-Ba-135M 5.5- 2.682E+05 1.196 d 0.70
IT:100.00
3
2.059E+05 6.108E+04 ENSDF
1854 56-Ba-136 0.0+
NUBASE
1855 56-Ba-136M 7.0- 2.031E+06 0.308 s 0.62
IT:100.00
3
1.020E+05 1.927E+06 ENSDF
1856 56-Ba-137 1.5+
NUBASE
1857 56-Ba-137M 5.5- 6.617E+05 2.552 m 0.04
IT:100.00
3
6.073E+04 5.984E+05 LNHB
1858 56-Ba-138 0.0+
NUBASE
1859 56-Ba-139 3.5- 1.384 h 0.34
β-:100.00
3
8.928E+05 4.401E+04 ENSDF
1860 56-Ba-140 0.0+ 12.765 d 0.12
β-:100.00
4
3.106E+05 1.801E+05 LNHB
1861 56-Ba-141 1.5- 18.27 m 0.38
β-:100.00
4
9.457E+05 8.712E+05 ENSDF
1862 56-Ba-142 0.0+ 10.6 m 1.89
β-:100.00
4
3.991E+05 1.045E+06 ENSDF
1863 56-Ba-143 2.5- 14.5 s 2.07
β-:100.00
0
1.195E+06 1.341E+06 NUBASE
1864 56-Ba-144 0.0+ 11.5 s 1.74
β-:100.00
0
9.298E+05 7.847E+05 NUBASE
1865 56-Ba-145 2.5- 4.31 s 3.71
β-:100.00
0
1.285E+06 1.833E+06 NUBASE
1866 56-Ba-146 0.0+ 2.22 s 3.15
β-:100.00
0
1.373E+06 1.373E+06 NUBASE
1867 56-Ba-147 1.5+ 0.893 s 0.11
β-:99.98
4
2.379E+06 2.888E+05 ENSDF
1868 56-Ba-148 0.0+ 0.612 s 2.78
β-:99.60; β-,n:0.40
0
1.701E+06 1.701E+06 7.687E+02 NUBASE
1869 56-Ba-149 1.5- 0.344 s 2.03
β-:99.57; β-,n:0.43
0
2.428E+06 2.428E+06 1.686E+03 NUBASE
1870 56-Ba-150 0.0+ 0.3 s 100
β-:100.00
0
2.147E+06 2.147E+06 NUBASE
1871 56-Ba-151 1.5- 0.2 s 100
β-:100.00
0
2.823E+06 2.823E+06 NUBASE
1872 56-Ba-152 0.0+ 0.1 s 100
β-:100.00
0
2.490E+06 2.490E+06 NUBASE
1873 56-Ba-153 2.5- 0.08 s 100
β-:100.00
0
3.103E+06 3.103E+06 NUBASE
1874 57-La-117 ? 0.024 s 11.06
p:94.00; β+:6.00
0
2.156E+05 2.156E+05 7.529E+05 NUBASE
1875 57-La-117M 4.5+ 1.380E+05 0.01 s 50
p:97.00; β+:3.00
0
1.092E+05 1.092E+05 9.108E+05 NUBASE
1876 57-La-118 ? 0.2 s 100
β+:100.00
0
4.250E+06 4.250E+06 NUBASE
1877 57-La-119 5.5- 1 s 100
β+:100.00
0
3.207E+06 3.207E+06 NUBASE
1878 57-La-120 ? 2.8 s 7.14
β+:100.00
0
3.733E+06 3.733E+06 NUBASE
1879 57-La-121 5.5- 5.3 s 3.77
β+:100.00
0
2.780E+06 2.780E+06 NUBASE
1880 57-La-122 ? 8.7 s 8.05
β+:100.00
0
3.356E+06 3.356E+06 NUBASE
THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009 97
MAIN DATA TABLES
Matn Nuclide
SpPa
Exc ener
Half-life (%-err)
Decay modes (%)
Nsp
<β> (eV)
<γ> (eV)
<α>
(eV)
Source
1881 57-La-123 5.5- 17 s 17.65
β+:100.00
0
2.315E+06 2.315E+06 NUBASE
1882 57-La-124 ? 29.21 s 0.58
β+:100.00
0
2.943E+06 2.943E+06 NUBASE
1883 57-La-124M 0.0+ 1.000E+05 21 s 19.05
β+:100.00
0
2.977E+06 2.977E+06 NUBASE
1884 57-La-125 5.5- 1.08 m 1.85
β+:100.00
0
1.970E+06 1.970E+06 NUBASE
1885 57-La-125M 1.5+ 1.070E+05 0.39 s 10.26
IT:100.00
0
1.070E+05 NUBASE
1886 57-La-126 5.0+ 54 s 3.70
β+:100.00
0
2.567E+06 2.567E+06 NUBASE
1887 57-La-126M ? 1.000E+05 20 s 100
β+:100.00
0
2.600E+06 2.600E+06 NUBASE
1888 57-La-127 5.5- 5.1 m 1.96
β+m:100.00
0
1.613E+06 1.613E+06 NUBASE
1889 57-La-127M 1.5+ 1.480E+04 3.7 m 10.81
β+:100.00
0
1.645E+06 1.645E+06 NUBASE
1890 57-La-128 5.0+ 5.18 m 2.70
β+:100.00
0
2.257E+06 2.257E+06 NUBASE
1891 57-La-128M ? 1.000E+05 1.4 m 100
β+:100.00
0
2.291E+06 2.291E+06 NUBASE
1892 57-La-129 1.5+ 11.6 m 1.72
β+:92.61; β+
m:7.39
4
6.212E+05 9.217E+05 ENSDF
1893 57-La-129M 5.5- 1.721E+05 0.56 s 8.93
IT:100.00
0
1.721E+05 NUBASE
1894 57-La-130 3.0+ 8.7 m 1.15
β+:100.00
4
1.113E+06 2.199E+06 ENSDF
1895 57-La-131 1.5+ 59 m 3.39
β+:100.00
4
2.115E+05 6.586E+05 ENSDF
1896 57-La-132 2.0- 4.8 h 4.17
β+:100.00
4
5.561E+05 1.944E+06 ENSDF
1897 57-La-132M 6.0- 1.882E+05 24.3 m 2.06
IT:76.00; β+:24.00
0
3.906E+05 5.337E+05 NUBASE
1898 57-La-133 2.5+ 3.912 h 0.20
β+:100.00
4
3.758E+04 1.275E+05 ENSDF
1899 57-La-134 1.0+ 6.45 m 2.48
β+:100.00
4
7.580E+05 7.161E+05 ENSDF
1900 57-La-135 2.5+ 19.5 h 1.03
β+:100.00
4
5.152E+03 3.574E+04 ENSDF
1901 57-La-136 1.0+ 9.87 m 0.30
β+:100.00
4
3.030E+05 4.146E+05 ENSDF
1902 57-La-136M ? 2.550E+05 0.114 s 2.63
IT:100.00
0
2.550E+05 NUBASE
1903 57-La-137 3.5+ 6E+04 y 33.33
β+:100.00
3
6.552E+03 2.559E+04 UKPADD67
1904 57-La-138 5.0+ 1.02E+11 y 0.98
β+:65.60; β-:34.40
5
3.650E+04 1.226E+06 ENSDF
1905 57-La-139 3.5+
NUBASE
1906 57-La-140 3.0- 1.679 d 0.01
β-:100.00
4
5.351E+05 2.313E+06 UKPADD67
1907 57-La-141 3.5+ 3.92 h 0.77
β-:100.00
2
9.625E+05 2.678E+04 ENSDF
1908 57-La-142 2.0- 1.518 h 0.55
β-:100.00
4
9.619E+05 2.121E+06 ENSDF
1909 57-La-143 3.5+ 14.14 m 1.13
β-:100.00
2
1.235E+06 4.394E+05 ENSDF
1910 57-La-144 3.0- 40.8 s 0.98
β-:100.00
4
9.862E+05 3.085E+06 ENSDF
1911 57-La-145 2.5+ 24.8 s 8.06
β-:100.00
4
7.618E+05 2.144E+06 ENSDF
1912 57-La-146 2.0- 6.27 s 1.59
β-:100.00
4
2.345E+06 1.195E+06 ENSDF
1913 57-La-146M 6.0- 1.300E+05 10 s 1
β-:100.00
0
2.230E+06 2.230E+06 NUBASE
1914 57-La-147 2.5+ 4.015 s 0.20
β-:100.00
4
2.059E+06 1.837E+05 ENSDF
1915 57-La-148 2.0- 1.26 s 6.35
β-:100.00
4
2.672E+06 1.194E+06 ENSDF
1916 57-La-149 2.5+ 1.05 s 2.86
β-:98.60; β-,n:1.40
0
1.944E+06 1.944E+06 5.319E+03 NUBASE
1917 57-La-150 3.0+ 0.51 s 5.88
β-:97.30; β-,n:2.70
0
2.534E+06 2.534E+06 1.072E+04 NUBASE
1918 57-La-151 2.5+ 0.3 s 100
β-:100.00
0
2.403E+06 2.403E+06 NUBASE
1919 57-La-152 2.0- 0.28 s 21.43
β-:93.96; β-,n:6.04
3
2.355E+06 2.885E+06 2.396E+04 UKPADD67
1920 57-La-153 2.5+ 0.15 s 100
β-:100.00
0
2.807E+06 2.807E+06 NUBASE
1921 57-La-154 ? 0.1 s 100
β-:100.00
0
3.440E+06 3.440E+06 NUBASE
1922 57-La-155 2.5+ 0.06 s 100
β-:100.00
0
3.200E+06 3.200E+06 NUBASE
1923 58-Ce-119 2.5+ 0.2 s 100
β+:100.00
0
3.657E+06 3.657E+06 NUBASE
98 THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009
MAIN DATA TABLES
Matn Nuclide
SpPa
Exc ener
Half-life (%-err)
Decay modes (%)
Nsp
<β> (eV)
<γ> (eV)
<α>
(eV)
Source
1924 58-Ce-120 0.0+ 0.25 s 60
β+:100.00
0
2.660E+06 2.660E+06 NUBASE
1925 58-Ce-121 2.5+ 1.1 s 9.09
β+:99.00; β+,p:1.00
0
3.223E+06 3.223E+06 2.225E+04 NUBASE
1926 58-Ce-122 0.0+ 2 s 100
β+:100.00
0
2.233E+06 2.233E+06 NUBASE
1927 58-Ce-123 2.5+ 3.8 s 5.26
β+:100.00
0
2.843E+06 2.843E+06 NUBASE
1928 58-Ce-124 0.0+ 9.1 s 13.19
β+m:100.00
0
1.780E+06 1.780E+06 NUBASE
1929 58-Ce-125 3.5- 9.3 s 3.23
β+m:100.00
0
2.331E+06 2.331E+06 NUBASE
1930 58-Ce-126 0.0+ 51 s 0.59
β+m:100.00
0
1.350E+06 1.350E+06 NUBASE
1931 58-Ce-127 2.5+ 29 s 6.90
β+:50.00; β+
m:50.00
0
1.970E+06 1.970E+06 NUBASE
1932 58-Ce-127M 0.5+ 34 s 5.88
β+m:100.00
0
1.967E+06 1.967E+06 NUBASE
1933 58-Ce-128 0.0+ 3.93 m 0.51
β+m:100.00
0
9.987E+05 9.987E+05 NUBASE
1934 58-Ce-129 2.5+ 3.5 m 14.29
β+:50.00; β+
m:50.00
0
1.651E+06 1.651E+06 NUBASE
1935 58-Ce-130 0.0+ 22.9 m 2.18
β+:100.00
4
2.538E+04 4.929E+05 ENSDF
1936 58-Ce-131 3.5+ 10.2 m 2.94
β+:100.00
0
1.350E+06 1.350E+06 NUBASE
1937 58-Ce-131M 0.5+ 6.180E+04 5 m 20
β+:100.00
0
1.370E+06 1.370E+06 NUBASE
1938 58-Ce-132 0.0+ 3.51 h 3.13
β+:100.00
4
1.490E+04 2.722E+05 ENSDF
1939 58-Ce-132M 8.0- 2.341E+06 9.4E-03 s 3.19
IT:100.00
0
2.341E+06 NUBASE
1940 58-Ce-133 0.5+ 1.617 h 4.12
β+:100.00
4
3.487E+05 4.562E+05 ENSDF
1941 58-Ce-133M 4.5- 3.710E+04 4.9 h 8.16
β+:100.00
0
1.036E+06 1.036E+06 NUBASE
1942 58-Ce-134 0.0+ 3.16 d 1.27
β+:100.00
4
5.426E+03 2.798E+04 ENSDF
1943 58-Ce-135 0.5+ 17.7 h 1.69
β+:100.00
4
2.727E+04 8.220E+05 ENSDF
1944 58-Ce-135M 5.5- 4.458E+05 20 s 5
IT:100.00
3
1.568E+05 2.917E+05 ENSDF
1945 58-Ce-136 0.0+ 7E+13 y 100
2β+:100.00
0
2.419E+06 NUBASE
1946 58-Ce-137 1.5+ 9 h 3.33
β+:100.00
4
1.247E+04 3.809E+04 ENSDF
1947 58-Ce-137M 5.5- 2.543E+05 1.433 d 0.87
β+:0.78; IT:99.22
4
2.027E+05 5.544E+04 ENSDF
1948 58-Ce-138 0.0+
NUBASE
1949 58-Ce-138M 7.0- 2.129E+06 8.65E-03 s 2.31
IT:100.00
0
2.129E+06 NUBASE
1950 58-Ce-139 1.5+ 137.641 d 0.01
β+:100.00
4
3.221E+04 1.605E+05 LNHB
1951 58-Ce-139M 5.5- 7.542E+05 56.1 s 1.07
IT:100.00
3
5.509E+04 6.991E+05 UKPADD67
1952 58-Ce-140 0.0+
NUBASE
1953 58-Ce-141 3.5- 32.5 d 0.03
β-:100.00
4
1.684E+05 7.651E+04 LNHB
1954 58-Ce-142 0.0+ 5E+16 y 100
2β-:100.00
0
1.417E+06 ENSDF
1955 58-Ce-143 1.5- 1.377 d 0.02
β-:100.00
4
4.306E+05 2.791E+05 ENSDF
1956 58-Ce-144 0.0+ 285 d 0.07
β-:98.62; β-
m:1.38
4
9.123E+04 1.905E+04 LNHB
1957 58-Ce-145 1.5- 2.95 m 2.03
β-:100.00
4
7.626E+05 6.010E+05 UKPADD67
1958 58-Ce-146 0.0+ 13.52 m 0.96
β-:100.00
4
1.948E+05 3.145E+05 ENSDF
1959 58-Ce-147 2.5- 57 s 3.51
β-:100.00
4
1.282E+06 1.742E+05 UKPADD67
1960 58-Ce-148 0.0+ 56 s 1.79
β-:100.00
0
5.857E+05 4.858E+05 NUBASE
1961 58-Ce-149 1.5- 5.3 s 3.77
β-:100.00
4
1.818E+06 8.456E+04 UKPADD67
1962 58-Ce-150 0.0+ 4 s 15
β-:100.00
0
1.161E+06 1.161E+06 NUBASE
1963 58-Ce-151 1.5- 1.02 s 5.88
β-:100.00
0
1.757E+06 1.757E+06 NUBASE
1964 58-Ce-152 0.0+ 1.1 s 27.27
β-:100.00
0
1.567E+06 1.567E+06 NUBASE
1965 58-Ce-153 1.5- 1.5 s 20
β-:99.38; β-,n:0.62
3
1.680E+06 1.125E+06 1.573E+03 UKPADD67
1966 58-Ce-154 0.0+ 2 s 20
β-:99.36; β-,n:0.64
3
1.694E+06 9.587E+05 1.619E+03 UKPADD67
THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009 99
MAIN DATA TABLES
Matn Nuclide
SpPa
Exc ener
Half-life (%-err)
Decay modes (%)
Nsp
<β> (eV)
<γ> (eV)
<α>
(eV)
Source
1967 58-Ce-155 2.5- 0.2 s 100
β-:100.00
0
2.460E+06 2.460E+06 NUBASE
1968 58-Ce-156 0.0+ 0.15 s 100
β-:100.00
0
2.170E+06 2.170E+06 NUBASE
1969 58-Ce-157 3.5+ 0.05 s 100
β-:100.00
0
2.767E+06 2.767E+06 NUBASE
1970 59-Pr-121 1.5- 0.6 s 50
p:50.00; β+:50.00
0
1.853E+06 1.853E+06 4.205E+05 NUBASE
1971 59-Pr-122 ? 0.5 s 100
β+:100.00
0
4.317E+06 4.317E+06 NUBASE
1972 59-Pr-123 1.5+ 0.8 s 100
β+:100.00
0
3.280E+06 3.280E+06 NUBASE
1973 59-Pr-124 ? 1.2 s 16.67
β+:100.00
0
3.897E+06 3.897E+06 NUBASE
1974 59-Pr-125 1.5+ 3.3 s 21.21
β+:100.00
0
2.917E+06 2.917E+06 NUBASE
1975 59-Pr-126 ? 3.12 s 5.77
β+:100.00
0
3.520E+06 3.520E+06 NUBASE
1976 59-Pr-127 1.5+ 4.2 s 7.14
β+:50.00; β+
m:50.00
0
2.517E+06 2.517E+06 NUBASE
1977 59-Pr-127M 5.5- 6.000E+05 0.05 s 100
β+:25.00; β+
m:25.00;
IT:50.00
0
1.358E+06 1.658E+06 NUBASE
1978 59-Pr-128 4.0- 2.85 s 3.16
β+:100.00
4
3.454E+06 1.567E+06 ENSDF
1979 59-Pr-129 1.5+ 30 s 13.33
β+:100.00
0
2.171E+06 2.171E+06 NUBASE
1980 59-Pr-129M 5.5- 3.827E+05 1E-03 s 100
IT:100.00
0
3.827E+05 NUBASE
1981 59-Pr-130 ? 40 s 1
β+:100.00
0
2.748E+06 2.748E+06 NUBASE
1982 59-Pr-130M 2.0+ 1.000E+05 10 s 100
β+:100.00
0
2.781E+06 2.781E+06 NUBASE
1983 59-Pr-131 1.5+ 1.5 m 2
β+:50.00; β+
m:50.00
0
1.803E+06 1.803E+06 NUBASE
1984 59-Pr-131M 5.5- 1.524E+05 5.7 s 3.51
IT:96.40; β+:3.60
0
6.711E+04 2.140E+05 NUBASE
1985 59-Pr-132 2.0+ 1.49 m 7.38
β+:100.00
0
2.421E+06 2.421E+06 NUBASE
1986 59-Pr-132M 5.0+ 20 s 100
β+:50.00; β+
m:50.00
0
2.031E+06 2.031E+06 NUBASE
1987 59-Pr-133 1.5+ 6.5 m 4.62
β+:100.00
0
1.495E+06 1.495E+06 NUBASE
1988 59-Pr-134 2.0- 17 m 11.76
β+:100.00
4
1.192E+06 2.066E+06 ENSDF
1989 59-Pr-134M 2.0- 17 m 11.76
β+:100.00
0
2.109E+06 2.109E+06 NUBASE
1990 59-Pr-135 1.5+ 24 m 8.33
β+:100.00
0
1.230E+06 1.230E+06 NUBASE
1991 59-Pr-136 2.0+ 13.1 m 0.76
β+:100.00
4
7.535E+05 2.065E+06 ENSDF
1992 59-Pr-137 2.5+ 1.28 h 1.56
β+:100.00
4
1.930E+05 3.639E+05 ENSDF
1993 59-Pr-138 1.0+ 1.45 m 3.45
β+:100.00
4
1.161E+06 8.150E+05 ENSDF
1994 59-Pr-138M 7.0- 3.640E+05 2.12 h 1.89
β+:100.00
4
2.227E+05 2.443E+06 ENSDF
1995 59-Pr-139 2.5+ 4.41 h 0.91
β+:99.98; β+
m:0.02
4
4.621E+04 1.294E+05 ENSDF
1996 59-Pr-140 1.0+ 3.39 m 0.29
β+:100.00
4
5.465E+05 5.425E+05 ENSDF
1997 59-Pr-141 2.5+
NUBASE
1998 59-Pr-142 2.0- 19.12 h 0.21
β+:0.02; β-:99.98
5
8.093E+05 5.811E+04 ENSDF
1999 59-Pr-142M 5.0- 3.694E+03 14.6 m 3.42
IT:100.00
0
3.694E+03 NUBASE
2000 59-Pr-143 3.5+ 13.56 d 0.07
β-:100.00
3
3.146E+05 8.904E-03 UKPADD67
2001 59-Pr-144 0.0- 17.28 m 0.12
β-:100.00
4
1.201E+06 3.376E+04 UKPADD67
2002 59-Pr-144M 3.0- 5.903E+04 6.9 m 10.14
IT:99.93; β-:0.07
4
4.717E+04 1.366E+04 UKPADD67
2003 59-Pr-145 3.5+ 5.984 h 0.17
β-:100.00
4
6.573E+05 1.859E+04 ENSDF
2004 59-Pr-146 2.0- 24.15 m 0.75
β-:100.00
2
1.317E+06 9.874E+05 ENSDF
2005 59-Pr-147 1.5+ 13.4 m 2.99
β-:100.00
0
6.685E+05 9.285E+05 NUBASE
2006 59-Pr-148 1.0- 2.29 m 0.87
β-:100.00
4
1.348E+06 1.776E+06 ENSDF
2007 59-Pr-148M 4.0+ 9.000E+04 2.02 m 4.46
β-:100.00
2
1.239E+06 2.050E+06 ENSDF
2008 59-Pr-149 2.5+ 2.26 m 3.10
β-:100.00
4
8.107E+05 1.332E+06 ENSDF
100 THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009
MAIN DATA TABLES
Matn Nuclide
SpPa
Exc ener
Half-life (%-err)
Decay modes (%)
Nsp
<β> (eV)
<γ> (eV)
<α>
(eV)
Source
2009 59-Pr-150 1.0- 6.1 s 6.56
β-:100.00
4
2.230E+06 5.542E+05 UKPADD67
2010 59-Pr-151 1.5- 18.9 s 0.37
β-:100.00
0
1.114E+06 1.362E+06 NUBASE
2011 59-Pr-152 4.0- 3.63 s 3.31
β-:100.00
4
2.116E+06 1.685E+06 ENSDF
2012 59-Pr-153 2.5- 4.28 s 2.57
β-:100.00
0
1.906E+06 1.906E+06 NUBASE
2013 59-Pr-154 ? 2.3 s 4.35
β-:100.00
0
2.497E+06 2.497E+06 NUBASE
2014 59-Pr-155 2.5- 1 s 100
β-:100.00
0
2.230E+06 2.230E+06 NUBASE
2015 59-Pr-156 2.0- 0.5 s 20
β-:97.28; β-,n:2.72
3
2.149E+06 2.688E+06 8.930E+03 UKPADD67
2016 59-Pr-157 2.5- 0.3 s 20
β-:93.61; β-,n:6.39
3
2.387E+06 1.881E+06 2.372E+04 UKPADD67
2017 59-Pr-158 ? 0.2 s 100
β-:100.00
0
3.223E+06 3.223E+06 NUBASE
2018 59-Pr-159 2.5- 0.1 s 100
β-:100.00
0
2.923E+06 2.923E+06 NUBASE
2019 60-Nd-124 0.0+ 0.5 s 100
β+:100.00
0
2.877E+06 2.877E+06 NUBASE
2020 60-Nd-125 2.5+ 0.6 s 25
β+:100.00
0
3.430E+06 3.430E+06 NUBASE
2021 60-Nd-126 0.0+ 1 s 100
β+:100.00
0
2.457E+06 2.457E+06 NUBASE
2022 60-Nd-127 2.5+ 1.8 s 22.22
β+:100.00
0
3.003E+06 3.003E+06 NUBASE
2023 60-Nd-128 0.0+ 5 s 100
β+:100.00
0
2.050E+06 2.050E+06 NUBASE
2024 60-Nd-129 2.5+ 4.9 s 4.08
β+:100.00
0
2.511E+06 2.511E+06 NUBASE
2025 60-Nd-130 0.0+ 21 s 14.29
β+m:100.00
0
1.495E+06 1.495E+06 NUBASE
2026 60-Nd-131 2.5+ 33 s 9.09
β+:100.00
0
2.170E+06 2.170E+06 NUBASE
2027 60-Nd-132 0.0+ 1.467 m 7.95
β+:100.00
4
4.833E+05 9.320E+05 ENSDF
2028 60-Nd-133 3.5+ 1.167 m 14.29
β+:100.00
0
1.869E+06 1.869E+06 NUBASE
2029 60-Nd-133M 0.5+ 1.280E+05 1.167 m 100
β+:100.00
0
1.912E+06 1.912E+06 NUBASE
2030 60-Nd-134 0.0+ 8.5 m 17.65
β+:100.00
4
1.316E+05 5.106E+05 ENSDF
2031 60-Nd-135 4.5- 12.4 m 4.84
β+:100.00
0
1.574E+06 1.574E+06 NUBASE
2032 60-Nd-135M 0.5+ 6.500E+04 5.5 m 9.09
β+:99.97; IT:0.03
0
1.595E+06 1.595E+06 NUBASE
2033 60-Nd-136 0.0+ 50.65 m 0.65
β+:100.00
4
6.093E+04 2.804E+05 ENSDF
2034 60-Nd-137 0.5+ 38.5 m 3.90
β+:100.00
0
1.199E+06 1.199E+06 NUBASE
2035 60-Nd-137M 5.5- 5.194E+05 1.6 s 9.37
IT:100.00
0
5.194E+05 NUBASE
2036 60-Nd-138 0.0+ 5.04 h 1.79
β+:100.00
0
3.713E+05 3.713E+05 NUBASE
2037 60-Nd-139 1.5+ 29.7 m 1.68
β+:100.00
4
2.075E+05 4.211E+05 ENSDF
2038 60-Nd-139M 5.5- 2.312E+05 5.5 h 3.64
β+:88.20; IT:11.80
0
9.003E+05 9.275E+05 NUBASE
2039 60-Nd-140 0.0+ 3.37 d 0.59
β+:100.00
3
6.735E+03 2.773E+04 UKPADD67
2040 60-Nd-141 1.5+ 2.49 h 1.20
β+:100.00
4
1.416E+04 7.515E+04 ENSDF
2041 60-Nd-141M 5.5- 7.565E+05 1.033 m 1.29
IT:99.97; β+:0.03
0
2.751E+02 7.565E+05 NUBASE
2042 60-Nd-142 0.0+
NUBASE
2043 60-Nd-143 3.5-
NUBASE
2044 60-Nd-144 0.0+ 2.29E+15 y 6.99
α:100.00
1
1.905E+06 ENSDF
2045 60-Nd-145 3.5-
NUBASE
2046 60-Nd-146 0.0+
NUBASE
2047 60-Nd-147 2.5- 10.98 d 0.09
β-:100.00
4
2.690E+05 1.376E+05 LNHB
2048 60-Nd-148 0.0+ 2.7E+18 y 100
2β-:100.00
0
1.929E+06 ENSDF
2049 60-Nd-149 2.5- 1.728 h 0.06
β-:100.00
4
5.021E+05 3.700E+05 ENSDF
2050 60-Nd-150 0.0+ 2.1E+19 y 23.81
2β-:100.00
0
3.368E+06 ENSDF
2051 60-Nd-151 1.5+ 12.44 m 0.56
β-:100.00
4
6.074E+05 8.428E+05 ENSDF
THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009 101
MAIN DATA TABLES
Matn Nuclide
SpPa
Exc ener
Half-life (%-err)
Decay modes (%)
Nsp
<β> (eV)
<γ> (eV)
<α>
(eV)
Source
2052 60-Nd-152 0.0+ 11.4 m 1.75
β-:100.00
0
3.680E+05 3.680E+05 NUBASE
2053 60-Nd-153 1.5- 31.6 s 3.16
β-:100.00
0
1.153E+06 5.086E+05 NUBASE
2054 60-Nd-154 0.0+ 25.9 s 0.77
β-:100.00
0
8.562E+05 5.506E+05 NUBASE
2055 60-Nd-155 1.5- 8.9 s 2.25
β-:100.00
0
1.085E+06 1.543E+06 NUBASE
2056 60-Nd-156 0.0+ 5.49 s 1.28
β-:100.00
0
1.230E+06 1.230E+06 NUBASE
2057 60-Nd-157 2.5- 2.5 s 20
β-:100.00
2
1.668E+06 1.140E+06 UKPADD67
2058 60-Nd-158 0.0+ 0.7 s 28.57
β-:100.00; β-,n:0.01
3
1.589E+06 9.239E+05 5.383E+00 UKPADD67
2059 60-Nd-159 3.5+ 0.5 s 20
β-:99.76; β-,n:0.24
3
2.063E+06 1.666E+06 5.109E+02 UKPADD67
2060 60-Nd-160 0.0+ 0.3 s 20
β-:99.05; β-,n:0.95
3
2.100E+06 1.206E+06 2.492E+03 UKPADD67
2061 60-Nd-161 0.5- 0.2 s 100
β-:100.00
0
2.490E+06 2.490E+06 NUBASE
2062 61-Pm-126 ? 0.5 s 100
β+:100.00
0
4.440E+06 4.440E+06 NUBASE
2063 61-Pm-127 2.5+ 1 s 100
β+:50.00; p:50.00
0
1.727E+06 1.727E+06 2.705E+05 NUBASE
2064 61-Pm-128 6.0+ 1 s 30
β+:100.00
0
4.043E+06 4.043E+06 NUBASE
2065 61-Pm-129 2.5+ 3 s 100
β+:100.00
0
3.097E+06 3.097E+06 NUBASE
2066 61-Pm-130 ? 2.6 s 7.69
β+:100.00
0
3.709E+06 3.709E+06 NUBASE
2067 61-Pm-131 2.5+ 6.3 s 12.70
β+:100.00
0
2.676E+06 2.676E+06 NUBASE
2068 61-Pm-132 3.0+ 6.3 s 11.11
β+:100.00
4
3.818E+06 1.506E+06 ENSDF
2069 61-Pm-133 1.5+ 15 s 20
β+:50.00; β+
m:50.00
0
2.285E+06 2.285E+06 NUBASE
2070 61-Pm-133M 5.5- 1.304E+05 10 s 100
β+:50.00; IT:50.00
0
1.175E+06 1.240E+06 NUBASE
2071 61-Pm-134 2.0+ 5 s 100
β+:100.00
4
3.225E+06 1.772E+06 ENSDF
2072 61-Pm-134M 2.0+ 5 s 100
β+:100.00
0
2.969E+06 2.969E+06 NUBASE
2073 61-Pm-135 ? 49 s 6.12
β+:50.00; β+
m:50.00
0
2.067E+06 2.067E+06 NUBASE
2074 61-Pm-135M 5.5- 5.000E+04 40 s 7.50
β+:100.00
0
2.095E+06 2.095E+06 NUBASE
2075 61-Pm-136 5.0- 1.783 m 5.61
β+:100.00
0
2.666E+06 2.666E+06 NUBASE
2076 61-Pm-136M 2.0+ 2.800E+05 47 s 4.26
β+:100.00
0
2.760E+06 2.760E+06 NUBASE
2077 61-Pm-137 2.5+ 2 m 100
β+:50.00; β+
m:50.00
0
1.749E+06 1.749E+06 NUBASE
2078 61-Pm-137M 5.5- 1.800E+05 2.4 m 4.17
β+:37.42; β+
m:62.58
0
1.787E+06 1.787E+06 NUBASE
2079 61-Pm-138 1.0+ 10 s 20
β+:100.00
0
2.359E+06 2.359E+06 NUBASE
2080 61-Pm-138M 5.0- 3.000E+04 3.24 m 1.54
β+:100.00
0
2.369E+06 2.369E+06 NUBASE
2081 61-Pm-139 2.5+ 4.15 m 1.20
β+:100.00
4
1.070E+06 9.400E+05 ENSDF
2082 61-Pm-139M 5.5- 1.887E+05 0.18 s 11.11
IT:99.94
3
1.007E+05 8.519E+04 ENSDF
2083 61-Pm-140 1.0+ 9.2 s 2.17
β+:100.00
4
2.034E+06 9.837E+05 ENSDF
2084 61-Pm-140M 7.0- 4.000E+05 5.95 m 0.84
β+:100.00
4
9.794E+05 2.963E+06 ENSDF
2085 61-Pm-141 2.5+ 20.9 m 0.24
β+:99.84; β+
m:0.16
4
6.314E+05 7.491E+05 ENSDF
2086 61-Pm-142 1.0+ 40.5 s 1.23
β+:100.00
4
1.368E+06 8.690E+05 ENSDF
2087 61-Pm-142M 8.0- 8.832E+05 2E-03 s 10
IT:100.00
0
8.832E+05 NUBASE
2088 61-Pm-143 2.5+ 266 d 3.01
β+:100.00
4
8.114E+03 3.158E+05 UKPADD67
2089 61-Pm-144 5.0- 363 d 3.86
β+:100.00
4
1.677E+04 1.556E+06 UKPADD67
2090 61-Pm-145 2.5+ 17.7 y 2.26
β+:100.00; α:~
5
1.220E+04 3.153E+04 6.502E-03 UKPADD67
2091 61-Pm-146 3.0- 5.531 y 0.89
β-:34.00; β+:66.00
5
9.441E+04 7.543E+05 UKPADD67
2092 61-Pm-147 3.5+ 2.623 y 0.01
β-:100.00
4
6.196E+04 4.375E+00 ENSDF
2093 61-Pm-148 1.0- 5.368 d 0.15
β-:100.00
4
7.263E+05 5.765E+05 UKPADD67
2094 61-Pm-148M 6.0- 1.379E+05 41.05 d 0.34
β-:95.00; IT:5.00
4
1.710E+05 1.984E+06 UKPADD67
102 THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009
MAIN DATA TABLES
Matn Nuclide
SpPa
Exc ener
Half-life (%-err)
Decay modes (%)
Nsp
<β> (eV)
<γ> (eV)
<α>
(eV)
Source
2095 61-Pm-149 3.5+ 2.212 d 0.09
β-:100.00
4
3.661E+05 1.186E+04 ENSDF
2096 61-Pm-150 1.0- 2.68 h 0.75
β-:100.00
4
7.342E+05 1.450E+06 ENSDF
2097 61-Pm-151 2.5+ 1.183 d 0.14
β-:100.00
4
3.035E+05 3.267E+05 ENSDF
2098 61-Pm-152 1.0+ 4.12 m 1.94
β-:100.00
4
1.304E+06 3.454E+05 ENSDF
2099 61-Pm-152M 4.0- 1.500E+05 7.52 m 1.06
β-:100.00
4
9.159E+05 1.476E+06 ENSDF
2100 61-Pm-152N 8.0- 3.200E+05 14.4 m 4.86
β-:100.00
4
7.284E+05 2.161E+06 UKPADD67
2101 61-Pm-153 2.5- 5.25 m 0.38
β-:100.00
4
6.626E+05 1.225E+05 ENSDF
2102 61-Pm-154 ? 1.73 m 5.78
β-:100.00
0
8.491E+05 1.876E+06 NUBASE
2103 61-Pm-154M ? 5.000E+04 2.68 m 2.61
β-:100.00
0
1.337E+06 1.337E+06 NUBASE
2104 61-Pm-155 2.5- 41.5 s 0.48
β-:100.00
4
1.061E+06 5.617E+05 UKPADD67
2105 61-Pm-156 4.0- 26.7 s 0.37
β-:100.00
0
1.206E+06 2.206E+06 NUBASE
2106 61-Pm-157 2.5- 10.56 s 0.95
β-:100.00
0
1.540E+06 8.490E+05 NUBASE
2107 61-Pm-158 ? 4.8 s 10.42
β-:100.00
0
2.040E+06 2.040E+06 NUBASE
2108 61-Pm-159 2.5- 3 s 20
β-:99.98; β-,n:0.02
3
1.782E+06 1.160E+06 2.156E+01 UKPADD67
2109 61-Pm-160 1.0- 2 s 20
β-:99.73; β-,n:0.27
3
1.969E+06 2.500E+06 5.530E+02 UKPADD67
2110 61-Pm-161 2.5- 0.7 s 100
β-:100.00
0
2.183E+06 2.183E+06 NUBASE
2111 61-Pm-162 ? 0.5 s 100
β-:100.00
0
2.813E+06 2.813E+06 NUBASE
2112 61-Pm-163 2.5- 0.2 s 100
β-:100.00
0
2.583E+06 2.583E+06 NUBASE
2113 62-Sm-128 0.0+ 0.5 s 100
β+:100.00
0
3.000E+06 3.000E+06 NUBASE
2114 62-Sm-129 2.5+ 0.55 s 18.18
β+:100.00
0
3.567E+06 3.567E+06 NUBASE
2115 62-Sm-130 0.0+ 1 s 100
β+:100.00
0
2.630E+06 2.630E+06 NUBASE
2116 62-Sm-131 2.5+ 1.2 s 16.67
β+:100.00
0
3.180E+06 3.180E+06 NUBASE
2117 62-Sm-132 0.0+ 4 s 7.50
β+:100.00
0
2.153E+06 2.153E+06 NUBASE
2118 62-Sm-133 2.5+ 2.9 s 5.86
β+:100.00
0
2.760E+06 2.760E+06 NUBASE
2119 62-Sm-134 0.0+ 10 s 10
β+:100.00
4
1.548E+06 1.056E+06 ENSDF
2120 62-Sm-135 3.5+ 10.3 s 4.85
β+:49.99; β+
m:49.99;
β+,p:0.02
0
2.365E+06 2.365E+06 2.749E+02 NUBASE
2121 62-Sm-135M ? 2.4 s 37.50
β+:100.00
0
2.373E+06 2.373E+06 NUBASE
2122 62-Sm-136 0.0+ 47 s 4.26
β+:100.00
4
1.012E+06 9.117E+05 ENSDF
2123 62-Sm-137 4.5- 45 s 2.22
β+m:100.00
0
1.954E+06 1.954E+06 NUBASE
2124 62-Sm-137M 0.5+ 1.800E+05 20 s 100
β+:100.00
0
2.074E+06 2.074E+06 NUBASE
2125 62-Sm-138 0.0+ 3.1 m 6.45
β+m:100.00
0
1.137E+06 1.137E+06 NUBASE
2126 62-Sm-139 0.5+ 2.57 m 3.89
β+:100.00
4
1.091E+06 1.459E+06 ENSDF
2127 62-Sm-139M 5.5- 4.574E+05 10.7 s 5.61
IT:93.70; β+
m:6.30
0
1.131E+05 5.417E+05 NUBASE
2128 62-Sm-140 0.0+ 14.82 m 0.81
β+:100.00
0
9.180E+05 9.180E+05 NUBASE
2129 62-Sm-141 0.5+ 10.2 m 1.96
β+:100.00
4
6.857E+05 1.385E+06 ENSDF
2130 62-Sm-141M 5.5- 1.760E+05 22.6 m 0.88
β+:99.69; IT:0.31
0
1.582E+06 1.582E+06 NUBASE
2131 62-Sm-142 0.0+ 1.208 h 0.07
β+:100.00
4
3.266E+04 8.928E+04 ENSDF
2132 62-Sm-143 1.5+ 8.75 m 0.91
β+:100.00
4
4.777E+05 5.127E+05 ENSDF
2133 62-Sm-143M 5.5- 7.540E+05 1.1 m 3.03
IT:99.76; β+:0.24
0
3.358E+03 7.555E+05 NUBASE
2134 62-Sm-143N 11.5- 2.794E+06 0.03 s 10
ITm:100.00
0
2.040E+06 NUBASE
2135 62-Sm-144 0.0+
NUBASE
2136 62-Sm-145 3.5- 340 d 0.88
β+:100.00
4
2.950E+04 6.299E+04 UKPADD67
THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009 103
MAIN DATA TABLES
Matn Nuclide
SpPa
Exc ener
Half-life (%-err)
Decay modes (%)
Nsp
<β> (eV)
<γ> (eV)
<α>
(eV)
Source
2137 62-Sm-146 0.0+ 1E+08 y 8
α:100.00
1
2.571E+06 UKPADD67
2138 62-Sm-147 3.5- 1.06E+11 y 1.89
α:100.00
1
2.310E+06 ENSDF
2139 62-Sm-148 0.0+ 7E+15 y 28.57
α:100.00
1
1.986E+06 ENSDF
2140 62-Sm-149 3.5- 2E+15 y 100
α:100.00
1
1.870E+06 ENSDF
2141 62-Sm-150 0.0+
NUBASE
2142 62-Sm-151 2.5- 90.002 y 6.67
β-:100.00
4
1.987E+04 1.433E+01 UKPADD67
2143 62-Sm-152 0.0+
NUBASE
2144 62-Sm-153 1.5+ 1.928 d 0.01
β-:100.00
4
2.675E+05 6.233E+04 LNHB
2145 62-Sm-153M 5.5- 9.837E+04 0.011 s 2.83
IT:100.00
0
9.837E+04 NUBASE
2146 62-Sm-154 0.0+
NUBASE
2147 62-Sm-155 1.5- 22.3 m 0.90
β-:100.00
4
5.682E+05 1.026E+05 ENSDF
2148 62-Sm-156 0.0+ 9.4 h 2.13
β-:100.00
4
2.043E+05 1.142E+05 ENSDF
2149 62-Sm-157 1.5- 8.03 m 0.87
β-:100.00
0
8.389E+05 5.850E+05 NUBASE
2150 62-Sm-158 0.0+ 5.3 m 0.57
β-:100.00
0
5.121E+05 5.903E+05 NUBASE
2151 62-Sm-159 2.5- 11.37 s 1.32
β-:100.00
4
1.406E+06 4.306E+05 ENSDF
2152 62-Sm-160 0.0+ 9.6 s 3.12
β-:100.00
0
9.833E+05 9.833E+05 NUBASE
2153 62-Sm-161 3.5+ 4.8 s 16.67
β-:100.00
0
1.600E+06 1.600E+06 NUBASE
2154 62-Sm-162 0.0+ 2.4 s 20.83
β-:100.00
0
1.300E+06 1.300E+06 NUBASE
2155 62-Sm-163 0.5- 1 s 100
β-:100.00
0
1.910E+06 1.910E+06 NUBASE
2156 62-Sm-164 0.0+ 0.5 s 100
β-:100.00
0
1.640E+06 1.640E+06 NUBASE
2157 62-Sm-165 2.5- 0.2 s 100
β-:100.00
0
2.253E+06 2.253E+06 NUBASE
2158 63-Eu-130 2.0+ 1.1E-03 s 45.45
p:99.00; β+:1.00
0
4.547E+04 4.547E+04 1.011E+06 NUBASE
2159 63-Eu-131 1.5+ 0.018 s 10.67
p:88.00; β+:12.00
0
4.340E+05 4.340E+05 8.281E+05 NUBASE
2160 63-Eu-132 ? 0.1 s 100
β+:100.00
0
4.250E+06 4.250E+06 NUBASE
2161 63-Eu-133 5.5- 0.2 s 100
β+:100.00
0
3.283E+06 3.283E+06 NUBASE
2162 63-Eu-134 ? 0.5 s 40
β+:100.00
0
3.893E+06 3.893E+06 NUBASE
2163 63-Eu-135 5.5- 1.5 s 13.33
β+:100.00
0
2.890E+06 2.890E+06 NUBASE
2164 63-Eu-136 3.0+ 3.8 s 7.89
β+:100.00
4
2.514E+04 1.410E+06 ENSDF
2165 63-Eu-136M 3.0+ 3.8 s 7.89
β+:99.91; β+,p:0.05;
β+,pm:0.05
0
3.515E+06 3.515E+06 1.441E+03 NUBASE
2166 63-Eu-137 5.5- 8.4 s 5.95
β+:100.00
0
2.670E+06 2.670E+06 NUBASE
2167 63-Eu-138 6.0- 12.1 s 4.96
β+:100.00
0
3.249E+06 3.249E+06 NUBASE
2168 63-Eu-139 5.5- 17.9 s 3.35
β+:31.30; β+
m:68.70
0
2.223E+06 2.223E+06 NUBASE
2169 63-Eu-140 1.0+ 1.51 s 1.32
β+:100.00
4
3.156E+06 1.262E+06 ENSDF
2170 63-Eu-140M 5.0- 2.100E+05 0.125 s 1.60
IT:99.00; β+:1.00
0
2.892E+04 2.368E+05 NUBASE
2171 63-Eu-141 2.5+ 40.7 s 1.72
β+:98.23; β+
m:1.77
4
1.860E+06 1.059E+06 ENSDF
2172 63-Eu-141M 5.5- 9.645E+04 2.7 s 11.11
IT:86.00; β+:0.10;
β+m:13.90
0
2.769E+05 3.599E+05 NUBASE
2173 63-Eu-142 1.0+ 2.34 s 5.13
β+:100.00
4
2.754E+06 1.196E+06 ENSDF
2174 63-Eu-142M 8.0- 4.600E+05 1.223 m 0.65
β+:100.00
4
1.773E+06 3.416E+06 ENSDF
2175 63-Eu-143 2.5+ 2.59 m 0.77
β+:99.88; β+
m:0.12
4
1.295E+06 1.100E+06 ENSDF
2176 63-Eu-144 1.0+ 10.2 s 0.98
β+:100.00
4
2.057E+06 1.090E+06 ENSDF
2177 63-Eu-145 2.5+ 5.93 d 0.67
β+:100.00
4
2.280E+04 1.278E+06 ENSDF
104 THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009
MAIN DATA TABLES
Matn Nuclide
SpPa
Exc ener
Half-life (%-err)
Decay modes (%)
Nsp
<β> (eV)
<γ> (eV)
<α>
(eV)
Source
2178 63-Eu-146 4.0- 4.59 d 0.65
β+:100.00
4
4.228E+04 2.376E+06 ENSDF
2179 63-Eu-147 2.5+ 24 d 4.17
α:~; β+:100.00
5
3.448E+04 4.385E+05 6.398E+01 ENSDF
2180 63-Eu-148 5.0- 54.5 d 0.92
β+:100.00
4
1.911E+04 2.227E+06 ENSDF
2181 63-Eu-149 2.5+ 93.1 d 0.43
β+:100.00
4
2.414E+04 6.602E+04 UKPADD67
2182 63-Eu-150 5.0- 36.359 y 1.96
β+:100.00
4
2.721E+04 1.528E+06 UKPADD67
2183 63-Eu-150M 0.0- 4.210E+04 12.8 h 1.56
β-:88.00; β+:12.00
5
3.073E+05 5.022E+04 UKPADD67
2184 63-Eu-151 2.5+
NUBASE
2185 63-Eu-152 3.0- 13.525 y 0.10
β+:72.10; β-:27.90
5
1.248E+05 1.161E+06 LNHB
2186 63-Eu-152M 0.0- 4.560E+04 9.275 h 0.10
β-:72.00; β+:28.00
5
5.020E+05 3.111E+05 UKPADD67
2187 63-Eu-152N 8.0- 1.478E+05 1.6 h 3.12
IT:100.00
3
7.226E+04 7.551E+04 UKPADD67
2188 63-Eu-153 2.5+
NUBASE
2189 63-Eu-154 3.0- 8.593 y 0.04
β-:99.98; β+:0.02
5
2.745E+05 1.245E+06 UKPADD67
2190 63-Eu-154M 8.0- 1.570E+05 46.4 m 1.08
IT:100.00
3
8.250E+04 7.436E+04 UKPADD67
2191 63-Eu-155 2.5+ 4.753 y 0.29
β-:100.00
4
6.296E+04 6.129E+04 LNHB
2192 63-Eu-156 0.0+ 15.19 d 0.53
β-:100.00
4
4.536E+05 1.234E+06 ENSDF
2193 63-Eu-157 2.5+ 15.18 h 0.20
β-:100.00
4
3.928E+05 2.899E+05 ENSDF
2194 63-Eu-158 1.0- 45.9 m 0.44
β-:100.00
4
8.844E+05 1.271E+06 ENSDF
2195 63-Eu-159 2.5+ 18.1 m 0.55
β-:100.00
4
9.001E+05 2.875E+05 ENSDF
2196 63-Eu-160 1.0- 38 s 10.53
β-:100.00
0
1.526E+06 1.526E+06 NUBASE
2197 63-Eu-161 2.5+ 26 s 11.54
β-:100.00
0
1.244E+06 1.244E+06 NUBASE
2198 63-Eu-162 ? 10.6 s 9.43
β-:100.00
0
1.879E+06 1.879E+06 NUBASE
2199 63-Eu-163 2.5+ 6 s 100
β-:100.00
0
1.620E+06 1.620E+06 NUBASE
2200 63-Eu-164 ? 2 s 100
β-:100.00
0
2.217E+06 2.217E+06 NUBASE
2201 63-Eu-165 2.5+ 1 s 100
β-:100.00
0
1.970E+06 1.970E+06 NUBASE
2202 63-Eu-166 ? 0.4 s 100
β-:100.00
0
2.600E+06 2.600E+06 NUBASE
2203 63-Eu-167 2.5+ 0.2 s 100
β-:100.00
0
2.370E+06 2.370E+06 NUBASE
2204 64-Gd-134 0.0+ 0.4 s 100
β+:100.00
0
2.753E+06 2.753E+06 NUBASE
2205 64-Gd-135 1.5- 1.1 s 18.18
β+:98.00; β+,p:2.00
0
3.320E+06 3.320E+06 5.020E+04 NUBASE
2206 64-Gd-136 0.0+ 1 s 50
β+m:100.00
0
2.403E+06 2.403E+06 NUBASE
2207 64-Gd-137 3.5+ 2.2 s 9.09
β+:100.00
0
2.937E+06 2.937E+06 NUBASE
2208 64-Gd-138 0.0+ 4.7 s 19.15
β+:100.00
0
1.990E+06 1.990E+06 NUBASE
2209 64-Gd-139 4.5- 5.7 s 7.02
β+:100.00
0
2.623E+06 2.623E+06 NUBASE
2210 64-Gd-139M 0.5+ 2.500E+05 4.8 s 18.75
β+:100.00
0
2.706E+06 2.706E+06 NUBASE
2211 64-Gd-140 0.0+ 15.8 s 2.53
β+:100.00
0
1.736E+06 1.736E+06 NUBASE
2212 64-Gd-141 0.5+ 14 s 28.57
β+:100.00
4
2.365E+06 1.314E+06 ENSDF
2213 64-Gd-141M 5.5- 3.778E+05 24.5 s 2.04
β+m:89.00; IT:11.00
0
2.072E+06 2.114E+06 NUBASE
2214 64-Gd-142 0.0+ 1.17 m 0.85
β+:100.00
3
3.547E+03 4.850E+05 ENSDF
2215 64-Gd-143 0.5+ 39 s 5.13
β+:100.00
4
1.812E+06 1.221E+06 ENSDF
2216 64-Gd-143M 5.5- 1.526E+05 1.833 m 1.27
β+:100.00
4
1.251E+06 2.094E+06 ENSDF
2217 64-Gd-144 0.0+ 4.47 m 1.34
β+:100.00
0
1.287E+06 1.287E+06 NUBASE
2218 64-Gd-145 0.5+ 23 m 1.74
β+:100.00
4
3.441E+05 2.428E+06 ENSDF
2219 64-Gd-145M 5.5- 7.491E+05 1.417 m 3.53
IT:94.30; β+:5.70
0
1.106E+05 8.170E+05 NUBASE
2220 64-Gd-146 0.0+ 48.27 d 0.21
β+:100.00
4
1.217E+05 2.544E+05 ENSDF
THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009 105
MAIN DATA TABLES
Matn Nuclide
SpPa
Exc ener
Half-life (%-err)
Decay modes (%)
Nsp
<β> (eV)
<γ> (eV)
<α>
(eV)
Source
2221 64-Gd-147 3.5- 1.586 d 0.32
β+:100.00
0
7.290E+05 7.290E+05 NUBASE
2222 64-Gd-148 0.0+ 74.602 y 4.02
α:100.00
0
3.271E+06 NUBASE
2223 64-Gd-149 3.5- 9.28 d 1.08
β+:100.00
4
6.485E+04 5.290E+05 ENSDF
2224 64-Gd-150 0.0+ 1.82E+06 y 9.34
α:100.00
1
2.797E+06 UKPADD67
2225 64-Gd-151 3.5- 124 d 0.81
β+:100.00; α:~
5
3.883E+04 7.040E+04 2.671E-02 UKPADD67
2226 64-Gd-152 0.0+ 1.08E+14 y 7.41
α:100.00
1
2.205E+06 ENSDF
2227 64-Gd-153 1.5- 240.4 d 0.42
β+:100.00
4
3.983E+04 1.055E+05 LNHB
2228 64-Gd-154 0.0+
NUBASE
2229 64-Gd-155 1.5-
NUBASE
2230 64-Gd-155M 5.5- 1.210E+05 0.032 s 0.94
IT:100.00
0
1.210E+05 NUBASE
2231 64-Gd-156 0.0+
NUBASE
2232 64-Gd-157 1.5-
NUBASE
2233 64-Gd-158 0.0+
NUBASE
2234 64-Gd-159 1.5- 18.479 h 0.02
β-:100.00
4
3.086E+05 5.669E+04 ENSDF
2235 64-Gd-160 0.0+ 1.3E+17 y 100
2β-:100.00
0
1.730E+06 NUBASE
2236 64-Gd-161 2.5- 3.66 m 1.37
β-:100.00
4
5.861E+05 3.927E+05 ENSDF
2237 64-Gd-162 0.0+ 8.4 m 2.38
β-:100.00
4
3.396E+05 4.168E+05 ENSDF
2238 64-Gd-163 2.5- 1.133 m 4.41
β-:100.00
4
1.064E+06 4.904E+05 UKPADD67
2239 64-Gd-164 0.0+ 45 s 6.67
β-:100.00
0
7.767E+05 7.767E+05 NUBASE
2240 64-Gd-165 0.5- 10.3 s 15.53
β-:100.00
0
1.397E+06 1.397E+06 NUBASE
2241 64-Gd-166 0.0+ 4.8 s 20.83
β-:100.00
0
1.120E+06 1.120E+06 NUBASE
2242 64-Gd-167 2.5- 3 s 100
β-:100.00
0
1.713E+06 1.713E+06 NUBASE
2243 64-Gd-168 0.0+ 0.3 s 100
β-:100.00
0
1.467E+06 1.467E+06 NUBASE
2244 64-Gd-169 3.5- 1 s 100
β-:100.00
0
2.067E+06 2.067E+06 NUBASE
2245 65-Tb-136 ? 0.2 s 100
β+:100.00
0
4.360E+06 4.360E+06 NUBASE
2246 65-Tb-137 5.5- 0.6 s 100
p:50.00; β+:50.00
0
1.702E+06 1.702E+06 3.805E+05 NUBASE
2247 65-Tb-138 ? 0.8 s 100
β+:100.00
0
4.050E+06 4.050E+06 NUBASE
2248 65-Tb-139 5.5- 1.6 s 12.50
β+:100.00
0
3.120E+06 3.120E+06 NUBASE
2249 65-Tb-140 ? 2.4 s 8.33
β+:99.74; β+,p:0.26
0
3.762E+06 3.762E+06 4.959E+03 NUBASE
2250 65-Tb-141 2.5- 3.5 s 5.71
β+:50.00; β+
m:50.00
0
2.832E+06 2.832E+06 NUBASE
2251 65-Tb-141M 5.5- 7.9 s 7.59
β+m:100.00
0
2.769E+06 2.769E+06 NUBASE
2252 65-Tb-142 1.0+ 0.597 s 2.85
β+:100.00
3
1.840E+03 2.684E+05 ENSDF
2253 65-Tb-142M 5.0- 2.802E+05 0.303 s 5.61
IT:99.50; β+:0.50
0
1.697E+04 2.958E+05 NUBASE
2254 65-Tb-143 5.5- 12 s 8.33
β+m:100.00
0
2.549E+06 2.549E+06 NUBASE
2255 65-Tb-143M 2.5+ 21 s 100
β+:50.00; β+
m:50.00
0
2.575E+06 2.575E+06 NUBASE
2256 65-Tb-144 1.0+ 1 s 100
β+:100.00
1
2.877E+05 ENSDF
2257 65-Tb-144M 6.0- 3.969E+05 4.25 s 3.53
IT:66.00; β+:34.00
0
1.109E+06 1.371E+06 NUBASE
2258 65-Tb-145 1.5+ 20 m 100
β+:100.00
0
2.349E+06 2.349E+06 NUBASE
2259 65-Tb-145M 5.5- 30.9 s 2.27
β+:50.34; β+
m:49.66
0
2.225E+06 2.225E+06 NUBASE
2260 65-Tb-146 1.0+ 8 s 50
β+:100.00
4
2.994E+06 1.366E+06 UKPADD67
2261 65-Tb-146M 5.0- 1.500E+05 24 s 2.08
β+:100.00
4
1.454E+06 4.097E+06 UKPADD67
2262 65-Tb-146N 10.0+ 9.300E+05 1.18E-03 s 1.69
ITm:100.00
0
7.800E+05 NUBASE
2263 65-Tb-147 0.5+ 1.7 h 5.88
β+:100.00
4
2.578E+05 1.917E+06 ENSDF
106 THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009
MAIN DATA TABLES
Matn Nuclide
SpPa
Exc ener
Half-life (%-err)
Decay modes (%)
Nsp
<β> (eV)
<γ> (eV)
<α>
(eV)
Source
2264 65-Tb-147M 5.5- 5.060E+04 1.83 m 3.28
β+:100.00
1
1.566E+06 ENSDF
2265 65-Tb-148 2.0- 1 h 1.67
β+:100.00
4
8.397E+05 2.186E+06 ENSDF
2266 65-Tb-148M 9.0+ 9.010E+04 2.2 m 2.27
β+:100.00
0
1.942E+06 1.942E+06 NUBASE
2267 65-Tb-149 0.5+ 4.118 h 0.61
α:16.70; β+:83.30
5
8.352E+04 1.359E+06 6.810E+05 ENSDF
2268 65-Tb-149M 5.5- 4.000E+04 4.16 m 0.96
β+:99.98; α:0.02
5
1.731E+05 1.069E+06 8.798E+02 ENSDF
2269 65-Tb-150 2.0- 3.48 h 4.60
β+:99.95; α:0.05
0
1.552E+06 1.552E+06 1.793E+03 NUBASE
2270 65-Tb-150M 9.0+ 4.500E+05 5.8 m 3.45
β+:100.00
0
1.703E+06 1.703E+06 NUBASE
2271 65-Tb-151 0.5+ 17.609 h 0.08
α:0.01; β+:100.00
5
7.595E+04 9.881E+05 3.242E+02 ENSDF
2272 65-Tb-151M 5.5- 9.954E+04 25 s 12
IT:93.80; β+:6.20
0
5.507E+04 1.484E+05 NUBASE
2273 65-Tb-152 2.0- 17.5 h 0.57
β+:100.00
4
2.107E+05 1.391E+06 ENSDF
2274 65-Tb-152M 8.0+ 5.017E+05 4.2 m 2.38
IT:78.80; β+:21.20
0
3.177E+05 7.131E+05 NUBASE
2275 65-Tb-153 2.5+ 2.34 d 0.43
β+:100.00
4
4.227E+04 3.216E+05 ENSDF
2276 65-Tb-154 0.0+ 21.5 h 1.86
β+:99.90; β-:0.10
0
1.183E+06 1.183E+06 NUBASE
2277 65-Tb-154M 3.0- 1.200E+04 9.4 h 4.26
β+:78.12; IT:21.78;
β-:0.10
0
9.285E+05 9.311E+05 NUBASE
2278 65-Tb-154N 7.0- 2.000E+05 22.7 h 2.20
β+:98.20; ITm:1.80
0
1.229E+06 1.232E+06 NUBASE
2279 65-Tb-155 1.5+ 5.32 d 1.13
β+:100.00
4
3.834E+04 1.766E+05 ENSDF
2280 65-Tb-156 3.0- 5.17 d 2.32
β+:100.00
4
8.460E+04 1.935E+06 UKPADD67
2281 65-Tb-156M 7.0- 6.000E+04 1.017 d 4.10
IT:100.00
3
2.206E+04 3.759E+04 UKPADD67
2282 65-Tb-156N 0.0+ 8.840E+04 5.1 h 5.88
β+:0.19; IT:99.81
4
8.406E+04 4.743E+03 UKPADD67
2283 65-Tb-157 1.5+ 99.002 y 10.10
β+:100.00
4
5.700E+03 1.039E+04 UKPADD67
2284 65-Tb-158 3.0- 180 y 6.11
β-:16.80; β+:83.20
5
1.117E+05 8.137E+05 UKPADD67
2285 65-Tb-158M 0.0+ 1.103E+05 10.8 s 1.85
IT:100.00
3
8.593E+04 2.420E+04 UKPADD67
2286 65-Tb-159 1.5+
NUBASE
2287 65-Tb-160 3.0- 72.3 d 0.28
β-:100.00
4
2.573E+05 1.130E+06 UKPADD67
2288 65-Tb-161 1.5+ 6.89 d 0.44
β-:100.00
4
2.007E+05 3.376E+04 UKPADD67
2289 65-Tb-162 1.0- 7.6 m 1.97
β-:100.00
4
5.396E+05 1.106E+06 ENSDF
2290 65-Tb-163 1.5+ 19.5 m 1.54
β-:100.00
4
3.622E+05 7.859E+05 ENSDF
2291 65-Tb-164 5.0+ 3 m 3.33
β-:100.00
0
1.298E+06 1.298E+06 NUBASE
2292 65-Tb-165 1.5+ 2.11 m 4.74
β-:100.00
2
9.116E+05 6.418E+05 ENSDF
2293 65-Tb-166 ? 25.6 s 8.59
β-:100.00
0
1.610E+06 1.610E+06 NUBASE
2294 65-Tb-167 1.5+ 19 s 15.79
β-:100.00
0
1.367E+06 1.367E+06 NUBASE
2295 65-Tb-168 4.0- 8.2 s 15.85
β-:100.00
0
2.020E+06 2.020E+06 NUBASE
2296 65-Tb-169 1.5+ 2 s 100
β-:100.00
0
1.833E+06 1.833E+06 NUBASE
2297 65-Tb-170 ? 3 s 100
β-:100.00
0
2.440E+06 2.440E+06 NUBASE
2298 65-Tb-171 1.5+ 0.5 s 100
β-:100.00
0
2.203E+06 2.203E+06 NUBASE
2299 66-Dy-138 0.0+ 0.2 s 100
β+:100.00
0
2.897E+06 2.897E+06 NUBASE
2300 66-Dy-139 3.5+ 0.6 s 33.33
β+:100.00
0
3.493E+06 3.493E+06 NUBASE
2301 66-Dy-140 0.0+ 0.7 s 57.14
β+:100.00
0
2.547E+06 2.547E+06 NUBASE
2302 66-Dy-141 4.5- 0.9 s 22.22
β+:50.00; β+
m:50.00
0
3.073E+06 3.073E+06 NUBASE
2303 66-Dy-142 0.0+ 2.3 s 13.04
β+:99.94; β+,p:0.03;
β+,pm:0.03
0
2.366E+06 2.366E+06 8.679E+02 NUBASE
2304 66-Dy-143 0.5+ 5.6 s 17.86
β+m:100.00
0
2.703E+06 2.703E+06 NUBASE
THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009 107
MAIN DATA TABLES
Matn Nuclide
SpPa
Exc ener
Half-life (%-err)
Decay modes (%)
Nsp
<β> (eV)
<γ> (eV)
<α>
(eV)
Source
2305 66-Dy-143M 5.5- 3.107E+05 3 s 10
β+:100.00
0
2.807E+06 2.807E+06 NUBASE
2306 66-Dy-144 0.0+ 9.1 s 4.40
β+:100.00
1
7.504E+04 ENSDF
2307 66-Dy-145 0.5+ 9.5 s 10.53
β+:100.00
0
2.530E+06 2.530E+06 NUBASE
2308 66-Dy-145M 5.5- 1.182E+05 14.1 s 4.96
β+:35.40; β+
m:64.60
0
2.569E+06 2.569E+06 NUBASE
2309 66-Dy-146 0.0+ 29 s 10.34
β+:100.00
3
1.333E+04 1.180E+06 ENSDF
2310 66-Dy-146M 10.0+ 2.936E+06 0.15 s 13.33
IT:100.00
0
2.936E+06 NUBASE
2311 66-Dy-147 0.5+ 40 s 25
β+:99.95; β+,p:0.05
0
2.187E+06 2.187E+06 5.770E+02 NUBASE
2312 66-Dy-147M 5.5- 7.505E+05 55 s 1.82
β+m:65.00; IT:35.00
0
1.574E+06 1.837E+06 NUBASE
2313 66-Dy-148 0.0+ 3.3 m 6.06
β+:100.00
4
2.571E+04 7.175E+05 ENSDF
2314 66-Dy-149 3.5- 4.2 m 3.33
β+:100.00
4
1.031E+05 1.613E+06 ENSDF
2315 66-Dy-149M 13.5- 2.661E+06 0.49 s 3.06
IT:99.30; β+
m:0.70
0
1.495E+04 2.657E+06 NUBASE
2316 66-Dy-150 0.0+ 7.17 m 0.70
β+:64.00; α:36.00
0
3.827E+05 3.827E+05 1.566E+06 NUBASE
2317 66-Dy-151 3.5- 17.9 m 1.68
β+:64.57; β+
m:29.83;
α:5.60
0
8.935E+05 8.935E+05 2.340E+05 NUBASE
2318 66-Dy-152 0.0+ 2.38 h 0.84
α:0.10; β+:99.90
5
1.030E+04 2.865E+05 3.628E+03 ENSDF
2319 66-Dy-153 3.5- 6.4 h 1.56
α:0.01; β+:100.00
5
8.094E+04 7.089E+05 3.256E+02 ENSDF
2320 66-Dy-154 0.0+ 3E+06 y 50
α:100.00
1
2.947E+06 ENSDF
2321 66-Dy-155 1.5- 9.9 h 2.02
β+:100.00
4
2.362E+04 6.054E+05 ENSDF
2322 66-Dy-156 0.0+ 1E+18 y 100
α:50.00; 2β+:50.00
0
1.006E+06 8.796E+05 NUBASE
2323 66-Dy-157 1.5- 8.14 h 0.61
β+:100.00
4
1.329E+04 3.504E+05 UKPADD67
2324 66-Dy-157M 5.5- 1.995E+05 0.022 s 7.41
IT:100.00
3
9.443E+04 1.012E+05 ENSDF
2325 66-Dy-158 0.0+
NUBASE
2326 66-Dy-159 1.5- 144.4 d 0.14
β+:100.00
4
1.282E+04 4.551E+04 UKPADD67
2327 66-Dy-160 0.0+
NUBASE
2328 66-Dy-161 2.5+
NUBASE
2329 66-Dy-162 0.0+
NUBASE
2330 66-Dy-163 2.5-
NUBASE
2331 66-Dy-164 0.0+
NUBASE
2332 66-Dy-165 3.5+ 2.334 h 0.26
β-:100.00
4
4.480E+05 2.628E+04 ENSDF
2333 66-Dy-165M 0.5- 1.082E+05 1.257 m 0.48
IT:97.76; β-:2.24
0
1.042E+04 1.162E+05 NUBASE
2334 66-Dy-166 0.0+ 3.401 d 0.21
β-:100.00
4
1.596E+05 4.198E+04 UKPADD67
2335 66-Dy-167 0.5- 6.2 m 1.29
β-:100.00
4
7.063E+05 5.237E+05 ENSDF
2336 66-Dy-168 0.0+ 8.7 m 3.45
β-:100.00
0
5.033E+05 5.033E+05 NUBASE
2337 66-Dy-169 2.5- 39 s 20.51
β-:100.00
0
1.068E+06 1.068E+06 NUBASE
2338 66-Dy-170 0.0+ 30 s 100
β-m:100.00
0
8.267E+05 8.267E+05 NUBASE
2339 66-Dy-171 3.5- 6 s 100
β-:100.00
0
1.470E+06 1.470E+06 NUBASE
2340 66-Dy-172 0.0+ 3 s 100
β-:100.00
0
1.223E+06 1.223E+06 NUBASE
2341 66-Dy-173 4.5+ 2 s 100
β-:100.00
0
1.773E+06 1.773E+06 NUBASE
2342 67-Ho-140 8.0+ 6E-03 s 50
p:99.00; β+:1.00
0
4.510E+04 4.510E+04 1.080E+06 NUBASE
2343 67-Ho-141 3.5- 4.1E-03 s 7.32
p:100.00
0
8.429E+03 ENSDF
2344 67-Ho-142 ? 0.4 s 25
β+:100.00
0
4.163E+06 4.163E+06 NUBASE
2345 67-Ho-143 5.5- 0.3 s 100
β+m:100.00
0
3.243E+06 3.243E+06 NUBASE
2346 67-Ho-144 ? 0.7 s 14.29
β+:100.00
0
3.793E+06 3.793E+06 NUBASE
108 THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009
MAIN DATA TABLES
Matn Nuclide
SpPa
Exc ener
Half-life (%-err)
Decay modes (%)
Nsp
<β> (eV)
<γ> (eV)
<α>
(eV)
Source
2347 67-Ho-145 5.5- 2.4 s 4.17
β+m:100.00
0
2.997E+06 2.997E+06 NUBASE
2348 67-Ho-145M 2.5+ 1.000E+05 0.1 s 100
β+:50.00; IT:50.00
0
1.535E+06 1.585E+06 NUBASE
2349 67-Ho-146 10.0+ 3.6 s 8.33
β+m:100.00
0
2.683E+06 2.683E+06 NUBASE
2350 67-Ho-147 5.5- 5.8 s 6.90
β+m:100.00
0
2.534E+06 2.534E+06 NUBASE
2351 67-Ho-148 1.0+ 2.2 s 50
β+:100.00
4
3.781E+06 1.104E+06 ENSDF
2352 67-Ho-148M 10.0+ 6.944E+05 2.35E-03 s 1.70
IT:100.00
3
4.226E+04 6.484E+05 ENSDF
2353 67-Ho-148N 10.0+ 6.900E+05 2.35E-03 s 1.70
ITm:100.00
0
2.900E+05 NUBASE
2354 67-Ho-149 5.5- 21.1 s 0.95
β+:100.00
0
2.009E+06 2.009E+06 NUBASE
2355 67-Ho-149M 0.5+ 4.880E+04 56 s 5.36
β+:100.00
0
2.025E+06 2.025E+06 NUBASE
2356 67-Ho-150 2.0- 1.28 m 2.34
β+:100.00
0
2.456E+06 2.456E+06 NUBASE
2357 67-Ho-150M 9.0+ 23.3 s 1.29
β+:100.00
0
2.456E+06 2.456E+06 NUBASE
2358 67-Ho-151 5.5- 35.2 s 0.28
β+:78.00; α m:22.00
0
1.333E+06 1.333E+06 1.022E+06 NUBASE
2359 67-Ho-151M 0.5+ 4.100E+04 47.2 s 2.12
α:77.00; β+:23.00
0
3.962E+05 3.962E+05 3.647E+06 NUBASE
2360 67-Ho-152 2.0- 2.697 m 0.19
β+:88.00; α:12.00
0
1.911E+06 1.911E+06 5.409E+05 NUBASE
2361 67-Ho-152M 9.0+ 1.600E+05 50 s 0.80
β+:89.20; α m:10.80
0
1.985E+06 1.985E+06 4.943E+05 NUBASE
2362 67-Ho-153 5.5- 2.01 m 1.49
α:0.05; β+:99.95
5
5.271E+05 9.147E+05 1.994E+03 ENSDF
2363 67-Ho-153M 0.5+ 6.870E+04 9.3 m 5.38
β+:99.82; α:0.18
0
1.397E+06 1.397E+06 7.417E+03 NUBASE
2364 67-Ho-154 2.0- 11.76 m 1.62
β+:99.98; α:0.02
0
1.918E+06 1.918E+06 7.680E+02 NUBASE
2365 67-Ho-154M 8.0+ 2.400E+05 3.1 m 4.52
β+:100.00; α m:~
0
1.998E+06 1.998E+06 3.832E+01 NUBASE
2366 67-Ho-155 2.5+ 48 m 4.17
β+:100.00
4
2.084E+05 4.455E+05 ENSDF
2367 67-Ho-156 4.0- 56 m 1.79
β+:100.00
0
1.727E+06 1.727E+06 NUBASE
2368 67-Ho-156M 1.0- 5.240E+04 9.5 s 15.79
IT:50.00; β+:50.00
0
8.721E+05 8.983E+05 NUBASE
2369 67-Ho-156N 9.0+ 1.000E+05 7.8 m 3.85
β+:75.00; IT:25.00
0
1.320E+06 1.345E+06 NUBASE
2370 67-Ho-157 3.5- 12.6 m 1.59
β+:50.00; β+
m:50.00
0
8.331E+05 8.331E+05 NUBASE
2371 67-Ho-158 5.0+ 11.3 m 3.54
β+:100.00
0
1.407E+06 1.407E+06 NUBASE
2372 67-Ho-158M 2.0- 6.720E+04 28 m 7.14
IT:81.00; β+:19.00
0
2.716E+05 3.260E+05 NUBASE
2373 67-Ho-158N 9.0+ 1.800E+05 21.3 m 10.80
β+:93.00; IT:7.00
0
1.364E+06 1.377E+06 NUBASE
2374 67-Ho-159 3.5- 33.05 m 0.33
β+:100.00
4
5.117E+04 3.806E+05 ENSDF
2375 67-Ho-159M 0.5+ 2.059E+05 8.3 s 0.96
IT:100.00
3
1.036E+05 1.000E+05 ENSDF
2376 67-Ho-160 5.0+ 25.3 m 2.77
β+:100.00
4
7.034E+04 1.713E+06 UKPADD67
2377 67-Ho-160M 2.0- 5.998E+04 5 h 2
IT:65.00; β+:35.00
4
8.167E+04 6.498E+05 UKPADD67
2378 67-Ho-160N 9.0+ 2.000E+05 2.9 s 6.90
IT:100.00
3
9.388E+04 1.057E+05 UKPADD67
2379 67-Ho-161 3.5- 2.48 h 4.84
β+:100.00
4
3.344E+04 5.817E+04 UKPADD67
2380 67-Ho-161M 0.5+ 2.111E+05 6.77 s 0.89
IT:100.00
3
1.072E+05 1.037E+05 UKPADD67
2381 67-Ho-162 1.0+ 15 m 6.67
β+:100.00
4
5.676E+04 1.641E+05 ENSDF
2382 67-Ho-162M 6.0- 1.060E+05 1.117 h 1.04
IT:62.00; β+:38.00
0
2.845E+05 3.502E+05 NUBASE
2383 67-Ho-163 3.5- 4570.09 y 0.46
β+:100.00
1
2.650E+03 1.053E-03 UKPADD67
2384 67-Ho-163M 0.5+ 2.979E+05 1.1 s 6.36
IT:100.00
3
6.124E+04 2.365E+05 UKPADD67
2385 67-Ho-164 1.0+ 28.6 m 2.10
β-:51.70; β+:48.30
5
1.843E+05 2.816E+04 UKPADD67
2386 67-Ho-164M 6.0- 1.400E+05 37.6 m 1.33
IT:100.00
3
9.190E+04 4.803E+04 UKPADD67
2387 67-Ho-165 3.5-
NUBASE
2388 67-Ho-166 0.0- 1.117 d 0.07
β-:100.00
4
6.947E+05 3.021E+04 ENSDF
2389 67-Ho-166M 7.0+ 5.980E+03 1200 y 16.67
β-:100.00
4
1.411E+05 1.627E+06 LNHB
THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009 109
MAIN DATA TABLES
Matn Nuclide
SpPa
Exc ener
Half-life (%-err)
Decay modes (%)
Nsp
<β> (eV)
<γ> (eV)
<α>
(eV)
Source
2390 67-Ho-167 3.5- 3.1 h 3.23
β-:88.05; β-
m:11.95
4
2.269E+05 3.630E+05 ENSDF
2391 67-Ho-168 3.0+ 2.99 m 2.34
β-:100.00
4
8.009E+05 8.633E+05 ENSDF
2392 67-Ho-168M 6.0+ 5.900E+04 2.2 m 3.03
IT:99.50; β-:0.50
0
4.976E+03 6.368E+04 NUBASE
2393 67-Ho-169 3.5- 4.7 m 2.13
β-:100.00
0
7.086E+05 7.086E+05 NUBASE
2394 67-Ho-170 6.0+ 2.78 m 5.04
β-:100.00
4
8.361E+05 1.835E+06 UKPADD67
2395 67-Ho-170M 1.0+ 1.200E+05 43 s 4.65
β-:100.00
4
1.365E+06 6.794E+05 UKPADD67
2396 67-Ho-171 3.5- 53 s 3.77
β-:100.00
0
1.068E+06 1.068E+06 NUBASE
2397 67-Ho-172 ? 25 s 12
β-:100.00
0
1.696E+06 1.696E+06 NUBASE
2398 67-Ho-173 3.5- 10 s 100
β-:100.00
0
1.517E+06 1.517E+06 NUBASE
2399 67-Ho-174 ? 8 s 100
β-:100.00
0
2.150E+06 2.150E+06 NUBASE
2400 67-Ho-175 3.5- 5 s 100
β-:100.00
0
1.950E+06 1.950E+06 NUBASE
2401 68-Er-143 4.5- 0.2 s 100
β+:100.00
0
3.643E+06 3.643E+06 NUBASE
2402 68-Er-144 0.0+ 0.4 s 50
β+:100.00
0
2.763E+06 2.763E+06 NUBASE
2403 68-Er-145 0.5+ 0.9 s 33.33
β+m:100.00
0
3.130E+06 3.130E+06 NUBASE
2404 68-Er-146 0.0+ 1.7 s 35.29
β+:100.00
0
2.287E+06 2.287E+06 NUBASE
2405 68-Er-147 0.5+ 2.5 s 100
β+:100.00
0
2.929E+06 2.929E+06 NUBASE
2406 68-Er-147M 5.5- 1.000E+05 2.5 s 8
β+:100.00
0
2.962E+06 2.962E+06 NUBASE
2407 68-Er-148 0.0+ 4.6 s 4.35
β+:99.85; β+,p:0.07;
β+,pm:0.07
0
2.122E+06 2.122E+06 1.828E+03 NUBASE
2408 68-Er-149 0.5+ 4 s 50
β+m:93.00; β+,p:7.00
0
2.568E+06 2.568E+06 1.195E+05 NUBASE
2409 68-Er-149M 5.5- 7.418E+05 8.9 s 2.25
β+:96.32; IT:3.50;
β+,p:0.18
0
2.793E+06 2.819E+06 3.406E+03 NUBASE
2410 68-Er-150 0.0+ 18.5 s 3.78
β+:100.00
0
1.372E+06 1.372E+06 NUBASE
2411 68-Er-151 3.5- 23.5 s 5.53
β+:100.00
4
8.287E+05 1.660E+06 ENSDF
2412 68-Er-151M 13.5- 2.586E+06 0.58 s 3.45
IT:95.30; β+:4.70
0
1.246E+05 2.589E+06 NUBASE
2413 68-Er-152 0.0+ 10.3 s 0.97
α:91.00; β+:10.00
5
1.887E+04 4.111E+04 4.490E+06 ENSDF
2414 68-Er-153 3.5- 37.1 s 0.54
α:53.00; β+:47.00
4
1.329E+03 3.227E+05 2.544E+06 ENSDF
2415 68-Er-154 0.0+ 3.73 m 2.41
α:0.47; β+:99.53
5
3.183E+04 7.596E+04 1.959E+04 ENSDF
2416 68-Er-155 3.5- 5.3 m 5.66
β+:99.98; α:0.02
0
1.275E+06 1.275E+06 9.062E+02 NUBASE
2417 68-Er-156 0.0+ 19.5 m 5.13
β+:4.59; β+
m:95.41
4
6.980E+04 5.725E+04 ENSDF
2418 68-Er-157 1.5- 18.65 m 0.54
β+:100.00
0
1.136E+06 1.136E+06 NUBASE
2419 68-Er-157M 4.5+ 1.554E+05 0.076 s 7.89
IT:100.00
0
1.554E+05 NUBASE
2420 68-Er-158 0.0+ 2.29 h 2.62
β+m:100.00
0
4.099E+04 8.198E+04 NUBASE
2421 68-Er-159 1.5- 36 m 2.78
β+:76.43; β+
m:23.57
4
6.804E+04 7.412E+05 ENSDF
2422 68-Er-160 0.0+ 1.191 d 0.31
β+m:100.00
0
1.350E+04 2.700E+04 NUBASE
2423 68-Er-161 1.5- 3.21 h 0.93
β+:73.40; β+
m:26.60
0
6.459E+05 6.459E+05 NUBASE
2424 68-Er-162 0.0+ 1.4E+14 y 100
α:50.00; 2β+:50.00
0
9.219E+05 8.220E+05 NUBASE
2425 68-Er-163 2.5- 1.25 h 0.53
β+:99.98; β+
m:0.02
4
5.270E+03 4.018E+04 ENSDF
2426 68-Er-164 0.0+
NUBASE
2427 68-Er-165 2.5- 10.36 h 0.39
β+:100.00
3
5.178E+03 3.783E+04 ENSDF
2428 68-Er-166 0.0+
NUBASE
2429 68-Er-167 3.5+
NUBASE
2430 68-Er-167M 0.5- 2.078E+05 2.27 s 0.26
IT:100.00
3
1.101E+05 9.759E+04 UKPADD67
110 THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009
MAIN DATA TABLES
Matn Nuclide
SpPa
Exc ener
Half-life (%-err)
Decay modes (%)
Nsp
<β> (eV)
<γ> (eV)
<α>
(eV)
Source
2431 68-Er-168 0.0+
NUBASE
2432 68-Er-169 0.5- 9.4 d 0.21
β-:100.00
4
1.018E+05 1.981E+01 LNHB
2433 68-Er-170 0.0+
NUBASE
2434 68-Er-171 2.5- 7.516 h 0.03
β-:100.00
4
4.164E+05 3.726E+05 ENSDF
2435 68-Er-172 0.0+ 2.054 d 0.61
β-:100.00
4
1.287E+05 5.157E+05 UKPADD67
2436 68-Er-173 3.5- 1.4 m 7.14
β-:100.00
4
6.975E+05 8.303E+05 ENSDF
2437 68-Er-174 0.0+ 3.2 m 6.25
β-:100.00
0
6.400E+05 6.400E+05 NUBASE
2438 68-Er-175 4.5+ 1.2 m 25
β-:100.00
0
1.223E+06 1.223E+06 NUBASE
2439 68-Er-176 0.0+ 20 s 100
β-:100.00
0
9.567E+05 9.567E+05 NUBASE
2440 68-Er-177 0.5- 3 s 100
β-:100.00
0
1.557E+06 1.557E+06 NUBASE
2441 69-Tm-145 5.5- 3.1E-06 s 9.68
p:100.00
0
1.741E+06 NUBASE
2442 69-Tm-146 6.0- 0.24 s 12.50
p:100.00
0
1.121E+06 NUBASE
2443 69-Tm-146M 10.0+ 7.100E+04 0.072 s 31.94
p:84.00; β+:16.00
0
7.201E+05 7.201E+05 1.001E+06 NUBASE
2444 69-Tm-147 5.5- 0.58 s 5.17
β+m:85.00; p:15.00
0
2.998E+06 2.998E+06 1.576E+05 NUBASE
2445 69-Tm-148 10.0+ 0.7 s 28.57
β+:100.00
0
4.127E+06 4.127E+06 NUBASE
2446 69-Tm-149 5.5- 0.9 s 22.22
β+m:99.74; β+,p:0.09;
β+,pm:0.09; β+,pn:0.09
0
2.983E+06 2.983E+06 4.113E+03 NUBASE
2447 69-Tm-150 1.0+ 3 s 100
β+:100.00
0
3.741E+06 3.741E+06 NUBASE
2448 69-Tm-150M 6.0- 1.400E+05 2.2 s 2.73
β+:98.80; β+,p:0.60;
β+,pm:0.60
0
3.766E+06 3.766E+06 2.371E+04 NUBASE
2449 69-Tm-150N 10.0+ 8.100E+05 5.2E-03 s 5.77
ITm:100.00
0
6.700E+05 NUBASE
2450 69-Tm-151 5.5- 4.17 s 2.40
β+:100.00
4
1.557E+06 2.557E+06 ENSDF
2451 69-Tm-151M 0.5+ 5.000E+04 6.6 s 21.21
β+:100.00
4
1.425E+06 2.945E+06 ENSDF
2452 69-Tm-152 2.0- 8 s 12.50
β+:100.00
0
2.910E+06 2.910E+06 NUBASE
2453 69-Tm-152M 9.0+ 1.000E+05 5.2 s 11.54
β+:100.00
0
2.943E+06 2.943E+06 NUBASE
2454 69-Tm-153 5.5- 1.48 s 0.68
α:91.00; β+:9.00
5
1.583E+05 1.256E+05 4.769E+06 ENSDF
2455 69-Tm-153M 0.5+ 4.320E+04 2.5 s 8
α m:92.00; β+:8.00
0
1.738E+05 1.738E+05 4.823E+06 NUBASE
2456 69-Tm-154 2.0- 8.1 s 3.70
α:54.00; β+:46.00
0
1.255E+06 1.255E+06 2.751E+06 NUBASE
2457 69-Tm-154M 9.0+ 7.000E+04 3.3 s 2.12
α m:58.00; β+:42.00
0
1.155E+06 1.155E+06 2.995E+06 NUBASE
2458 69-Tm-155 5.5- 21.6 s 0.93
β+:99.10; α:0.90
0
1.843E+06 1.843E+06 4.115E+04 NUBASE
2459 69-Tm-155M 0.5+ 4.100E+04 45 s 6.67
β+:98.00; α m:2.00
0
1.836E+06 1.836E+06 9.144E+04 NUBASE
2460 69-Tm-156 2.0- 1.397 m 2.15
β+:99.94; α:0.06
0
2.456E+06 2.456E+06 2.780E+03 NUBASE
2461 69-Tm-157 0.5+ 3.63 m 2.48
β+:100.00
0
1.570E+06 1.570E+06 NUBASE
2462 69-Tm-158 2.0- 3.98 m 1.51
β+:100.00
4
1.557E+06 1.555E+06 ENSDF
2463 69-Tm-159 2.5+ 9.13 m 1.75
β+:100.00
0
1.332E+06 1.332E+06 NUBASE
2464 69-Tm-160 1.0- 9.4 m 3.19
β+:100.00
0
1.919E+06 1.919E+06 NUBASE
2465 69-Tm-160M 5.0+ 7.000E+04 1.242 m 2.01
IT:85.00; β+:15.00
0
2.914E+05 3.509E+05 NUBASE
2466 69-Tm-161 3.5+ 30.2 m 2.65
β+:100.00
0
1.103E+06 1.103E+06 NUBASE
2467 69-Tm-161M 0.5+ 7.400E+03 5 m 100
β+:50.00; IT:50.00
0
5.529E+05 5.566E+05 NUBASE
2468 69-Tm-162 1.0- 21.7 m 0.88
β+:100.00
0
1.620E+06 1.620E+06 NUBASE
2469 69-Tm-162M 5.0+ 1.300E+05 24.3 s 7
IT:82.00; β+:18.00
0
2.993E+05 4.059E+05 NUBASE
2470 69-Tm-163 0.5+ 1.81 h 0.28
β+:100.00
0
8.130E+05 8.130E+05 NUBASE
2471 69-Tm-164 1.0+ 2 m 5
β+:100.00
4
5.440E+05 7.176E+05 ENSDF
THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009 111
MAIN DATA TABLES
Matn Nuclide
SpPa
Exc ener
Half-life (%-err)
Decay modes (%)
Nsp
<β> (eV)
<γ> (eV)
<α>
(eV)
Source
2472 69-Tm-164M 6.0- 1.000E+04 5.1 m 1.96
IT:80.00; β+:20.00
0
2.715E+05 2.795E+05 NUBASE
2473 69-Tm-165 0.5+ 1.252 d 0.10
β+:100.00
4
5.595E+04 5.464E+05 ENSDF
2474 69-Tm-166 2.0+ 7.7 h 0.39
β+:100.00
4
8.115E+04 1.956E+06 ENSDF
2475 69-Tm-166M 6.0- 1.220E+05 0.34 s 7.35
IT:100.00
0
1.220E+05 NUBASE
2476 69-Tm-167 0.5+ 9.246 d 0.15
β+:1.71; β+
m:98.29
4
2.156E+04 5.162E+04 UKPADD67
2477 69-Tm-168 3.0+ 90 d 4.44
β-:0.01; β+:99.99
5
8.308E+04 1.210E+06 UKPADD67
2478 69-Tm-169 0.5+
NUBASE
2479 69-Tm-170 1.0- 128.6 d 0.23
β+:0.13; β-:99.87
5
3.275E+05 4.185E+03 ENSDF
2480 69-Tm-171 0.5+ 1.917 y 0.71
β-:100.00
4
2.556E+04 6.821E+02 UKPADD67
2481 69-Tm-172 2.0- 2.65 d 0.31
β-:100.00
4
5.277E+05 4.805E+05 UKPADD67
2482 69-Tm-173 0.5+ 8.24 h 0.97
β-:100.00
4
3.097E+05 3.884E+05 ENSDF
2483 69-Tm-174 4.0- 5.4 m 1.85
β-:100.00
4
5.139E+05 1.779E+06 ENSDF
2484 69-Tm-175 0.5+ 15.2 m 3.29
β-:23.00; β-
m:77.00
0
6.614E+05 6.614E+05 NUBASE
2485 69-Tm-176 4.0+ 1.85 m 1.62
β-:50.00; β-
m:50.00
0
1.200E+06 1.200E+06 NUBASE
2486 69-Tm-177 3.5- 1.5 m 6.67
β-m:100.00
0
1.063E+06 1.063E+06 NUBASE
2487 69-Tm-178 ? 30 s 100
β-:100.00
0
1.859E+06 1.859E+06 NUBASE
2488 69-Tm-179 0.5+ 20 s 100
β-:100.00
0
1.607E+06 1.607E+06 NUBASE
2489 70-Yb-148 0.0+ 0.25 s 60
β+:100.00
0
2.973E+06 2.973E+06 NUBASE
2490 70-Yb-149 ? 0.7 s 28.57
β+:100.00
0
3.513E+06 3.513E+06 NUBASE
2491 70-Yb-150 0.0+ 0.7 s 42.86
β+:100.00
0
2.627E+06 2.627E+06 NUBASE
2492 70-Yb-151 0.5+ 1.6 s 31.25
β+m:100.00
0
3.050E+06 3.050E+06 NUBASE
2493 70-Yb-151M 5.5- 7.500E+05 1.6 s 6.25
β+:99.60; IT:0.40
0
3.317E+06 3.320E+06 NUBASE
2494 70-Yb-152 0.0+ 3.04 s 1.97
β+:100.00
4
1.206E+06 1.163E+06 ENSDF
2495 70-Yb-153 3.5- 4.2 s 4.76
β+:25.00; β+
m:25.00;
α:25.00; α m:25.00;
β+,p:0.01
0
1.156E+06 1.156E+06 1.943E+06 NUBASE
2496 70-Yb-154 0.0+ 0.409 s 0.49
α:92.60; β+:7.40
0
1.109E+05 1.109E+05 5.069E+06 NUBASE
2497 70-Yb-155 3.5- 1.793 s 1.06
α:89.00; β+:5.50;
β+m:5.50
0
2.241E+05 2.241E+05 4.751E+06 NUBASE
2498 70-Yb-156 0.0+ 26.1 s 2.68
β+:90.00; α:10.00
0
1.073E+06 1.073E+06 4.811E+05 NUBASE
2499 70-Yb-157 3.5- 38.6 s 2.59
β+:99.50; α:0.50
0
1.747E+06 1.747E+06 2.311E+04 NUBASE
2500 70-Yb-158 0.0+ 1.49 m 8.72
β+:100.00; α:~
0
8.960E+05 8.960E+05 8.761E+01 NUBASE
2501 70-Yb-159 2.5- 1.72 m 5.81
β+:100.00
0
1.576E+06 1.576E+06 NUBASE
2502 70-Yb-160 0.0+ 4.8 m 4.17
β+:100.00
4
5.767E+04 2.706E+05 ENSDF
2503 70-Yb-161 1.5- 4.2 m 4.76
β+m:100.00
0
1.349E+06 1.349E+06 NUBASE
2504 70-Yb-162 0.0+ 18.87 m 1.01
β+:100.00
4
3.152E+04 2.357E+05 ENSDF
2505 70-Yb-163 1.5- 11.05 m 2.26
β+:100.00
0
1.144E+06 1.144E+06 NUBASE
2506 70-Yb-164 0.0+ 1.263 h 2.24
β+:100.00
4
6.027E+03 5.212E+04 ENSDF
2507 70-Yb-165 2.5- 9.9 m 3.03
β+:100.00
0
8.830E+05 8.830E+05 NUBASE
2508 70-Yb-166 0.0+ 2.362 d 0.18
β+m:100.00
0
9.200E+03 1.840E+04 NUBASE
2509 70-Yb-167 2.5- 17.5 m 1.14
β+:100.00
0
6.514E+05 6.514E+05 NUBASE
2510 70-Yb-168 0.0+ 1.3E+14 y 100
α:50.00; 2β+:50.00
0
7.108E+05 9.750E+05 NUBASE
2511 70-Yb-169 3.5+ 32.018 d 0.02
β+:100.00
4
1.118E+05 3.133E+05 LNHB
112 THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009
MAIN DATA TABLES
Matn Nuclide
SpPa
Exc ener
Half-life (%-err)
Decay modes (%)
Nsp
<β> (eV)
<γ> (eV)
<α>
(eV)
Source
2512 70-Yb-169M 0.5- 2.420E+04 46 s 4.35
IT:100.00
0
2.420E+04 NUBASE
2513 70-Yb-170 0.0+
NUBASE
2514 70-Yb-171 0.5-
NUBASE
2515 70-Yb-171M 3.5+ 9.528E+04 5.25E-03 s 4.57
IT:100.00
0
9.528E+04 NUBASE
2516 70-Yb-172 0.0+
NUBASE
2517 70-Yb-173 2.5-
NUBASE
2518 70-Yb-174 0.0+
NUBASE
2519 70-Yb-175 3.5- 4.185 d 0.02
β-:100.00
4
1.216E+05 7.994E+04 UKPADD67
2520 70-Yb-175M 0.5- 5.149E+05 0.068 s 0.44
IT:100.00
0
5.149E+05 NUBASE
2521 70-Yb-176 0.0+
NUBASE
2522 70-Yb-176M 8.0- 1.050E+06 11.4 s 2.63
IT:90.00; β-:10.00
0
3.144E+04 9.764E+05 NUBASE
2523 70-Yb-177 4.5+ 1.911 h 0.16
β-:100.00
4
4.260E+05 1.991E+05 ENSDF
2524 70-Yb-177M 0.5- 3.315E+05 6.41 s 0.31
IT:100.00
3
1.782E+05 1.500E+05 ENSDF
2525 70-Yb-178 0.0+ 1.233 h 4.05
β-:100.00
0
2.150E+05 2.150E+05 NUBASE
2526 70-Yb-179 0.5- 8 m 5
β-m:100.00
0
6.839E+05 6.839E+05 NUBASE
2527 70-Yb-180 0.0+ 2.4 m 20.83
β-m:100.00
0
7.587E+05 7.587E+05 NUBASE
2528 70-Yb-181 1.5- 1 m 100
β-:100.00
0
1.297E+06 1.297E+06 NUBASE
2529 71-Lu-150 ? 0.046 s 13.04
p:70.00; β+:30.00
0
1.379E+06 1.379E+06 8.897E+05 NUBASE
2530 71-Lu-151 5.5- 0.081 s 2.36
p:63.00; β+
m:37.00
0
1.306E+06 1.306E+06 7.818E+05 NUBASE
2531 71-Lu-152 ? 0.65 s 10.77
β+:85.00; β+,p:7.50;
β+,pm:7.50
0
4.028E+06 4.028E+06 3.760E+05 NUBASE
2532 71-Lu-153 5.5- 0.9 s 22.22
α:70.00; β+:30.00
0
8.650E+05 8.650E+05 2.244E+06 NUBASE
2533 71-Lu-153M 0.5+ 8.000E+04 1 s 100
β+:50.00; α:50.00
0
1.455E+06 1.455E+06 1.643E+06 NUBASE
2534 71-Lu-154 2.0- 1 s 100
β+:100.00
0
3.455E+06 3.455E+06 NUBASE
2535 71-Lu-154M 9.0+ 5.800E+04 1.12 s 7.14
β+:100.00; α n:~
0
3.474E+06 3.474E+06 7.726E+01 NUBASE
2536 71-Lu-155 5.5- 0.069 s 2.33
α:90.00; β+:10.00
0
2.650E+05 2.650E+05 5.223E+06 NUBASE
2537 71-Lu-155M 0.5+ 2.000E+04 0.138 s 5.80
α m:76.00; β+:24.00
0
6.375E+05 6.375E+05 4.356E+06 NUBASE
2538 71-Lu-155N 12.5- 1.781E+06 2.7E-03 s 1.11
α:50.00; α m:50.00
0
7.538E+06 NUBASE
2539 71-Lu-156 2.0- 0.494 s 2.43
α:95.00; β+:5.00
0
1.586E+05 1.586E+05 5.315E+06 NUBASE
2540 71-Lu-156M 9.0+ 2.200E+05 0.198 s 1.01
α m:94.00; β+:6.00
0
1.947E+05 1.947E+05 5.372E+06 NUBASE
2541 71-Lu-157 ? 6.8 s 26.47
β+:50.00; α m:50.00
0
1.160E+06 1.160E+06 2.532E+06 NUBASE
2542 71-Lu-157M 5.5- 2.100E+04 4.79 s 2.51
β+:94.00; α:6.00
0
2.187E+06 2.187E+06 3.077E+05 NUBASE
2543 71-Lu-158 2.0- 10.6 s 2.83
β+:99.09; α:0.91
0
2.907E+06 2.907E+06 4.359E+04 NUBASE
2544 71-Lu-159 0.5+ 12.1 s 8.26
β+:99.90; α m:0.10
0
2.042E+06 2.042E+06 4.459E+03 NUBASE
2545 71-Lu-159M 5.5- 1.000E+05 10 s 100
β+:33.33; IT:33.33;
α:33.33
0
6.926E+05 7.259E+05 1.533E+06 NUBASE
2546 71-Lu-160 2.0- 36.1 s 0.83
β+:100.00; α:~
0
2.633E+06 2.633E+06 4.145E+00 NUBASE
2547 71-Lu-160M ? 40 s 2.50
β+:100.00
0
2.633E+06 2.633E+06 NUBASE
2548 71-Lu-161 0.5+ 1.283 m 2.60
β+:100.00
0
1.761E+06 1.761E+06 NUBASE
2549 71-Lu-161M 4.5- 1.660E+05 7.3E-03 s 5.48
IT:100.00
0
1.660E+05 NUBASE
2550 71-Lu-162 1.0- 1.37 m 1.46
β+:100.00
0
2.331E+06 2.331E+06 NUBASE
2551 71-Lu-162M 4.0- 1.200E+05 1.5 m 100
β+:100.00
0
2.371E+06 2.371E+06 NUBASE
2552 71-Lu-162N ? 3.000E+05 1.9 m 100
β+:100.00
0
2.431E+06 2.431E+06 NUBASE
THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009 113
MAIN DATA TABLES
Matn Nuclide
SpPa
Exc ener
Half-life (%-err)
Decay modes (%)
Nsp
<β> (eV)
<γ> (eV)
<α>
(eV)
Source
2553 71-Lu-163 0.5+ 3.97 m 3.27
β+:100.00
0
1.504E+06 1.504E+06 NUBASE
2554 71-Lu-164 1.0- 3.14 m 0.96
β+:100.00
0
2.127E+06 2.127E+06 NUBASE
2555 71-Lu-165 0.5+ 10.74 m 0.93
β+:100.00
0
1.282E+06 1.282E+06 NUBASE
2556 71-Lu-166 6.0- 2.65 m 3.77
β+:100.00
0
1.856E+06 1.856E+06 NUBASE
2557 71-Lu-166M 3.0- 3.437E+04 1.41 m 7.09
β+:58.00; IT:42.00
0
1.083E+06 1.097E+06 NUBASE
2558 71-Lu-166N 0.0- 4.290E+04 2.12 m 4.72
β+:80.00; ITm:20.00
0
1.496E+06 1.498E+06 NUBASE
2559 71-Lu-167 3.5+ 51.5 m 1.94
β+:100.00
0
1.031E+06 1.031E+06 NUBASE
2560 71-Lu-167M 0.5- 1 m 100
IT:50.00; β+:50.00
0
5.157E+05 5.157E+05 NUBASE
2561 71-Lu-168 6.0- 5.5 m 1.82
β+:100.00
0
1.505E+06 1.505E+06 NUBASE
2562 71-Lu-168M 3.0+ 2.200E+05 6.7 m 5.97
β+:95.00; IT:5.00
0
1.499E+06 1.510E+06 NUBASE
2563 71-Lu-169 3.5+ 1.419 d 0.15
β+:86.40; β+
m:13.60
0
7.632E+05 7.632E+05 NUBASE
2564 71-Lu-169M 0.5- 2.900E+04 2.667 m 6.25
IT:100.00
0
2.900E+04 NUBASE
2565 71-Lu-170 0.0+ 2.012 d 0.99
β+:100.00
0
1.153E+06 1.153E+06 NUBASE
2566 71-Lu-170M 4.0- 9.291E+04 0.67 s 14.93
IT:100.00
0
9.291E+04 NUBASE
2567 71-Lu-171 3.5+ 8.25 d 0.36
β+:100.00
4
8.833E+04 6.413E+05 UKPADD67
2568 71-Lu-171M 0.5- 7.120E+04 1.3 m 2.56
IT:100.00
3
6.944E+04 1.787E+03 UKPADD67
2569 71-Lu-172 4.0- 6.7 d 0.15
β+:100.00
4
1.114E+05 1.955E+06 UKPADD67
2570 71-Lu-172M 1.0- 4.186E+04 3.7 m 13.51
IT:100.00
3
4.020E+04 1.667E+03 UKPADD67
2571 71-Lu-173 3.5+ 1.336 y 2.66
β+:100.00
4
4.618E+04 1.702E+05 UKPADD67
2572 71-Lu-174 1.0- 3.559 y 11.54
β+:100.00
4
4.482E+04 1.167E+05 UKPADD67
2573 71-Lu-174M 6.0- 1.708E+05 142 d 2.11
β+:0.58; IT:99.42
4
1.169E+05 6.167E+04 UKPADD67
2574 71-Lu-175 3.5+
NUBASE
2575 71-Lu-176 7.0- 4E+10 y 5.50
β-:100.00
4
2.982E+05 4.799E+05 ENSDF
2576 71-Lu-176M 1.0- 1.270E+05 3.635 h 0.33
β+:0.10; β-:99.91
5
4.662E+05 1.423E+04 LNHB
2577 71-Lu-177 3.5+ 6.647 d 0.60
β-:100.00
4
1.473E+05 3.343E+04 LNHB
2578 71-Lu-177M 11.5- 9.702E+05 160.3 d 0.25
β-m:77.40; IT:22.60
4
8.208E+04 1.678E+05 UKPADD67
2579 71-Lu-177N 19.5- 3.900E+06 7 m 28.57
β-n:50.00; ITm:50.00
0
2.768E+05 1.742E+06 NUBASE
2580 71-Lu-178 1.0+ 28.4 m 0.70
β-:100.00
4
7.555E+05 1.232E+05 ENSDF
2581 71-Lu-178M 9.0- 1.237E+05 23.1 m 1.30
β-m:100.00
0
3.592E+05 3.592E+05 NUBASE
2582 71-Lu-179 3.5+ 4.59 h 1.31
β-:100.00
4
4.862E+05 2.942E+04 ENSDF
2583 71-Lu-179M 0.5+ 5.924E+05 3.1E-03 s 29.03
IT:100.00
0
5.924E+05 NUBASE
2584 71-Lu-180 3.0+ 5.7 m 1.75
β-:100.00
4
5.918E+05 1.453E+06 ENSDF
2585 71-Lu-180M 3.0- 1.390E+04 1 s 100
β-:50.00; IT:50.00
0
5.187E+05 5.257E+05 NUBASE
2586 71-Lu-180N 9.0- 6.240E+05 1E-03 s 100
β-m:50.00; IT:50.00
0
4.302E+05 7.422E+05 NUBASE
2587 71-Lu-181 3.5+ 3.5 m 8.57
β-:100.00
0
8.906E+05 8.906E+05 NUBASE
2588 71-Lu-182 ? 2 m 10
β-:100.00
0
1.393E+06 1.393E+06 NUBASE
2589 71-Lu-183 3.5+ 58 s 6.90
β-:100.00
4
1.123E+06 6.514E+05 ENSDF
2590 71-Lu-184 3.0+ 20 s 15
β-:50.00; β-
m:50.00
0
1.485E+06 1.485E+06 NUBASE
2591 72-Hf-153 0.5+ 0.4 s 100
β+m:100.00
0
3.677E+06 3.677E+06 NUBASE
2592 72-Hf-153M 5.5- 7.500E+05 0.5 s 100
β+:50.00; IT:50.00
0
1.977E+06 2.352E+06 NUBASE
2593 72-Hf-154 0.0+ 2 s 50
β+:100.00
0
2.280E+06 2.280E+06 NUBASE
2594 72-Hf-155 3.5- 0.89 s 13.48
β+:50.00; β+
m:50.00
0
2.815E+06 2.815E+06 NUBASE
2595 72-Hf-156 0.0+ 0.023 s 4.35
α:97.00; β+:3.00
0
5.900E+04 5.900E+04 5.854E+06 NUBASE
114 THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009
MAIN DATA TABLES
Matn Nuclide
SpPa
Exc ener
Half-life (%-err)
Decay modes (%)
Nsp
<β> (eV)
<γ> (eV)
<α>
(eV)
Source
2596 72-Hf-157 3.5- 0.115 s 0.87
α:86.00; β+:7.00;
β+m:7.00
0
3.604E+05 3.604E+05 5.061E+06 NUBASE
2597 72-Hf-158 0.0+ 2.85 s 2.46
β+:55.70; α:44.30
0
9.488E+05 9.488E+05 2.394E+06 NUBASE
2598 72-Hf-159 3.5- 5.2 s 1.92
β+:65.00; α:35.00
0
1.485E+06 1.485E+06 1.828E+06 NUBASE
2599 72-Hf-160 0.0+ 13.6 s 1.47
β+:99.30; α:0.70
0
1.434E+06 1.434E+06 3.431E+04 NUBASE
2600 72-Hf-161 1.5- 18.2 s 2.75
β+:99.87; α:0.13
0
2.078E+06 2.078E+06 6.108E+03 NUBASE
2601 72-Hf-162 0.0+ 39.4 s 2.28
β+:99.99; α:0.01
0
1.222E+06 1.222E+06 3.534E+02 NUBASE
2602 72-Hf-163 1.5- 40 s 1.50
β+:100.00; α:~
0
1.835E+06 1.835E+06 4.132E+00 NUBASE
2603 72-Hf-164 0.0+ 1.85 m 7.21
β+:100.00
0
9.400E+05 9.400E+05 NUBASE
2604 72-Hf-165 2.5- 1.267 m 5.26
β+:100.00
0
1.602E+06 1.602E+06 NUBASE
2605 72-Hf-166 0.0+ 6.77 m 4.43
β+m:64.56; β+
n:35.44
0
7.082E+05 7.082E+05 NUBASE
2606 72-Hf-167 2.5- 2.05 m 2.44
β+:50.00; β+
m:50.00
0
1.344E+06 1.344E+06 NUBASE
2607 72-Hf-168 0.0+ 25.95 m 0.77
β+m:100.00
0
4.930E+05 4.930E+05 NUBASE
2608 72-Hf-169 2.5- 3.24 m 1.23
β+:96.50; β+
m:3.50
0
1.120E+06 1.120E+06 NUBASE
2609 72-Hf-170 0.0+ 16.01 h 0.81
β+:99.93; β+
m:0.07
0
5.280E+04 1.056E+05 NUBASE
2610 72-Hf-171 3.5+ 12.1 h 3.31
β+:100.00
0
8.008E+05 8.008E+05 NUBASE
2611 72-Hf-171M 0.5- 2.193E+04 29.5 s 3.05
IT:100.00
0
2.193E+04 NUBASE
2612 72-Hf-172 0.0+ 1.87 y 1.60
β+m:100.00
4
6.865E+04 1.093E+05 ENSDF
2613 72-Hf-173 0.5- 23.9 h 1.26
β+:100.00
4
5.205E+04 3.966E+05 UKPADD67
2614 72-Hf-174 0.0+ 2E+15 y 20
α:100.00
1
2.504E+06 UKPADD67
2615 72-Hf-175 2.5- 70 d 1.43
β+:100.00
4
4.551E+04 3.630E+05 UKPADD67
2616 72-Hf-176 0.0+
NUBASE
2617 72-Hf-177 3.5-
NUBASE
2618 72-Hf-177M 11.5+ 1.315E+06 1.08 s 5.56
IT:100.00
3
2.407E+05 1.068E+06 UKPADD67
2619 72-Hf-177N 18.5- 2.740E+06 51.4 m 0.97
ITm:100.00
3
2.515E+05 1.177E+06 UKPADD67
2620 72-Hf-178 0.0+
NUBASE
2621 72-Hf-178M 8.0- 1.147E+06 4 s 7.50
IT:100.00
3
1.415E+05 1.006E+06 UKPADD67
2622 72-Hf-178N 16.0+ 2.446E+06 31.001 y 3.23
ITm:100.00
3
7.362E+04 1.223E+06 UKPADD67
2623 72-Hf-179 4.5+
NUBASE
2624 72-Hf-179M 0.5- 3.750E+05 18.67 s 0.16
IT:100.00
3
1.341E+05 2.407E+05 UKPADD67
2625 72-Hf-179N 12.5- 1.106E+06 25.1 d 0.80
IT:100.00
3
1.863E+05 9.190E+05 UKPADD67
2626 72-Hf-180 0.0+
NUBASE
2627 72-Hf-180M 8.0- 1.141E+06 5.5 h 1.82
β-m:0.31; IT:99.69
4
1.486E+05 9.924E+05 UKPADD67
2628 72-Hf-181 0.5- 42.38 d 0.14
β-:100.00
4
2.044E+05 5.305E+05 UKPADD67
2629 72-Hf-182 0.0+ 9E+06 y 22.22
β-:100.00
4
3.215E+04 2.394E+05 ENSDF
2630 72-Hf-182M 8.0- 1.173E+06 1.025 h 2.44
β-n:58.00; IT:42.00
0
1.987E+05 6.913E+05 NUBASE
2631 72-Hf-183 1.5- 1.067 h 1.59
β-:100.00
0
6.687E+05 6.687E+05 NUBASE
2632 72-Hf-184 0.0+ 4.12 h 1.21
β-:100.00
0
4.470E+05 4.470E+05 NUBASE
2633 72-Hf-184M 8.0- 1.272E+06 48 s 20.83
β-:100.00
0
8.711E+05 8.711E+05 NUBASE
2634 72-Hf-185 1.5- 3.5 m 17.14
β-:100.00
0
1.012E+06 1.012E+06 NUBASE
2635 72-Hf-186 0.0+ 2.6 m 46.15
β-:100.00
0
7.267E+05 7.267E+05 NUBASE
2636 72-Hf-187 1.5- 30 s 100
β-:100.00
0
1.263E+06 1.263E+06 NUBASE
2637 72-Hf-188 0.0+ 20 s 100
β-:100.00
0
9.767E+05 9.767E+05 NUBASE
THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009 115
MAIN DATA TABLES
Matn Nuclide
SpPa
Exc ener
Half-life (%-err)
Decay modes (%)
Nsp
<β> (eV)
<γ> (eV)
<α>
(eV)
Source
2638 73-Ta-155 5.5- 1.3E-05 s 30.77
p:100.00
0
1.771E+06 NUBASE
2639 73-Ta-156 2.0- 0.144 s 16.67
p:100.00
0
1.011E+06 NUBASE
2640 73-Ta-156M 9.0+ 1.000E+05 0.36 s 11.11
β+:95.80; p:4.20
0
3.880E+06 3.880E+06 4.666E+04 NUBASE
2641 73-Ta-157 0.5+ 0.01 s 3.96
α:95.60; p:3.40;
β+:1.00
0
3.040E+04 3.040E+04 6.107E+06 NUBASE
2642 73-Ta-157M 5.5- 2.200E+04 4.3E-03 s 2.33
α m:99.00; β+:1.00
0
3.047E+04 3.047E+04 6.234E+06 NUBASE
2643 73-Ta-157N 12.5- 1.593E+06 1.7E-03 s 5.88
α m:100.00
0
7.868E+06 NUBASE
2644 73-Ta-158 2.0- 0.049 s 16.33
α:96.00; β+:4.00
0
1.478E+05 1.478E+05 5.880E+06 NUBASE
2645 73-Ta-158M 9.0+ 1.400E+05 0.036 s 2.22
α m:93.00; β+:3.50;
IT:3.50
0
1.309E+05 1.358E+05 5.773E+06 NUBASE
2646 73-Ta-159 0.5+ 1.04 s 8.65
β+:66.00; α:34.00
0
1.849E+06 1.849E+06 1.932E+06 NUBASE
2647 73-Ta-159M 5.5- 6.400E+04 0.514 s 3.89
α m:55.00; β+:45.00
0
1.270E+06 1.270E+06 3.149E+06 NUBASE
2648 73-Ta-160 2.0- 1.7 s 11.76
β+:50.00; α:50.00
0
1.676E+06 1.676E+06 2.723E+06 NUBASE
2649 73-Ta-160M 9.0+ 3.100E+05 1.55 s 2.58
β+:66.00; α m:34.00
0
2.281E+06 2.281E+06 1.882E+06 NUBASE
2650 73-Ta-161 0.5+ 3 s 100
β+:50.00; α:50.00
0
1.265E+06 1.265E+06 2.664E+06 NUBASE
2651 73-Ta-161M 5.5- 5.000E+04 2.89 s 4.15
β+:95.00; α m:5.00
0
2.419E+06 2.419E+06 2.679E+05 NUBASE
2652 73-Ta-162 3.0+ 3.57 s 3.36
β+:99.93; α:0.07
0
3.129E+06 3.129E+06 3.707E+03 NUBASE
2653 73-Ta-163 0.5+ 10.6 s 16.98
β+:99.80; α:0.10;
α m:0.10
0
2.244E+06 2.244E+06 9.390E+03 NUBASE
2654 73-Ta-164 3.0+ 14.2 s 2.11
β+:100.00
4
2.739E+06 1.617E+06 ENSDF
2655 73-Ta-165 2.5- 31 s 4.84
β+:100.00
0
1.927E+06 1.927E+06 NUBASE
2656 73-Ta-166 2.0+ 34.4 s 1.45
β+:100.00
0
2.587E+06 2.587E+06 NUBASE
2657 73-Ta-167 1.5+ 1.33 m 5.26
β+:100.00
0
1.706E+06 1.706E+06 NUBASE
2658 73-Ta-168 ? 2 m 5
β+:100.00
0
2.322E+06 2.322E+06 NUBASE
2659 73-Ta-169 2.5+ 4.9 m 8.16
β+:100.00
0
1.476E+06 1.476E+06 NUBASE
2660 73-Ta-170 3.0+ 6.76 m 0.89
β+:100.00
4
1.598E+06 1.056E+06 ENSDF
2661 73-Ta-171 2.5- 23.3 m 1.29
β+:50.00; β+
m:50.00
0
1.233E+06 1.233E+06 NUBASE
2662 73-Ta-172 3.0+ 36.8 m 0.82
β+:100.00
4
4.243E+05 1.732E+06 ENSDF
2663 73-Ta-173 2.5- 3.14 h 4.14
β+:100.00
4
1.247E+05 4.093E+05 ENSDF
2664 73-Ta-174 3.0+ 1.14 h 7.02
β+:100.00
4
3.615E+05 8.373E+05 ENSDF
2665 73-Ta-175 3.5+ 10.5 h 1.90
β+:100.00
0
6.916E+05 6.916E+05 NUBASE
2666 73-Ta-176 1.0- 8.09 h 0.62
β+:100.00
4
7.009E+04 2.099E+06 ENSDF
2667 73-Ta-176M 0.0+ 1.030E+05 1.1E-03 s 9.09
IT:100.00
0
1.030E+05 NUBASE
2668 73-Ta-176N 20.0- 2.820E+06 9.7E-04 s 7.22
ITm:100.00
0
2.717E+06 NUBASE
2669 73-Ta-177 3.5+ 2.35 d 0.89
β+:100.00
4
2.272E+04 6.775E+04 UKPADD67
2670 73-Ta-178 1.0+ 9.29 m 0.43
β+:100.00
4
2.748E+04 1.189E+05 LNHB
2671 73-Ta-178M 7.0- 2.36 h 3.39
β+m:100.00
0
2.633E+05 2.633E+05 NUBASE
2672 73-Ta-178N 15.0- 1.471E+06 0.059 s 5.08
ITm:100.00
0
1.471E+06 NUBASE
2673 73-Ta-179 3.5+ 1.61 y 1.70
β+:100.00
3
7.395E+03 2.925E+04 UKPADD67
2674 73-Ta-179M 12.5+ 1.317E+06 9E-03 s 2.22
IT:100.00
0
1.317E+06 NUBASE
2675 73-Ta-179N 18.5+ 2.639E+06 0.054 s 3.14
ITm:100.00
0
1.322E+06 NUBASE
2676 73-Ta-180 1.0+ 8.08 h 0.62
β-:18.10; β+:81.90
5
6.406E+04 4.593E+04 UKPADD67
2677 73-Ta-180M 9.0- 7.500E+04 1.8E+15 y 33.33
β-:20.00; β+:80.00
5
1.259E+05 5.625E+05 UKPADD67
116 THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009
MAIN DATA TABLES
Matn Nuclide
SpPa
Exc ener
Half-life (%-err)
Decay modes (%)
Nsp
<β> (eV)
<γ> (eV)
<α>
(eV)
Source
2678 73-Ta-181 3.5+
NUBASE
2679 73-Ta-182 3.0- 114.7 d 0.35
β-:100.00
4
2.163E+05 1.283E+06 UKPADD67
2680 73-Ta-182M 5.0+ 1.626E+04 0.283 s 1.06
IT:100.00
3
1.432E+04 1.917E+03 UKPADD67
2681 73-Ta-182N 10.0- 5.196E+05 15.84 m 0.63
ITm:100.00
3
2.444E+05 2.546E+05 UKPADD67
2682 73-Ta-183 3.5+ 5.09 d 1.38
β-:96.60; β-
m:3.40
4
3.494E+05 2.866E+05 UKPADD67
2683 73-Ta-184 5.0- 8.7 h 1.15
β-:100.00
0
9.554E+05 9.554E+05 NUBASE
2684 73-Ta-185 3.5+ 49 m 4.08
β-:100.00
4
7.341E+05 1.374E+05 ENSDF
2685 73-Ta-185M 10.5- 1.308E+06 1E-03 s 100
IT:100.00
0
1.308E+06 NUBASE
2686 73-Ta-186 ? 10.5 m 2.86
β-:100.00
0
1.300E+06 1.300E+06 NUBASE
2687 73-Ta-187 3.5+ 2 m 100
β-:100.00
0
1.045E+06 1.045E+06 NUBASE
2688 73-Ta-188 ? 20 s 100
β-:100.00
0
1.619E+06 1.619E+06 NUBASE
2689 73-Ta-189 3.5+ 3 s 100
β-:100.00
0
1.217E+06 1.217E+06 NUBASE
2690 73-Ta-190 ? 0.3 s 100
β-:100.00
0
1.880E+06 1.880E+06 NUBASE
2691 74-W -158 0.0+ 1.37E-03 s 12.41
α:100.00
0
6.605E+06 NUBASE
2692 74-W -159 3.5- 8.2E-03 s 8.54
α:82.00; β+:9.00;
β+m:9.00
0
5.512E+05 5.512E+05 5.285E+06 NUBASE
2693 74-W -160 0.0+ 0.09 s 5.56
α:87.00; β+:13.00
0
2.825E+05 2.825E+05 5.277E+06 NUBASE
2694 74-W -161 3.5- 0.409 s 3.91
α:73.00; β+:13.50;
β+m:13.50
0
7.466E+05 7.466E+05 4.318E+06 NUBASE
2695 74-W -162 0.0+ 1.36 s 5.15
β+:54.80; α:45.20
0
1.055E+06 1.055E+06 2.566E+06 NUBASE
2696 74-W -163 1.5- 2.8 s 7.14
β+:87.00; α:13.00
0
2.213E+06 2.213E+06 7.175E+05 NUBASE
2697 74-W -164 0.0+ 6.3 s 3.17
β+:96.20; α:3.80
0
1.619E+06 1.619E+06 2.006E+05 NUBASE
2698 74-W -165 1.5- 5.1 s 9.80
β+:99.80; α:0.20
0
2.326E+06 2.326E+06 1.006E+04 NUBASE
2699 74-W -166 0.0+ 19.2 s 3.12
β+:99.97; α:0.03
0
1.402E+06 1.402E+06 1.700E+03 NUBASE
2700 74-W -167 1.5- 19.9 s 2.51
β+:99.96; α:0.04
0
2.086E+06 2.086E+06 1.909E+03 NUBASE
2701 74-W -168 0.0+ 51 s 3.92
β+:100.00; α:~
0
1.168E+06 1.168E+06 1.442E+02 NUBASE
2702 74-W -169 2.5- 1.267 m 7.89
β+:100.00
0
1.791E+06 1.791E+06 NUBASE
2703 74-W -170 0.0+ 2.42 m 1.65
β+:99.00; α:1.00
0
9.388E+05 9.388E+05 4.141E+04 NUBASE
2704 74-W -171 2.5- 2.38 m 1.68
β+:100.00
0
1.545E+06 1.545E+06 NUBASE
2705 74-W -172 0.0+ 6.6 m 13.64
β+:100.00
0
7.443E+05 7.443E+05 NUBASE
2706 74-W -173 2.5- 7.6 m 2.63
β+:100.00
0
1.223E+06 1.223E+06 NUBASE
2707 74-W -174 0.0+ 33.2 m 6.33
β+:100.00
0
5.047E+05 5.047E+05 NUBASE
2708 74-W -175 0.5- 35.2 m 1.70
β+:100.00
0
9.253E+05 9.253E+05 NUBASE
2709 74-W -176 0.0+ 2.5 h 4
β+:100.00
4
5.730E+04 1.715E+05 UKPADD67
2710 74-W -177 0.5- 2.2 h 1.52
β+:100.00
4
8.187E+04 8.153E+05 ENSDF
2711 74-W -178 0.0+ 21.6 d 1.39
β+:100.00
3
6.995E+03 1.916E+04 UKPADD67
2712 74-W -179 3.5- 37.05 m 0.43
β+:100.00
4
1.288E+04 5.405E+04 ENSDF
2713 74-W -179M 0.5- 2.219E+05 6.4 m 1.09
IT:99.72; β+:0.28
0
1.199E+03 2.225E+05 NUBASE
2714 74-W -180 0.0+
NUBASE
2715 74-W -180M 8.0- 1.529E+06 5.47E-03 s 1.65
IT:100.00
0
1.529E+06 NUBASE
2716 74-W -181 4.5+ 120.98 d 0.10
β+:100.00
4
1.268E+04 4.121E+04 UKPADD67
2717 74-W -182 0.0+
NUBASE
THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009 117
MAIN DATA TABLES
Matn Nuclide
SpPa
Exc ener
Half-life (%-err)
Decay modes (%)
Nsp
<β> (eV)
<γ> (eV)
<α>
(eV)
Source
2718 74-W -183 0.5- 1.1E+17 y 100
α:33.40; α m:33.30;
α n:33.30
0
1.187E+06 NUBASE
2719 74-W -183M 5.5+ 3.095E+05 5.25 s 1.33
IT:100.00
3
1.840E+05 1.254E+05 UKPADD67
2720 74-W -184 0.0+ 4E+17 y 100
α:100.00
0
1.656E+06 NUBASE
2721 74-W -185 1.5- 75.1 d 0.40
β-:100.00
4
1.268E+05 5.016E+01 UKPADD67
2722 74-W -185M 5.5+ 1.974E+05 1.667 m 2
IT:100.00
3
1.720E+05 2.574E+04 UKPADD67
2723 74-W -186 0.0+ 5.9E+17 y 100
2β-:50.00; α:50.00
0
2.450E+05 5.623E+05 NUBASE
2724 74-W -186M 16.0+ 3.543E+06 3E-03 s 100
IT:100.00
0
3.543E+06 NUBASE
2725 74-W -187 1.5- 23.85 h 0.34
β-:100.00
4
3.013E+05 4.421E+05 UKPADD67
2726 74-W -188 0.0+ 69.78 d 0.07
β-:100.00
4
9.959E+04 1.913E+03 UKPADD67
2727 74-W -189 1.5- 10.7 m 4.67
β-:100.00
0
8.327E+05 8.327E+05 NUBASE
2728 74-W -190 0.0+ 30 m 5
β-:100.00
4
4.669E+05 1.498E+05 ENSDF
2729 74-W -190M 10.0- 2.381E+06 3.1E-03 s 100
IT:100.00
0
2.381E+06 NUBASE
2730 74-W -191 1.5- 20 s 100
β-:100.00
0
1.080E+06 1.080E+06 NUBASE
2731 74-W -192 0.0+ 10 s 100
β-:100.00
0
6.867E+05 6.867E+05 NUBASE
2732 75-Re-160 2.0- 8.6E-04 s 13.95
p:91.00; α:9.00
0
1.770E+06 NUBASE
2733 75-Re-161 0.5+ 0.015 s 26.67
α:100.00
1
6.439E+06 ENSDF
2734 75-Re-161M 5.5- 1.238E+05 0.016 s 5.77
α m:95.20; p:4.80
0
6.182E+06 NUBASE
2735 75-Re-162 2.0- 0.107 s 12.15
α:94.00; β+:6.00
0
2.330E+05 2.330E+05 5.870E+06 NUBASE
2736 75-Re-162M 9.0+ 1.730E+05 0.077 s 11.69
α m:91.00; β+:9.00
0
3.548E+05 3.548E+05 5.713E+06 NUBASE
2737 75-Re-163 0.5+ 0.39 s 17.95
β+:68.00; α:32.00
0
2.018E+06 2.018E+06 1.925E+06 NUBASE
2738 75-Re-163M 5.5- 1.150E+05 0.214 s 2.34
α m:66.00; β+:34.00
0
1.022E+06 1.022E+06 4.004E+06 NUBASE
2739 75-Re-164 ? 1E-09 s 100
α m:100.00
0
5.505E+06 NUBASE
2740 75-Re-164M 2.0- 2.200E+05 0.53 s 43.40
α:58.00; β+:42.00
0
1.514E+06 1.514E+06 3.500E+06 NUBASE
2741 75-Re-165 0.5+ 1 s 100
β+:50.00; α:50.00
0
1.368E+06 1.368E+06 2.824E+06 NUBASE
2742 75-Re-165M 5.5- 4.700E+04 2.1 s 14.29
β+:87.00; α m:13.00
0
2.393E+06 2.393E+06 7.339E+05 NUBASE
2743 75-Re-166 2.0- 2 s 100
β+:50.00; α:50.00
0
1.674E+06 1.674E+06 2.753E+06 NUBASE
2744 75-Re-166M 9.0+ 2.500E+05 2.5 s 8
β+:95.00; α:5.00
0
3.259E+06 3.259E+06 2.878E+05 NUBASE
2745 75-Re-167 4.5- 3.4 s 11.76
α:100.00
0
5.275E+06 NUBASE
2746 75-Re-167M 0.5+ 1.300E+05 5.9 s 5.08
β+:99.00; α:1.00
0
2.435E+06 2.435E+06 5.405E+04 NUBASE
2747 75-Re-168 ? 4.4 s 2.27
β+:100.00; α:0.01
0
3.033E+06 3.033E+06 2.534E+02 NUBASE
2748 75-Re-169 4.5- 8.1 s 6.17
β+:100.00; α:0.01
0
2.177E+06 2.177E+06 2.522E+02 NUBASE
2749 75-Re-169M 0.5+ 1.600E+05 15.1 s 10.60
β+:99.80; α:0.20
0
2.226E+06 2.226E+06 1.041E+04 NUBASE
2750 75-Re-170 5.0+ 9.2 s 2.17
β+:99.99; α:0.01
0
2.791E+06 2.791E+06 4.755E+02 NUBASE
2751 75-Re-171 4.5- 15.2 s 2.63
β+:100.00
0
1.945E+06 1.945E+06 NUBASE
2752 75-Re-172 ? 15 s 20
β+:100.00
0
2.526E+06 2.526E+06 NUBASE
2753 75-Re-172M ? 55 s 9.09
β+:100.00
0
2.526E+06 2.526E+06 NUBASE
2754 75-Re-173 2.5- 2 m 15
β+:100.00
0
1.724E+06 1.724E+06 NUBASE
2755 75-Re-174 ? 2.4 m 1.67
β+:100.00
0
2.185E+06 2.185E+06 NUBASE
2756 75-Re-175 2.5- 5.89 m 0.85
β+:100.00
0
1.448E+06 1.448E+06 NUBASE
2757 75-Re-176 3.0+ 5.3 m 5.66
β+:100.00
4
1.088E+06 1.051E+06 ENSDF
2758 75-Re-177 2.5- 14 m 7.14
β+:100.00
0
1.144E+06 1.144E+06 NUBASE
2759 75-Re-178 3.0+ 13.2 m 1.52
β+:100.00
0
1.588E+06 1.588E+06 NUBASE
118 THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009
MAIN DATA TABLES
Matn Nuclide
SpPa
Exc ener
Half-life (%-err)
Decay modes (%)
Nsp
<β> (eV)
<γ> (eV)
<α>
(eV)
Source
2760 75-Re-179 2.5+ 19.5 m 0.51
β+:76.00; β+
m:24.00
0
8.882E+05 8.882E+05 NUBASE
2761 75-Re-180 1.0- 2.44 m 2.46
β+:100.00
4
1.335E+05 1.147E+06 ENSDF
2762 75-Re-181 2.5+ 19.9 h 3.52
β+:100.00
4
1.271E+05 7.872E+05 ENSDF
2763 75-Re-182 7.0+ 2.667 d 0.78
β+:100.00
4
1.896E+05 1.795E+06 ENSDF
2764 75-Re-182M 2.0+ 6.000E+04 12.7 h 1.57
β+:100.00
4
8.211E+04 1.206E+06 ENSDF
2765 75-Re-183 2.5+ 70 d 2
β+:100.00
4
1.074E+05 1.592E+05 UKPADD67
2766 75-Re-183M 12.5+ 1.908E+06 1.03E-03 s 3.88
IT:100.00
3
3.170E+05 1.589E+06 UKPADD67
2767 75-Re-184 3.0- 37.9 d 1.32
β+:100.00
4
5.472E+04 9.056E+05 UKPADD67
2768 75-Re-184M 8.0+ 1.880E+05 168 d 4.76
β+:25.20; IT:74.80
4
1.405E+05 3.902E+05 UKPADD67
2769 75-Re-185 2.5+
NUBASE
2770 75-Re-186 1.0- 3.75 d 0.80
β-:93.13; β+:6.87
5
3.373E+05 2.089E+04 UKPADD67
2771 75-Re-186M 8.0+ 1.490E+05 1.9E+05 y 10.53
IT:100.00
3
1.298E+05 1.980E+04 UKPADD67
2772 75-Re-187 2.5+ 4.35E+10 y 2.99
β-:100.00
1
6.600E+02 ENSDF
2773 75-Re-188 1.0- 16.98 h 0.12
β-:100.00
4
7.802E+05 5.788E+04 LNHB
2774 75-Re-188M 6.0- 1.721E+05 18.59 m 0.22
IT:100.00
0
1.721E+05 NUBASE
2775 75-Re-189 2.5+ 1.012 d 1.65
β-:89.72; β-
m:10.28
4
3.310E+05 5.555E+04 ENSDF
2776 75-Re-190 2.0- 3.1 m 9.68
β-:100.00
4
6.979E+05 1.340E+06 ENSDF
2777 75-Re-190M 6.0- 2.100E+05 3.2 h 6.25
β-m:54.40; IT:45.60
0
2.976E+05 3.933E+05 NUBASE
2778 75-Re-191 1.5+ 9.7 m 4.12
β-:100.00
1
7.270E+05 2.229E+03 UKPADD67
2779 75-Re-192 1.0- 6.2 s 12.90
β-:100.00
4
1.638E+06 1.591E+05 UKPADD67
2780 75-Re-193 2.5+ 30 s 100
β-:100.00
0
1.031E+06 1.031E+06 NUBASE
2781 75-Re-194 ? 2 s 100
β-:100.00
0
1.628E+06 1.628E+06 NUBASE
2782 76-Os-162 0.0+ 1.9E-03 s 36.84
α:100.00
1
6.779E+06 ENSDF
2783 76-Os-163 3.5- 5.5E-03 s 10.91
α:100.00
0
6.685E+06 NUBASE
2784 76-Os-164 0.0+ 0.021 s 4.76
α:98.00; β+
m:2.00
0
4.640E+04 4.640E+04 6.346E+06 NUBASE
2785 76-Os-165 3.5- 0.071 s 4.23
α:60.00; β+:20.00;
β+m:20.00
0
1.198E+06 1.198E+06 3.801E+06 NUBASE
2786 76-Os-166 0.0+ 0.216 s 4.17
α:72.00; β+:28.00
0
5.985E+05 5.985E+05 4.420E+06 NUBASE
2787 76-Os-167 1.5- 0.81 s 7.41
α:57.00; β+
m:43.00
0
1.177E+06 1.177E+06 3.412E+06 NUBASE
2788 76-Os-168 0.0+ 2.06 s 3.40
β+:51.00; α:49.00
0
9.858E+05 9.858E+05 2.851E+06 NUBASE
2789 76-Os-169 1.5- 3.46 s 3.18
β+:44.50; β+
m:44.50;
α:11.00
0
2.250E+06 2.250E+06 6.288E+05 NUBASE
2790 76-Os-170 0.0+ 7.46 s 3.08
β+:91.40; α:8.60
0
1.520E+06 1.520E+06 4.764E+05 NUBASE
2791 76-Os-171 2.5- 8.3 s 2.41
α:1.80; β+:98.20
5
2.003E+06 1.038E+06 9.675E+04 ENSDF
2792 76-Os-172 0.0+ 19.2 s 4.69
β+m:98.90; α:1.10
0
1.412E+06 1.412E+06 5.750E+04 NUBASE
2793 76-Os-173 2.5- 22.4 s 4.02
β+:99.60; α:0.40
0
2.031E+06 2.031E+06 2.022E+04 NUBASE
2794 76-Os-174 0.0+ 44 s 9.09
β+:99.98; α:0.02
0
1.225E+06 1.225E+06 1.169E+03 NUBASE
2795 76-Os-175 2.5- 1.4 m 7.14
β+:100.00
0
1.728E+06 1.728E+06 NUBASE
2796 76-Os-176 0.0+ 3.6 m 13.89
β+:100.00
0
9.883E+05 9.883E+05 NUBASE
2797 76-Os-177 0.5- 3 m 6.67
β+:100.00
0
1.440E+06 1.440E+06 NUBASE
2798 76-Os-178 0.0+ 5 m 8
β+:100.00
0
7.023E+05 7.023E+05 NUBASE
2799 76-Os-179 0.5- 6.5 m 4.62
β+:100.00
0
1.189E+06 1.189E+06 NUBASE
2800 76-Os-180 0.0+ 21.5 m 1.86
β+:100.00
4
2.382E+04 1.368E+05 UKPADD67
THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009 119
MAIN DATA TABLES
Matn Nuclide
SpPa
Exc ener
Half-life (%-err)
Decay modes (%)
Nsp
<β> (eV)
<γ> (eV)
<α>
(eV)
Source
2801 76-Os-181 0.5- 1.75 h 2.86
β+:100.00
0
9.870E+05 9.870E+05 NUBASE
2802 76-Os-181M 3.5- 4.890E+04 2.7 m 3.70
β+:100.00
0
1.003E+06 1.003E+06 NUBASE
2803 76-Os-182 0.0+ 22.1 h 1.13
β+:100.00
4
4.807E+04 4.311E+05 ENSDF
2804 76-Os-183 4.5+ 13 h 3.85
β+:100.00
0
7.170E+05 7.170E+05 NUBASE
2805 76-Os-183M 0.5- 1.707E+05 9.9 h 3.03
β+:85.00; IT:15.00
0
6.578E+05 6.834E+05 NUBASE
2806 76-Os-184 0.0+ 5.6E+13 y 100
α:50.00; 2β+:50.00
0
7.256E+05 1.482E+06 NUBASE
2807 76-Os-185 0.5- 93.8 d 0.96
β+:100.00
4
1.833E+04 7.190E+05 UKPADD67
2808 76-Os-186 0.0+ 2E+15 y 55
α:100.00
0
2.823E+06 NUBASE
2809 76-Os-187 0.5-
NUBASE
2810 76-Os-188 0.0+
NUBASE
2811 76-Os-189 1.5-
NUBASE
2812 76-Os-189M 4.5- 3.081E+04 5.81 h 1.03
IT:100.00
0
3.081E+04 NUBASE
2813 76-Os-190 0.0+
NUBASE
2814 76-Os-190M 10.0- 1.705E+06 9.9 m 4.04
IT:100.00
3
1.169E+05 1.589E+06 UKPADD67
2815 76-Os-191 4.5- 15.3 d 1.96
β-m:100.00
1
3.752E+04 UKPADD67
2816 76-Os-191M 1.5- 7.438E+04 13.1 h 0.38
IT:100.00
3
6.658E+04 7.807E+03 UKPADD67
2817 76-Os-192 0.0+
NUBASE
2818 76-Os-192M 10.0- 2.015E+06 5.9 s 1.69
IT:87.00; β-
n:13.00
0
3.466E+04 1.788E+06 NUBASE
2819 76-Os-193 1.5- 1.255 d 0.03
β-:99.65; β-
m:0.35
4
3.796E+05 6.706E+04 ENSDF
2820 76-Os-194 0.0+ 6 y 3.33
β-:100.00
4
4.429E+04 4.091E+03 UKPADD67
2821 76-Os-195 0.5- 6.5 m 9.23
β-:100.00
4
7.153E+05 1.422E+05 UKPADD67
2822 76-Os-196 0.0+ 34.9 m 0.57
β-:100.00
4
3.726E+05 7.703E+04 UKPADD67
2823 77-Ir-164 2.0- 1E-03 s 100
p:33.33; α:33.33;
β+:33.33
0
1.466E+06 1.466E+06 2.842E+06 NUBASE
2824 77-Ir-164M 9.0+ 2.700E+05 9.4E-05 s 28.72
p:33.33; α:33.33;
β+:33.33
0
1.496E+06 1.496E+06 3.022E+06 NUBASE
2825 77-Ir-165 0.5+ 1E-06 s 100
p:50.00; α:50.00
0
4.183E+06 NUBASE
2826 77-Ir-166 2.0- 0.011 s 20.95
α:93.10; p:6.90
1
6.261E+06 ENSDF
2827 77-Ir-166M 9.0+ 1.720E+05 0.015 s 5.96
α m:98.20; p:1.80
0
6.617E+06 NUBASE
2828 77-Ir-167 0.5+ 0.035 s 5.68
α:48.00; p:32.00;
β+:20.00
0
6.281E+05 6.281E+05 3.464E+06 NUBASE
2829 77-Ir-167M 5.5- 1.753E+05 0.03 s 2
α m:80.00; β+:19.60;
p:0.40
0
6.270E+05 6.270E+05 5.256E+06 NUBASE
2830 77-Ir-168 ? 0.161 s 13.04
α:100.00
0
6.475E+06 NUBASE
2831 77-Ir-168M ? 1.500E+05 0.125 s 32
α m:50.00; β+:50.00
0
1.900E+06 1.900E+06 3.203E+06 NUBASE
2832 77-Ir-169 0.5+ 0.4 s 25
α:100.00
1
6.275E+06 ENSDF
2833 77-Ir-169M 5.5- 1.540E+05 0.308 s 7.14
α m:72.00; β+:28.00
0
8.208E+05 8.208E+05 4.506E+06 NUBASE
2834 77-Ir-170 ? 0.91 s 16.48
β+:94.80; α:2.60;
α m:2.60
0
3.352E+06 3.352E+06 3.110E+05 NUBASE
2835 77-Ir-170M ? 3.707E+05 0.44 s 13.64
α:18.00; α m:18.00;
β+:32.00; IT:32.00
0
1.171E+06 1.290E+06 2.286E+06 NUBASE
2836 77-Ir-171 0.5+ 3.6 s 27.78
α m:100.00
0
5.855E+06 NUBASE
120 THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009
MAIN DATA TABLES
Matn Nuclide
SpPa
Exc ener
Half-life (%-err)
Decay modes (%)
Nsp
<β> (eV)
<γ> (eV)
<α>
(eV)
Source
2837 77-Ir-171M 5.5- 1.800E+05 1.4 s 7.14
α:58.00; β+:21.00;
p:21.00
0
5.630E+05 5.630E+05 3.657E+06 NUBASE
2838 77-Ir-172 3.0+ 4.4 s 6.82
β+:98.00; α:2.00
0
3.175E+06 3.175E+06 1.169E+05 NUBASE
2839 77-Ir-172M 7.0+ 1.390E+05 2 s 5
β+:77.00; α:23.00
0
2.530E+06 2.530E+06 1.376E+06 NUBASE
2840 77-Ir-173 ? 9 s 8.89
β+:93.00; α:3.50;
α m:3.50
0
2.221E+06 2.221E+06 3.926E+05 NUBASE
2841 77-Ir-173M 5.5- 2.500E+05 2.2 s 2.27
β+:88.00; α:12.00
0
2.175E+06 2.175E+06 7.127E+05 NUBASE
2842 77-Ir-174 3.0+ 7.9 s 7.59
β+:99.50; α:0.50
0
3.027E+06 3.027E+06 2.812E+04 NUBASE
2843 77-Ir-174M 7.0+ 1.930E+05 4.9 s 6.12
β+:97.50; α:2.50
0
3.029E+06 3.029E+06 1.454E+05 NUBASE
2844 77-Ir-175 2.5- 9 s 22.22
β+:99.15; α:0.85
0
2.206E+06 2.206E+06 4.587E+04 NUBASE
2845 77-Ir-176 ? 8.3 s 7.23
β+:96.90; α:1.55;
α m:1.55
0
2.661E+06 2.661E+06 1.623E+05 NUBASE
2846 77-Ir-177 2.5- 30 s 6.67
β+:99.94; α:0.06
0
1.966E+06 1.966E+06 3.049E+03 NUBASE
2847 77-Ir-178 ? 12 s 16.67
β+:100.00
0
2.431E+06 2.431E+06 NUBASE
2848 77-Ir-179 2.5- 1.317 m 1.27
β+:100.00
0
1.648E+06 1.648E+06 NUBASE
2849 77-Ir-180 ? 1.5 m 6.67
β+:100.00
0
2.127E+06 2.127E+06 NUBASE
2850 77-Ir-181 2.5- 4.9 m 3.06
β+:50.00; β+
m:50.00
0
1.351E+06 1.351E+06 NUBASE
2851 77-Ir-182 3.0+ 15 m 6.67
β+:100.00
0
1.852E+06 1.852E+06 NUBASE
2852 77-Ir-183 2.5- 58 m 8.62
β+:32.98; β+
m:66.97;
α:0.05
0
1.116E+06 1.116E+06 1.982E+03 NUBASE
2853 77-Ir-184 5.0- 3.09 h 0.97
β+:100.00
0
1.548E+06 1.548E+06 NUBASE
2854 77-Ir-185 2.5- 14.4 h 0.69
β+:100.00
0
8.245E+05 8.245E+05 NUBASE
2855 77-Ir-186 5.0+ 16.64 h 0.18
β+:100.00
0
1.276E+06 1.276E+06 NUBASE
2856 77-Ir-186M 2.0- 8.000E+02 1.92 h 2.60
β+:75.00; IT:25.00
0
9.568E+05 9.570E+05 NUBASE
2857 77-Ir-187 1.5+ 10.5 h 2.86
β+:100.00
4
6.379E+04 3.015E+05 UKPADD67
2858 77-Ir-187M 4.5- 1.862E+05 0.03 s 1.98
IT:100.00
0
1.862E+05 NUBASE
2859 77-Ir-188 1.0- 1.729 d 1.20
β+:100.00
0
9.361E+05 9.361E+05 NUBASE
2860 77-Ir-188M 7.0+ 9.700E+05 4.2E-03 s 4.76
IT:100.00
0
9.700E+05 NUBASE
2861 77-Ir-189 1.5+ 13.2 d 0.76
β+:92.51; β+
m:7.49
4
4.026E+04 7.892E+04 ENSDF
2862 77-Ir-189M 5.5- 3.722E+05 0.013 s 2.26
IT:100.00
0
3.722E+05 NUBASE
2863 77-Ir-189N 12.5+ 2.333E+06 3.7E-03 s 5.41
ITm:100.00
0
1.961E+06 NUBASE
2864 77-Ir-190 4.0- 12 d 1.67
β+:100.00
4
7.211E+04 1.478E+06 UKPADD67
2865 77-Ir-190M 1.0- 2.610E+04 1.12 h 0.27
IT:100.00
3
2.384E+04 2.283E+03 UKPADD67
2866 77-Ir-190N 11.0- 3.764E+05 3.087 h 0.39
IT:8.60; β+
m:91.40
4
2.888E+04 5.887E+04 UKPADD67
2867 77-Ir-191 1.5+
NUBASE
2868 77-Ir-191M 5.5- 1.712E+05 4.9 s 0.61
IT:100.00
3
9.572E+04 7.539E+04 UKPADD67
2869 77-Ir-191N 13.5- 2.085E+06 5.5 s 12.73
ITm:100.00
3
4.576E+04 1.868E+06 UKPADD67
2870 77-Ir-192 4.0+ 73.822 d 0.01
β-:95.20; β+:4.80
5
2.173E+05 8.165E+05 UKPADD67
2871 77-Ir-192M 1.0- 5.672E+04 1.44 m 4.86
β-:0.02; IT:99.98
4
5.443E+04 2.439E+03 UKPADD67
2872 77-Ir-192N 11.0- 1.681E+05 241 y 3.73
IT:100.00
3
1.650E+05 3.086E+03 UKPADD67
2873 77-Ir-193 1.5+
NUBASE
2874 77-Ir-193M 5.5- 8.024E+04 10.54 d 0.38
IT:100.00
3
7.770E+04 2.591E+03 UKPADD67
2875 77-Ir-194 1.0- 19.3 h 0.52
β-:100.00
4
8.103E+05 9.099E+04 LNHB
THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009 121
MAIN DATA TABLES
Matn Nuclide
SpPa
Exc ener
Half-life (%-err)
Decay modes (%)
Nsp
<β> (eV)
<γ> (eV)
<α>
(eV)
Source
2876 77-Ir-194M 4.0+ 1.471E+05 0.032 s 0.75
IT:100.00
3
8.321E+04 5.330E+04 ENSDF
2877 77-Ir-194N ? 3.700E+05 171 d 6.43
β-:100.00
4
8.306E+04 2.334E+06 ENSDF
2878 77-Ir-195 1.5+ 2.5 h 8
β-:100.00
4
3.784E+05 5.839E+04 ENSDF
2879 77-Ir-195M 5.5- 1.230E+05 3.8 h 5.26
β-:64.60; β-
m:30.40;
IT:5.00
0
3.632E+05 3.694E+05 NUBASE
2880 77-Ir-196 0.0- 52 s 3.85
β-:100.00
2
1.168E+06 2.272E+05 ENSDF
2881 77-Ir-196M ? 2.100E+05 1.4 h 1.43
β-:99.70; IT:0.30
0
1.136E+06 1.136E+06 NUBASE
2882 77-Ir-197 1.5+ 5.8 m 8.62
β-:100.00
4
7.334E+05 2.238E+05 UKPADD67
2883 77-Ir-197M 5.5- 1.150E+05 8.9 m 3.37
β-m:99.75; IT:0.25
4
6.800E+05 2.042E+03 UKPADD67
2884 77-Ir-198 ? 8 s 12.50
β-:100.00
0
1.363E+06 1.363E+06 NUBASE
2885 77-Ir-199 1.5+ 20 s 100
β-:100.00
0
9.973E+05 9.973E+05 NUBASE
2886 78-Pt-166 0.0+ 3E-04 s 33.33
α:100.00
0
7.285E+06 NUBASE
2887 78-Pt-167 3.5- 7E-04 s 28.57
α:100.00
0
7.155E+06 NUBASE
2888 78-Pt-168 0.0+ 2E-03 s 20
α:99.30
1
6.950E+06 ENSDF
2889 78-Pt-169 1.5- 3.7E-03 s 40.54
α:99.00; β+:1.00
0
3.234E+04 3.234E+04 6.777E+06 NUBASE
2890 78-Pt-170 0.0+ 0.014 s 3.62
α:98.00; β+:1.00;
β+m:1.00
0
4.552E+04 4.552E+04 6.573E+06 NUBASE
2891 78-Pt-171 1.5- 0.044 s 15.91
α:98.00; β+:2.00
0
5.973E+04 5.973E+04 6.473E+06 NUBASE
2892 78-Pt-172 0.0+ 0.098 s 2.44
α:77.00; β+:23.00
0
4.921E+05 4.921E+05 4.978E+06 NUBASE
2893 78-Pt-173 2.5- 0.365 s 1.92
α:84.00; β+:16.00
0
4.444E+05 4.444E+05 5.339E+06 NUBASE
2894 78-Pt-174 0.0+ 0.889 s 1.91
α:76.00; β+:24.00
0
4.440E+05 4.440E+05 4.700E+06 NUBASE
2895 78-Pt-175 2.5- 2.53 s 2.37
α:64.00; β+:36.00
0
9.287E+05 9.287E+05 3.954E+06 NUBASE
2896 78-Pt-176 0.0+ 6.33 s 2.37
β+:62.00; α:38.00
0
1.019E+06 1.019E+06 2.236E+06 NUBASE
2897 78-Pt-177 2.5- 10.6 s 3.77
β+:94.30; α:5.70
0
2.099E+06 2.099E+06 3.217E+05 NUBASE
2898 78-Pt-178 0.0+ 21.1 s 2.84
β+:92.30; α:7.70
0
1.309E+06 1.309E+06 4.291E+05 NUBASE
2899 78-Pt-179 0.5- 21.2 s 1.89
β+:99.76; α:0.24
0
1.933E+06 1.933E+06 1.300E+04 NUBASE
2900 78-Pt-180 0.0+ 56 s 3.57
β+:99.70; α:0.30
0
1.177E+06 1.177E+06 1.571E+04 NUBASE
2901 78-Pt-181 0.5- 52 s 4.23
β+:99.93; α:0.07
0
1.698E+06 1.698E+06 3.811E+03 NUBASE
2902 78-Pt-182 0.0+ 2.2 m 4.55
β+:99.96; α:0.04
0
9.606E+05 9.606E+05 1.882E+03 NUBASE
2903 78-Pt-183 0.5- 6.5 m 15.38
β+:99.99; α:0.01
0
1.475E+06 1.475E+06 4.630E+02 NUBASE
2904 78-Pt-183M 3.5- 3.450E+04 43 s 11.63
β+:100.00; α:~
0
1.486E+06 1.486E+06 1.943E+01 NUBASE
2905 78-Pt-184 0.0+ 17.3 m 1.16
β+:100.00; α:~
0
7.597E+05 7.597E+05 7.824E+01 NUBASE
2906 78-Pt-184M 8.0- 1.839E+06 1.01E-03 s 4.95
IT:100.00
0
1.839E+06 NUBASE
2907 78-Pt-185 4.5+ 1.182 h 3.39
β+:100.00; α m:0.01
0
1.219E+06 1.219E+06 2.198E+02 NUBASE
2908 78-Pt-185M 0.5- 1.034E+05 33 m 2.42
β+:98.00; IT:2.00
0
1.228E+06 1.230E+06 NUBASE
2909 78-Pt-186 0.0+ 2.08 h 2.40
β+m:100.00; α:~
0
4.361E+05 4.361E+05 6.048E+00 NUBASE
2910 78-Pt-187 1.5- 2.35 h 1.28
β+:100.00
4
1.032E+05 4.483E+05 ENSDF
2911 78-Pt-188 0.0+ 10.2 d 2.94
β+:100.00
4
7.456E+04 2.054E+05 ENSDF
2912 78-Pt-189 1.5- 10.87 h 1.10
β+:100.00
4
8.756E+04 4.728E+05 ENSDF
2913 78-Pt-190 0.0+ 6.5E+11 y 4.62
α:100.00
1
3.243E+06 ENSDF
2914 78-Pt-191 1.5- 2.802 d 0.89
β+:98.98; β+
m:1.02
4
6.594E+04 2.943E+05 ENSDF
2915 78-Pt-192 0.0+
NUBASE
2916 78-Pt-193 0.5- 50.001 y 18
β+:100.00
3
7.856E+03 3.378E+04 UKPADD67
122 THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009
MAIN DATA TABLES
Matn Nuclide
SpPa
Exc ener
Half-life (%-err)
Decay modes (%)
Nsp
<β> (eV)
<γ> (eV)
<α>
(eV)
Source
2917 78-Pt-193M 6.5+ 1.498E+05 4.34 d 0.69
IT:100.00
3
1.380E+05 1.233E+04 UKPADD67
2918 78-Pt-194 0.0+
NUBASE
2919 78-Pt-195 0.5-
NUBASE
2920 78-Pt-195M 6.5+ 2.593E+05 4.1 d 2.44
IT:100.00
3
1.823E+05 7.647E+04 UKPADD67
2921 78-Pt-196 0.0+
NUBASE
2922 78-Pt-197 0.5- 19.891 h 0.01
β-:100.00
4
2.544E+05 2.438E+04 UKPADD67
2923 78-Pt-197M 6.5+ 3.996E+05 1.588 h 0.21
β-m:3.30; IT:96.70
4
3.169E+05 7.608E+04 UKPADD67
2924 78-Pt-198 0.0+
NUBASE
2925 78-Pt-199 2.5- 30.8 m 1.30
β-:100.00
4
5.495E+05 1.994E+05 ENSDF
2926 78-Pt-199M 6.5+ 4.240E+05 13.6 s 2.94
IT:100.00
3
7.728E+04 3.406E+05 ENSDF
2927 78-Pt-200 0.0+ 12.5 h 2.40
β-:100.00
4
2.266E+05 5.960E+04 ENSDF
2928 78-Pt-201 2.5- 2.5 m 4
β-:100.00
0
8.870E+05 8.870E+05 NUBASE
2929 78-Pt-202 0.0+ 1.833 d 34.09
β-:100.00
1
6.589E+05 1.927E+03 UKPADD67
2930 79-Au-169 0.5+ 1.5E-04 s 100
α:50.00; β+:50.00
0
1.765E+06 1.765E+06 3.708E+06 NUBASE
2931 79-Au-170 2.0- 3.1E-04 s 16.13
p:85.00; α:15.00
0
2.335E+06 NUBASE
2932 79-Au-170M 9.0+ 2.740E+05 6.3E-04 s 9.52
p:75.00; α m:12.50;
β+:12.50
0
5.404E+05 5.404E+05 2.226E+06 NUBASE
2933 79-Au-171 0.5+ 1.7E-05 s 52.94
p:100.00
0
8.575E+03 ENSDF
2934 79-Au-171M 5.5- 2.500E+05 1.014E-03 s 1.87
α m:54.00; p:46.00
0
4.651E+06 NUBASE
2935 79-Au-172 ? 4.7E-03 s 23.40
α:49.00; α m:49.00;
p:2.00
0
6.839E+06 NUBASE
2936 79-Au-173 0.5+ 0.059 s 76.27
α:100.00
1
6.879E+06 ENSDF
2937 79-Au-173M 5.5- 2.140E+05 0.014 s 6.34
α m:95.70; β+:4.30
0
1.338E+05 1.338E+05 6.599E+06 NUBASE
2938 79-Au-174 ? 0.139 s 2.16
α:45.00; α m:45.00;
β+:10.00
0
3.706E+05 3.706E+05 5.859E+06 NUBASE
2939 79-Au-174M ? 4.600E+05 0.171 s 16.96
α:25.00; α m:25.00;
β+:50.00
0
1.930E+06 1.930E+06 3.485E+06 NUBASE
2940 79-Au-175 0.5+ 0.1 s 100
α:50.00; β+:50.00
0
1.375E+06 1.375E+06 3.283E+06 NUBASE
2941 79-Au-175M 5.5- 2.000E+05 0.156 s 3.21
α m:82.00; β+:18.00
0
5.070E+05 5.070E+05 5.400E+06 NUBASE
2942 79-Au-176 5.0- 1.08 s 15.74
α:30.00; α m:30.00;
β+:40.00
0
1.385E+06 1.385E+06 3.891E+06 NUBASE
2943 79-Au-176M 7.0+ 1.500E+05 0.86 s 18.60
α m:60.00; β+:40.00
0
1.405E+06 1.405E+06 3.940E+06 NUBASE
2944 79-Au-177 ? 1.46 s 2.05
α:100.00
0
6.297E+06 NUBASE
2945 79-Au-177M 5.5- 2.100E+05 1.18 s 1.02
α m:100.00
0
6.257E+06 NUBASE
2946 79-Au-178 ? 2.6 s 19.23
β+:60.00; α:20.00;
α m:20.00
0
1.934E+06 1.934E+06 2.407E+06 NUBASE
2947 79-Au-179 2.5- 7.1 s 4.23
β+:78.00; α:22.00
0
1.901E+06 1.901E+06 1.331E+06 NUBASE
2948 79-Au-180 ? 8.1 s 3.70
β+:98.20; α:1.80
0
2.894E+06 2.894E+06 1.051E+05 NUBASE
2949 79-Au-181 1.5- 13.7 s 10.22
β+:97.30; α:2.70
0
2.109E+06 2.109E+06 1.553E+05 NUBASE
2950 79-Au-182 2.0+ 15.5 s 2.58
β+:99.87; α:0.13
0
2.619E+06 2.619E+06 7.184E+03 NUBASE
2951 79-Au-183 2.5- 42 s 2.86
α:0.55; β+:99.64
5
7.981E+05 1.330E+06 2.938E+04 ENSDF
2952 79-Au-184 5.0+ 20.6 s 4.37
β+:49.99; β+
m:49.99;
α:0.02
0
2.031E+06 2.031E+06 8.375E+02 NUBASE
THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009 123
MAIN DATA TABLES
Matn Nuclide
SpPa
Exc ener
Half-life (%-err)
Decay modes (%)
Nsp
<β> (eV)
<γ> (eV)
<α>
(eV)
Source
2953 79-Au-184M 2.0+ 6.846E+04 47.6 s 2.94
β+:69.98; IT:30.00;
α:0.02
0
1.652E+06 1.672E+06 8.484E+02 NUBASE
2954 79-Au-185 2.5- 4.25 m 1.41
β+:25.33; β+
m:74.41;
α:0.26
0
1.575E+06 1.575E+06 1.347E+04 NUBASE
2955 79-Au-186 3.0- 10.7 m 4.67
β+:100.00
4
1.054E+06 1.430E+06 ENSDF
2956 79-Au-187 0.5+ 8.4 m 3.57
β+:100.00; α:~
0
1.236E+06 1.236E+06 1.430E+02 NUBASE
2957 79-Au-187M 4.5- 1.205E+05 2.3 s 4.35
IT:100.00
0
1.205E+05 NUBASE
2958 79-Au-188 1.0- 8.84 m 0.68
β+:100.00
0
1.841E+06 1.841E+06 NUBASE
2959 79-Au-189 0.5+ 28.7 m 1.05
β+:100.00; α:~
0
9.670E+05 9.670E+05 1.299E+00 NUBASE
2960 79-Au-189M 5.5- 2.472E+05 4.59 m 2.40
β+:100.00
0
1.049E+06 1.049E+06 NUBASE
2961 79-Au-190 1.0- 42.8 m 2.34
β+:100.00
4
1.299E+05 2.123E+06 ENSDF
2962 79-Au-190M 11.0- 2.000E+05 0.125 s 16
IT:100.00
0
2.000E+05 NUBASE
2963 79-Au-191 1.5+ 3.18 h 2.52
β+:100.00
4
7.186E+04 5.582E+05 ENSDF
2964 79-Au-191M 5.5- 2.662E+05 0.92 s 11.96
IT:100.00
0
2.662E+05 NUBASE
2965 79-Au-192 1.0- 4.94 h 1.82
β+:100.00
4
8.286E+04 1.702E+06 ENSDF
2966 79-Au-192M 5.0+ 1.354E+05 0.029 s 10.34
IT:100.00
3
1.261E+05 8.855E+03 UKPADD67
2967 79-Au-192N 11.0- 4.316E+05 0.16 s 12.50
ITm:100.00
3
1.615E+05 1.347E+05 UKPADD67
2968 79-Au-193 1.5+ 17.65 h 0.85
β+:100.00
4
4.902E+04 1.588E+05 ENSDF
2969 79-Au-193M 5.5- 2.902E+05 3.9 s 7.69
IT:99.97; β+:0.02;
β+m:0.02
0
1.298E+02 2.902E+05 NUBASE
2970 79-Au-194 1.0- 1.584 d 0.26
β+:100.00
4
3.677E+04 1.031E+06 ENSDF
2971 79-Au-194M 5.0+ 1.074E+05 0.6 s 1.33
IT:100.00
0
1.074E+05 NUBASE
2972 79-Au-194N 11.0- 4.758E+05 0.42 s 2.38
ITm:100.00
0
3.684E+05 NUBASE
2973 79-Au-195 1.5+ 186.094 d 0.02
β+:100.00
4
4.879E+04 8.633E+04 UKPADD67
2974 79-Au-195M 5.5- 3.186E+05 30.5 s 0.66
IT:100.00
3
1.155E+05 2.030E+05 UKPADD67
2975 79-Au-196 2.0- 6.183 d 0.16
β+:92.80; β-:7.20
5
2.786E+04 4.721E+05 ENSDF
2976 79-Au-196M 5.0+ 8.466E+04 8.1 s 2.47
IT:100.00
0
8.466E+04 NUBASE
2977 79-Au-196N 12.0- 5.957E+05 9.6 h 1.04
ITm:100.00
0
5.110E+05 NUBASE
2978 79-Au-197 1.5+
NUBASE
2979 79-Au-197M 5.5- 4.092E+05 7.74 s 0.90
IT:100.00
3
1.838E+05 2.254E+05 UKPADD67
2980 79-Au-198 2.0- 2.694 d 0.03
β-:100.00
4
3.262E+05 4.028E+05 LNHB
2981 79-Au-198M 12.0- 8.120E+05 2.3 d 1.74
IT:100.00
3
2.621E+05 5.278E+05 UKPADD67
2982 79-Au-199 1.5+ 3.139 d 0.22
β-:100.00
4
1.451E+05 9.607E+04 UKPADD67
2983 79-Au-200 1.0- 48.4 m 0.62
β-:100.00
4
7.427E+05 2.733E+05 ENSDF
2984 79-Au-200M 12.0- 9.600E+05 18.7 h 2.67
β-:82.00; IT:18.00
0
8.731E+05 1.046E+06 NUBASE
2985 79-Au-201 1.5+ 26 m 3.85
β-:100.00
4
4.241E+05 3.419E+04 ENSDF
2986 79-Au-202 1.0- 28.8 s 6.60
β-:100.00
2
1.180E+06 1.697E+05 ENSDF
2987 79-Au-203 1.5+ 53 s 3.77
β-:100.00
2
7.669E+05 6.900E+04 ENSDF
2988 79-Au-204 2.0- 39.8 s 2.26
β-:100.00
0
1.313E+06 1.313E+06 NUBASE
2989 79-Au-205 1.5+ 31 s 6.45
β-:100.00
0
1.179E+06 1.179E+06 NUBASE
2990 80-Hg-171 1.5- 8E-05 s 37.50
α:99.99; β+:0.01
0
3.688E+02 3.688E+02 7.614E+06 NUBASE
2991 80-Hg-172 0.0+ 4.2E-04 s 57.14
α:100.00
0
7.525E+06 NUBASE
2992 80-Hg-173 1.5- 1.1E-03 s 36.36
α:100.00
0
7.385E+06 NUBASE
124 THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009
MAIN DATA TABLES
Matn Nuclide
SpPa
Exc ener
Half-life (%-err)
Decay modes (%)
Nsp
<β> (eV)
<γ> (eV)
<α>
(eV)
Source
2993 80-Hg-174 0.0+ 1.9E-03 s 21.05
α:99.70
1
7.212E+06 ENSDF
2994 80-Hg-175 2.5- 0.011 s 3.70
α:99.00
1
6.980E+06 ENSDF
2995 80-Hg-176 0.0+ 0.02 s 7.35
α:90.00; β+:10.00
0
2.254E+05 2.254E+05 6.207E+06 NUBASE
2996 80-Hg-177 6.5+ 0.127 s 1.41
α:85.00; β+:15.00
0
4.385E+05 4.385E+05 5.725E+06 NUBASE
2997 80-Hg-178 0.0+ 0.269 s 1.12
α:70.00; β+:30.00
0
6.013E+05 6.013E+05 4.604E+06 NUBASE
2998 80-Hg-179 2.5- 1.09 s 3.67
α:53.00; β+:46.85;
β+,p:0.15
0
1.257E+06 1.257E+06 3.365E+06 NUBASE
2999 80-Hg-180 0.0+ 2.58 s 0.39
β+:52.00; α:48.00
0
9.275E+05 9.275E+05 3.004E+06 NUBASE
3000 80-Hg-181 0.5- 3.6 s 2.78
β+:68.98; α:31.00;
β+,p:0.02; β+,n:~
0
1.658E+06 1.658E+06 1.948E+06 NUBASE
3001 80-Hg-182 0.0+ 10.83 s 0.55
β+:86.20; α:13.80;
β+,p:~
0
1.358E+06 1.358E+06 8.276E+05 NUBASE
3002 80-Hg-183 0.5- 9.4 s 7.45
β+:88.30; α:11.70;
β+,p:~
0
1.880E+06 1.880E+06 7.066E+05 NUBASE
3003 80-Hg-183M 6.5+ 2.400E+05 5 s 100
β+:100.00
0
2.209E+06 2.209E+06 NUBASE
3004 80-Hg-184 0.0+ 30.6 s 0.98
β+m:98.89; α:1.11
0
1.286E+06 1.286E+06 6.285E+04 NUBASE
3005 80-Hg-185 0.5- 49.1 s 2.04
β+:94.00; α:6.00
0
1.783E+06 1.783E+06 3.464E+05 NUBASE
3006 80-Hg-185M 6.5+ 1.038E+05 21.6 s 6.94
IT:53.98; β+:45.99;
α:0.03
0
8.883E+05 9.443E+05 1.763E+03 NUBASE
3007 80-Hg-186 0.0+ 1.38 m 4.35
α:0.02; β+:100.00
5
1.588E+05 4.236E+05 9.169E+02 ENSDF
3008 80-Hg-187 1.5- 1.9 m 15.79
β+:100.00; α:~
0
1.629E+06 1.629E+06 6.275E+00 NUBASE
3009 80-Hg-187M 6.5+ 3.000E+04 2.4 m 12.50
β+m:100.00; α m:~
0
1.599E+06 1.599E+06 1.306E+01 NUBASE
3010 80-Hg-188 0.0+ 3.25 m 4.62
β+:100.00
4
4.448E+04 1.717E+05 ENSDF
3011 80-Hg-189 1.5- 7.6 m 1.32
β+:100.00; α m:~
0
1.317E+06 1.317E+06 1.357E+00 NUBASE
3012 80-Hg-189M 6.5+ 1.000E+05 8.6 m 1.16
β+m:100.00; α:~
0
1.268E+06 1.268E+06 1.418E+00 NUBASE
3013 80-Hg-190 0.0+ 20 m 2
β+:100.00
4
6.807E+04 2.044E+05 UKPADD67
3014 80-Hg-191 1.5- 49 m 20.41
β+:100.00; α:~
0
1.072E+06 1.072E+06 1.848E-01 NUBASE
3015 80-Hg-191M 6.5+ 1.280E+05 50.8 m 2.95
β+:56.00; β+
m:44.00;
α:~
0
1.076E+06 1.076E+06 1.912E-01 NUBASE
3016 80-Hg-192 0.0+ 4.85 h 4.12
β+:100.00
4
5.289E+04 2.723E+05 ENSDF
3017 80-Hg-193 1.5- 3.8 h 3.95
β+:96.64; β+
m:3.36
0
7.778E+05 7.778E+05 NUBASE
3018 80-Hg-193M 6.5+ 1.408E+05 11.8 h 1.69
β+:40.83; β+
m:51.97;
IT:7.20
0
7.180E+05 7.282E+05 NUBASE
3019 80-Hg-194 0.0+ 444.001 y 18.02
β+:100.00
3
7.340E+03 1.468E+04 UKPADD67
3020 80-Hg-195 0.5- 9.9 h 5.05
β+:97.90; β+
m:2.10
4
5.556E+04 1.995E+05 ENSDF
3021 80-Hg-195M 6.5+ 1.761E+05 1.733 d 1.92
IT:54.20; β+:22.90;
β+m:22.90
0
2.422E+05 3.377E+05 NUBASE
3022 80-Hg-196 0.0+ 2.5E+18 y 100
2β+:100.00
0
8.207E+05 NUBASE
3023 80-Hg-197 0.5- 2.692 d 0.93
β+:100.00
4
6.915E+04 7.351E+04 UKPADD67
3024 80-Hg-197M 6.5+ 2.989E+05 23.9 h 2.09
β+m:8.60; IT:91.40
4
2.006E+05 7.798E+04 UKPADD67
3025 80-Hg-198 0.0+
NUBASE
3026 80-Hg-199 0.5-
NUBASE
3027 80-Hg-199M 6.5+ 5.325E+05 42.1 m 2.14
IT:100.00
3
3.477E+05 1.846E+05 UKPADD67
THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009 125
MAIN DATA TABLES
Matn Nuclide
SpPa
Exc ener
Half-life (%-err)
Decay modes (%)
Nsp
<β> (eV)
<γ> (eV)
<α>
(eV)
Source
3028 80-Hg-200 0.0+
NUBASE
3029 80-Hg-201 1.5-
NUBASE
3030 80-Hg-202 0.0+
NUBASE
3031 80-Hg-203 2.5- 46.603 d 0.05
β-:100.00
4
9.833E+04 2.377E+05 LNHB
3032 80-Hg-204 0.0+
NUBASE
3033 80-Hg-205 0.5- 5.2 m 1.92
β-:100.00
4
5.362E+05 6.886E+03 UKPADD67
3034 80-Hg-205M 6.5+ 1.556E+06 1.09E-03 s 3.67
IT:100.00
0
1.556E+06 NUBASE
3035 80-Hg-206 0.0+ 8.15 m 1.23
β-:100.00
4
4.307E+05 1.020E+05 LNHB
3036 80-Hg-207 4.5+ 2.9 m 6.90
β-:54.20; β-
m:45.80
0
1.399E+06 1.399E+06 NUBASE
3037 80-Hg-208 0.0+ 42 m 11.90
β-:100.00
0
1.216E+06 1.216E+06 NUBASE
3038 80-Hg-209 4.5+ 37 s 21.62
β-:100.00
0
1.763E+06 1.763E+06 NUBASE
3039 80-Hg-210 0.0+ 10 m 100
β-:100.00
0
1.379E+06 1.379E+06 NUBASE
3040 81-Tl-176 ? 0.01 s 100
α:100.00
0
7.405E+06 NUBASE
3041 81-Tl-177 0.5+ 0.018 s 27.78
α:73.00; p:27.00
0
5.473E+06 NUBASE
3042 81-Tl-178 ? 0.255 s 3.92
α:26.50; α m:26.50;
β+:47.00
0
1.812E+06 1.812E+06 3.601E+06 NUBASE
3043 81-Tl-179 0.5+ 0.27 s 11.11
α m:70.00; β+:30.00
0
8.622E+05 8.622E+05 4.561E+06 NUBASE
3044 81-Tl-179M 4.5- 8.600E+05 1.6E-03 s 10
α:100.00
0
7.575E+06 NUBASE
3045 81-Tl-180 ? 1.5 s 13.33
β+:93.00; α:3.50;
α m:3.50; β+,SF:~
0
3.362E+06 3.362E+06 4.648E+05 NUBASE
3046 81-Tl-181 0.5+ 3.2 s 9.37
α:50.00; β+:50.00
0
1.310E+06 1.310E+06 3.162E+06 NUBASE
3047 81-Tl-181M 4.5- 8.500E+05 1.7E-03 s 23.53
β+:33.33; α m:33.33;
IT:33.33
0
9.678E+05 1.251E+06 2.321E+06 NUBASE
3048 81-Tl-182 2.0- 2 s 15
β+:96.00; α:4.00
0
3.272E+06 3.272E+06 2.622E+05 NUBASE
3049 81-Tl-182M 7.0+ 1.000E+05 2.9 s 17.24
α:100.00
0
6.655E+06 NUBASE
3050 81-Tl-183 0.5+ 6.9 s 10.14
β+:98.00; α:2.00
0
2.356E+06 2.356E+06 1.188E+05 NUBASE
3051 81-Tl-183M 4.5- 6.420E+05 0.06 s 25
α:1.50; β+
m:49.25;
IT:49.25
0
1.250E+06 1.566E+06 9.873E+04 NUBASE
3052 81-Tl-184 2.0- 9.7 s 6.19
β+:97.90; α:2.10
0
3.087E+06 3.087E+06 1.319E+05 NUBASE
3053 81-Tl-184M 7.0+ 1.000E+05 10 s 100
β+:50.00; IT:50.00
0
1.593E+06 1.643E+06 NUBASE
3054 81-Tl-185 0.5+ 19.5 s 2.56
β+:50.00; α:50.00
0
1.069E+06 1.069E+06 2.843E+06 NUBASE
3055 81-Tl-185M 4.5- 4.528E+05 1.83 s 6.56
IT:99.90; α:0.10
0
4.523E+05 6.133E+03 NUBASE
3056 81-Tl-186 2.0- 40 s 100
β+:100.00
0
2.783E+06 2.783E+06 NUBASE
3057 81-Tl-186M 10.0- 3.740E+05 2.9 s 6.90
IT:100.00
3
6.802E+04 3.050E+05 ENSDF
3058 81-Tl-186N 10.0- 5.200E+05 2.9 s 6.90
ITm:100.00
0
3.700E+05 NUBASE
3059 81-Tl-187 0.5+ 51 s 100
β+:100.00
0
1.891E+06 1.891E+06 NUBASE
3060 81-Tl-187M 4.5- 3.330E+05 15.6 s 0.77
IT:49.93; β+
m:49.93;
α:0.15
0
9.947E+05 1.161E+06 8.477E+03 NUBASE
3061 81-Tl-188 7.0+ 1.183 m 1.41
β+:100.00
4
1.658E+06 2.361E+06 ENSDF
3062 81-Tl-188M 7.0+ 1.000E+05 1.183 m 1.41
β+:100.00
0
2.651E+06 2.651E+06 NUBASE
3063 81-Tl-188N 9.0- 1.800E+05 0.041 s 9.76
ITm:100.00
0
8.000E+04 NUBASE
3064 81-Tl-189 0.5+ 2.3 m 8.70
β+:100.00
0
1.676E+06 1.676E+06 NUBASE
3065 81-Tl-189M 4.5- 2.576E+05 1.4 m 7.14
β+m:96.00; IT:4.00
0
1.659E+06 1.670E+06 NUBASE
126 THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009
MAIN DATA TABLES
Matn Nuclide
SpPa
Exc ener
Half-life (%-err)
Decay modes (%)
Nsp
<β> (eV)
<γ> (eV)
<α>
(eV)
Source
3066 81-Tl-190 2.0- 2.6 m 11.54
β+:100.00
0
2.347E+06 2.347E+06 NUBASE
3067 81-Tl-190M 7.0+ 1.300E+05 3.7 m 8.11
β+:100.00
0
2.390E+06 2.390E+06 NUBASE
3068 81-Tl-191 0.5+ 20 m 100
β+:100.00
0
1.437E+06 1.437E+06 NUBASE
3069 81-Tl-191M 4.5- 2.970E+05 5.22 m 3.07
β+m:100.00
0
1.494E+06 1.494E+06 NUBASE
3070 81-Tl-192 2.0- 9.6 m 4.17
β+:100.00
0
2.047E+06 2.047E+06 NUBASE
3071 81-Tl-192M 7.0+ 1.600E+05 10.8 m 1.85
β+:100.00
0
2.100E+06 2.100E+06 NUBASE
3072 81-Tl-193 0.5+ 21.8 m 3.21
β+:100.00
4
9.434E+04 5.559E+05 UKPADD67
3073 81-Tl-193M 4.5- 3.690E+05 2.11 m 7.11
β+:25.00; IT:75.00
4
1.092E+05 3.635E+05 UKPADD67
3074 81-Tl-194 2.0- 33 m 1.52
β+:100.00; α:~
0
1.788E+06 1.788E+06 3.626E-03 NUBASE
3075 81-Tl-194M 7.0+ 3.000E+05 32.8 m 0.61
β+:100.00
0
1.888E+06 1.888E+06 NUBASE
3076 81-Tl-195 0.5+ 1.16 h 4.31
β+:100.00
0
9.483E+05 9.483E+05 NUBASE
3077 81-Tl-195M 4.5- 4.826E+05 3.6 s 11.11
IT:100.00
0
4.826E+05 NUBASE
3078 81-Tl-196 2.0- 1.84 h 1.63
β+:100.00
4
1.710E+05 1.496E+06 ENSDF
3079 81-Tl-196M 7.0+ 3.942E+05 1.41 h 1.42
β+:95.50; IT:4.50
0
1.504E+06 1.522E+06 NUBASE
3080 81-Tl-197 0.5+ 2.84 h 1.41
β+:100.00
4
4.627E+04 4.566E+05 ENSDF
3081 81-Tl-197M 4.5- 6.083E+05 0.54 s 1.85
IT:100.00
3
1.689E+05 4.354E+05 ENSDF
3082 81-Tl-198 2.0- 5.3 h 9.43
β+:100.00
4
3.195E+04 1.984E+06 ENSDF
3083 81-Tl-198M 7.0+ 5.435E+05 1.87 h 1.60
β+:54.00; IT:46.00
4
1.847E+05 1.171E+06 ENSDF
3084 81-Tl-198N 10.0- 7.423E+05 0.032 s 3.12
ITm:100.00
0
1.988E+05 NUBASE
3085 81-Tl-199 0.5+ 7.42 h 1.08
β+:100.00
4
5.230E+04 2.510E+05 ENSDF
3086 81-Tl-199M 4.5- 7.495E+05 0.028 s 0.70
IT:100.00
3
9.447E+04 6.572E+05 ENSDF
3087 81-Tl-200 2.0- 1.087 d 0.38
β+:100.00
4
3.392E+04 1.310E+06 ENSDF
3088 81-Tl-200M 7.0+ 7.536E+05 0.034 s 2.92
IT:100.00
0
7.536E+05 NUBASE
3089 81-Tl-201 0.5+ 3.041 d 0.10
β+:100.00
4
3.739E+04 9.491E+04 LNHB
3090 81-Tl-201M 4.5- 9.195E+05 2.035E-03 s 0.34
IT:100.00
0
9.195E+05 NUBASE
3091 81-Tl-202 2.0- 12.24 d 0.25
β+:100.00
4
2.251E+04 4.665E+05 UKPADD67
3092 81-Tl-203 0.5+
NUBASE
3093 81-Tl-204 2.0- 3.788 y 0.40
β+:2.92; β-:97.08
4
2.369E+05 1.278E+03 LNHB
3094 81-Tl-205 0.5+
NUBASE
3095 81-Tl-206 0.0- 4.202 m 0.40
β-:100.00
4
5.361E+05 2.571E+03 UKHEDD25
3096 81-Tl-206M 12.0- 2.643E+06 3.76 m 1.06
IT:100.00
3
1.533E+05 2.489E+06 UKHEDD25
3097 81-Tl-207 0.5+ 4.77 m 0.63
β-:100.00
4
4.914E+05 3.341E+03 UKHEDD25
3098 81-Tl-207M 5.5- 1.341E+06 1.33 s 8.27
IT:100.00
3
1.837E+05 1.157E+06 UKHEDD25
3099 81-Tl-208 5.0+ 3.053 m 0.13
β-:100.00
4
5.847E+05 3.384E+06 LNHB
3100 81-Tl-209 0.5+ 2.2 m 3.18
β-:100.00
4
6.849E+05 2.122E+06 UKHEDD25
3101 81-Tl-210 5.0+ 1.3 m 2.31
β-:99.99; β-,n:0.01
5
1.092E+06 2.727E+06 5.791E+02 UKHEDD25
3102 81-Tl-211 0.5+ 1 m 100
β-:100.00
0
1.470E+06 1.470E+06 NUBASE
3103 81-Tl-212 5.0+ 30 s 100
β-:100.00
0
1.966E+06 1.966E+06 NUBASE
3104 82-Pb-178 0.0+ 2.3E-04 s 65.22
α:100.00
0
7.790E+06 NUBASE
3105 82-Pb-179 2.5- 3E-03 s 100
α:100.00
0
7.565E+06 NUBASE
3106 82-Pb-180 0.0+ 5E-03 s 60
α:100.00
0
7.415E+06 NUBASE
3107 82-Pb-181 2.5- 0.045 s 44.44
α:98.00; β+:1.00;
β+m:1.00
0
6.157E+04 6.157E+04 7.071E+06 NUBASE
THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009 127
MAIN DATA TABLES
Matn Nuclide
SpPa
Exc ener
Half-life (%-err)
Decay modes (%)
Nsp
<β> (eV)
<γ> (eV)
<α>
(eV)
Source
3108 82-Pb-182 0.0+ 0.06 s 66.67
α:98.00; β+:2.00
0
4.349E+04 4.349E+04 6.925E+06 NUBASE
3109 82-Pb-183 1.5- 0.535 s 5.61
α:90.00; β+:10.00
0
3.006E+05 3.006E+05 6.235E+06 NUBASE
3110 82-Pb-183M 6.5+ 9.400E+04 0.415 s 4.82
α:100.00
0
7.022E+06 NUBASE
3111 82-Pb-184 0.0+ 0.49 s 5.10
α:80.00; β+:20.00
0
3.897E+05 3.897E+05 5.420E+06 NUBASE
3112 82-Pb-185 1.5- 6.3 s 6.35
α:50.00; β+:50.00
0
1.370E+06 1.370E+06 3.348E+06 NUBASE
3113 82-Pb-185M 6.5+ 6.000E+04 4.07 s 3.69
α:50.00; β+
m:50.00
0
1.304E+06 1.304E+06 3.378E+06 NUBASE
3114 82-Pb-186 0.0+ 4.82 s 0.62
β+:60.00; α:40.00
0
1.102E+06 1.102E+06 2.588E+06 NUBASE
3115 82-Pb-187 1.5- 15.2 s 1.97
β+:93.00; α:7.00
0
2.314E+06 2.314E+06 4.477E+05 NUBASE
3116 82-Pb-187M 6.5+ 1.100E+04 18.3 s 1.64
β+m:88.00; α m:12.00
0
2.095E+06 2.095E+06 7.399E+05 NUBASE
3117 82-Pb-188 0.0+ 25.5 s 0.39
β+:90.70; α:9.30
0
1.371E+06 1.371E+06 5.681E+05 NUBASE
3118 82-Pb-189 1.5- 51 s 5.88
β+:99.60; α:0.40
0
2.232E+06 2.232E+06 2.363E+04 NUBASE
3119 82-Pb-189M 6.5+ 4.000E+04 1 m 100
β+m:50.00; IT:50.00
0
1.084E+06 1.104E+06 NUBASE
3120 82-Pb-190 0.0+ 1.183 m 1.41
β+:99.60; α:0.40
0
1.299E+06 1.299E+06 2.279E+04 NUBASE
3121 82-Pb-191 1.5- 1.33 m 6.02
β+:98.97; β+
m:1.02;
α:0.01
0
2.009E+06 2.009E+06 7.076E+02 NUBASE
3122 82-Pb-191M 6.5+ 2.18 m 3.67
β+m:99.98; α m:0.02
0
1.911E+06 1.911E+06 1.083E+03 NUBASE
3123 82-Pb-192 0.0+ 3.5 m 2.86
β+:99.99; α:0.01
0
1.105E+06 1.105E+06 3.080E+02 NUBASE
3124 82-Pb-193 1.5- 5 m 100
β+:100.00
0
1.710E+06 1.710E+06 NUBASE
3125 82-Pb-193M 6.5+ 1.300E+05 5.8 m 3.45
β+:95.30; β+
m:4.70
0
1.748E+06 1.748E+06 NUBASE
3126 82-Pb-194 0.0+ 12 m 4.17
α:~; β+:100.00
5
7.288E+04 1.035E+06 3.387E-01 ENSDF
3127 82-Pb-195 1.5- 15 m 100
β+:100.00
0
1.480E+06 1.480E+06 NUBASE
3128 82-Pb-195M 6.5+ 2.029E+05 15 m 8
β+:56.00; β+
m:44.00
0
1.477E+06 1.477E+06 NUBASE
3129 82-Pb-196 0.0+ 37 m 8.11
β+:100.00; α:~
0
7.120E+05 7.120E+05 1.268E+00 NUBASE
3130 82-Pb-197 1.5- 8 m 25
β+:100.00
4
7.505E+04 1.414E+06 ENSDF
3131 82-Pb-197M 6.5+ 3.193E+05 43 m 2.33
β+:40.50; β+
m:40.50;
IT:19.00; α m:~
0
9.739E+05 1.035E+06 1.217E+01 NUBASE
3132 82-Pb-198 0.0+ 2.4 h 4.17
β+:100.00
4
7.052E+04 4.372E+05 ENSDF
3133 82-Pb-199 1.5- 1.5 h 11.11
β+:100.00
4
5.081E+04 9.599E+05 ENSDF
3134 82-Pb-199M 6.5+ 4.295E+05 12.2 m 2.46
IT:93.00; β+
m:7.00
0
5.859E+04 4.580E+05 NUBASE
3135 82-Pb-200 0.0+ 21.5 h 1.86
β+:100.00
4
9.079E+04 2.080E+05 ENSDF
3136 82-Pb-201 2.5- 9.4 h 1.06
β+:100.00
4
5.828E+04 7.680E+05 UKPADD67
3137 82-Pb-201M 6.5+ 6.291E+05 1.017 m 4.92
IT:100.00
3
2.622E+05 3.661E+05 UKPADD67
3138 82-Pb-202 0.0+ 5.3E+04 y 3.77
β+:100.00
3
9.283E+03 6.997E+04 UKPADD67
3139 82-Pb-202M 9.0- 2.170E+06 3.57 h 0.84
β+:9.10; IT:90.90
4
1.385E+05 1.976E+06 UKPADD67
3140 82-Pb-203 2.5- 2.162 d 0.04
β+:100.00
4
4.754E+04 3.145E+05 LNHB
3141 82-Pb-203M 6.5+ 8.252E+05 6.29 s 1.91
IT:100.00
3
1.712E+05 6.541E+05 UKPADD67
3142 82-Pb-203N 14.5- 2.950E+06 0.48 s 4.17
ITm:100.00
3
2.164E+05 1.907E+06 UKPADD67
3143 82-Pb-204 0.0+ 1.4E+17 y 42.86
α:100.00
1
1.972E+06 UKPADD67
3144 82-Pb-204M 9.0- 2.186E+06 1.125 h 0.74
IT:100.00
3
1.033E+05 2.081E+06 UKPADD67
3145 82-Pb-205 2.5- 1.53E+07 y 4.58
β+:100.00
3
8.953E+03 5.929E+04 UKHEDD25
3146 82-Pb-205M 6.5+ 1.014E+06 5.55E-03 s 0.36
IT:100.00
0
1.014E+06 NUBASE
3147 82-Pb-206 0.0+
NUBASE
3148 82-Pb-207 0.5-
NUBASE
128 THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009
MAIN DATA TABLES
Matn Nuclide
SpPa
Exc ener
Half-life (%-err)
Decay modes (%)
Nsp
<β> (eV)
<γ> (eV)
<α>
(eV)
Source
3149 82-Pb-207M 6.5+ 1.633E+06 0.806 s 0.74
IT:100.00
0
1.633E+06 NUBASE
3150 82-Pb-208 0.0+
NUBASE
3151 82-Pb-209 4.5+ 3.253 h 0.43
β-:100.00
1
1.973E+05 UKHEDD25
3152 82-Pb-210 0.0+ 22.16 y 0.54
β-:100.00; α:~
5
4.072E+04 4.822E+03 7.205E-02 UKHEDD25
3153 82-Pb-211 4.5+ 36.1 m 0.55
β-:100.00
4
4.491E+05 6.845E+04 UKHEDD25
3154 82-Pb-212 0.0+ 10.64 h 0.09
β-:100.00
4
1.687E+05 1.447E+05 LNHB
3155 82-Pb-213 4.5+ 10.2 m 2.94
β-:100.00
0
6.823E+05 6.823E+05 NUBASE
3156 82-Pb-214 0.0+ 26.8 m 3.36
β-:100.00
4
2.925E+05 2.372E+05 LNHB
3157 82-Pb-215 2.5+ 36 s 2.78
β-:100.00
0
9.437E+05 9.437E+05 NUBASE
3158 83-Bi-184 3.0+ 6.6E-03 s 22.73
α:100.00
0
8.025E+06 NUBASE
3159 83-Bi-184M 10.0- 1.500E+05 0.013 s 15.38
α:100.00
0
8.175E+06 NUBASE
3160 83-Bi-185 4.5- 2E-03 s 100
p:85.00; α m:15.00
0
2.412E+06 NUBASE
3161 83-Bi-186 3.0+ 0.015 s 4.73
α:100.00
0
7.755E+06 NUBASE
3162 83-Bi-186M 10.0- 2.500E+05 9.8E-03 s 13.27
α m:100.00
0
7.905E+06 NUBASE
3163 83-Bi-187 4.5- 0.032 s 9.38
α m:50.00; β+
m:50.00
0
1.433E+06 1.433E+06 3.574E+06 NUBASE
3164 83-Bi-187M 0.5+ 1.020E+05 3.2E-04 s 21.88
α:50.00; β+:50.00
0
1.452E+06 1.452E+06 3.946E+06 NUBASE
3165 83-Bi-188 3.0+ 0.044 s 6.82
α:50.00; β+:50.00
0
1.769E+06 1.769E+06 3.633E+06 NUBASE
3166 83-Bi-188M 10.0- 2.100E+05 0.22 s 18.18
α m:50.00; β+:50.00
0
1.804E+06 1.804E+06 3.688E+06 NUBASE
3167 83-Bi-189 4.5- 0.674 s 1.63
α:2.50; α m:47.50;
β+m:50.00
0
1.297E+06 1.297E+06 3.422E+06 NUBASE
3168 83-Bi-189M 0.5+ 1.850E+05 5E-03 s 2
α:50.00; β+:50.00
0
1.334E+06 1.334E+06 3.730E+06 NUBASE
3169 83-Bi-190 3.0+ 6.3 s 1.59
α:77.00; β+:23.00
0
7.296E+05 7.296E+05 5.286E+06 NUBASE
3170 83-Bi-190M 10.0- 2.500E+05 6.2 s 1.61
α n:70.00; β+:30.00
0
9.767E+05 9.767E+05 4.617E+06 NUBASE
3171 83-Bi-191 4.5- 12.3 s 4.07
α m:60.00; β+
m:40.00
0
9.347E+05 9.347E+05 3.868E+06 NUBASE
3172 83-Bi-191M 0.5+ 2.440E+05 0.124 s 4.03
α:75.00; β+:25.00
0
6.045E+05 6.045E+05 5.267E+06 NUBASE
3173 83-Bi-192 3.0+ 34.6 s 2.60
β+:88.00; α:12.00
0
2.642E+06 2.642E+06 7.650E+05 NUBASE
3174 83-Bi-192M 10.0- 2.000E+04 39.6 s 1.01
β+:90.00; α m:9.71;
α n:0.29
0
2.708E+06 2.708E+06 6.293E+05 NUBASE
3175 83-Bi-193 4.5- 1.117 m 4.48
β+m:96.50; α:0.15;
α m:3.35
0
1.990E+06 1.990E+06 2.120E+05 NUBASE
3176 83-Bi-193M 0.5+ 3.080E+05 3.2 s 18.75
α:90.00; β+:10.00
0
2.208E+05 2.208E+05 5.951E+06 NUBASE
3177 83-Bi-194 3.0+ 1.583 m 3.16
β+:99.54; α:0.46
0
2.727E+06 2.727E+06 2.721E+04 NUBASE
3178 83-Bi-194M ? 1.100E+05 2.083 m 1.60
β+:100.00
0
2.776E+06 2.776E+06 NUBASE
3179 83-Bi-194N 10.0- 2.300E+05 1.917 m 3.48
β+:99.80; α m:0.20
0
2.810E+06 2.810E+06 1.203E+04 NUBASE
3180 83-Bi-195 4.5- 3.05 m 2.19
β+m:99.97; α m:0.03
0
1.828E+06 1.828E+06 1.661E+03 NUBASE
3181 83-Bi-195M 0.5+ 3.990E+05 1.45 m 1.15
β+:67.00; α:33.00
0
1.360E+06 1.360E+06 2.056E+06 NUBASE
3182 83-Bi-196 3.0+ 5.1 m 3.92
β+:100.00; α:~
0
2.451E+06 2.451E+06 6.252E+01 NUBASE
3183 83-Bi-196M 7.0+ 1.670E+05 0.6 s 83.33
IT:50.00; β+:50.00
0
1.253E+06 1.337E+06 NUBASE
3184 83-Bi-196N 10.0- 2.700E+05 4 m 1.25
β+:74.20; ITm:25.80;
α m:~
0
1.885E+06 1.912E+06 2.108E+01 NUBASE
3185 83-Bi-197 4.5- 9.3 m 5.38
β+m:100.00; α m:~
0
1.581E+06 1.581E+06 4.838E+00 NUBASE
3186 83-Bi-197M 0.5+ 3.600E+05 5.04 m 3.17
α:54.84; β+:44.87;
IT:0.30
0
8.107E+05 8.118E+05 3.053E+06 NUBASE
THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009 129
MAIN DATA TABLES
Matn Nuclide
SpPa
Exc ener
Half-life (%-err)
Decay modes (%)
Nsp
<β> (eV)
<γ> (eV)
<α>
(eV)
Source
3187 83-Bi-198 ? 10.3 m 2.91
β+:100.00
0
2.227E+06 2.227E+06 NUBASE
3188 83-Bi-198M 7.0+ 2.800E+05 11.6 m 2.59
β+:100.00
0
2.320E+06 2.320E+06 NUBASE
3189 83-Bi-198N 10.0- 5.300E+05 7.7 s 6.49
ITm:100.00
0
2.500E+05 NUBASE
3190 83-Bi-199 4.5- 27 m 3.70
β+:53.90; β+
m:46.10
0
1.411E+06 1.411E+06 NUBASE
3191 83-Bi-199M 0.5+ 6.670E+05 24.7 m 0.61
β+:97.99; IT:2.00;
α:0.01
0
1.665E+06 1.678E+06 5.599E+02 NUBASE
3192 83-Bi-200 7.0+ 36.4 m 1.37
β+:100.00
0
1.958E+06 1.958E+06 NUBASE
3193 83-Bi-200M 2.0+ 1.000E+05 31 m 6.45
β+:90.00; IT:10.00
0
1.792E+06 1.802E+06 NUBASE
3194 83-Bi-200N 10.0- 4.282E+05 0.4 s 12.50
IT:100.00
0
4.282E+05 NUBASE
3195 83-Bi-201 4.5- 1.8 h 2.78
β+:55.30; β+
m:44.70;
α m:~
0
1.187E+06 1.187E+06 3.892E+00 NUBASE
3196 83-Bi-201M 0.5+ 8.463E+05 59.1 m 1.02
β+:46.45; β+
m:46.45;
IT:6.80; α:0.30
0
1.354E+06 1.412E+06 1.604E+04 NUBASE
3197 83-Bi-202 5.0+ 1.72 h 2.91
β+:100.00
4
1.365E+05 2.460E+06 ENSDF
3198 83-Bi-203 4.5- 11.76 h 0.43
β+:80.00; β+
m:20.00;
α m:~
0
1.027E+06 1.027E+06 3.344E-01 NUBASE
3199 83-Bi-203M 0.5+ 1.098E+06 0.303 s 1.65
IT:100.00
0
1.098E+06 NUBASE
3200 83-Bi-204 6.0+ 11.22 h 0.89
β+:91.10; β+
m:8.90
0
1.416E+06 1.416E+06 NUBASE
3201 83-Bi-204M 10.0- 8.055E+05 0.013 s 0.77
IT:100.00
0
8.055E+05 NUBASE
3202 83-Bi-204N 17.0+ 2.833E+06 1.07E-03 s 2.80
ITm:100.00
0
2.028E+06 NUBASE
3203 83-Bi-205 4.5- 15.31 d 0.26
β+:85.80; β+
m:14.20
0
8.547E+05 8.547E+05 NUBASE
3204 83-Bi-206 6.0+ 6.243 d 0.05
β+:100.00
4
1.238E+05 3.274E+06 ENSDF
3205 83-Bi-207 4.5- 31.76 y 6.03
β+:100.00
4
1.185E+05 1.540E+06 UKPADD67
3206 83-Bi-208 5.0+ 3.68E+05 y 1.09
β+:100.00
4
8.518E+03 2.657E+06 UKPADD67
3207 83-Bi-208M 10.0- 1.571E+06 2.58E-03 s 1.55
IT:100.00
3
7.229E+04 1.501E+06 ENSDF
3208 83-Bi-209 4.5- 1.9E+19 y 10.53
α:100.00
0
3.137E+06 NUBASE
3209 83-Bi-210 1.0- 5.012 d 0.10
β-:100.00; α:~
5
3.877E+05 6.767E+02 6.266E+00 UKHEDD25
3210 83-Bi-210M 9.0- 2.650E+05 3E+06 y 3.33
α:100.00
4
4.694E+04 2.611E+05 5.009E+06 UKHEDD25
3211 83-Bi-211 4.5- 2.17 m 1.84
β-:0.27; α:99.73
5
1.006E+04 4.758E+04 6.675E+06 UKHEDD25
3212 83-Bi-212 1.0- 1.009 h 0.10
β-:64.06; β-,α:0.01;
α:35.93
5
5.026E+05 1.073E+05 2.217E+06 UKHEDD25
3213 83-Bi-212M 9.0- 2.500E+05 25 m 4
β-:3.20; β-,α:30.00;
α:66.80
5
1.337E+05 6.048E+04 7.423E+06 UKHEDD25
3214 83-Bi-212N 17.0- 3.930E+06 9 m 11.11
β-m:100.00
1
1.257E+06 5.061E+03 UKHEDD25
3215 83-Bi-213 4.5- 45.59 m 0.13
β-:97.84; α:2.16
5
4.444E+05 1.292E+05 1.287E+05 UKHEDD25
3216 83-Bi-214 1.0- 19.9 m 2.01
β-:99.98; α:0.02
5
6.286E+05 1.540E+06 1.168E+03 UKHEDD25
3217 83-Bi-215 4.5- 7.4 m 8.11
β-:100.00
0
7.507E+05 7.507E+05 UKHEDD25
3218 83-Bi-215M 12.5- 1.348E+06 36.9 s 1.63
IT:50.00; β-:50.00
0
5.895E+05 1.263E+06 NUBASE
3219 83-Bi-216 1.0- 2.17 m 2.30
β-:100.00
0
1.363E+06 1.363E+06 NUBASE
3220 83-Bi-217 4.5- 1.642 m 0.81
β-:100.00
0
9.730E+05 9.730E+05 NUBASE
3221 83-Bi-218 1.0- 33 s 3.03
β-:100.00
0
1.661E+06 1.661E+06 NUBASE
3222 84-Po-188 0.0+ 4.3E-04 s 41.86
α:50.00; β+:50.00
0
1.110E+06 1.110E+06 4.041E+06 NUBASE
130 THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009
MAIN DATA TABLES
Matn Nuclide
SpPa
Exc ener
Half-life (%-err)
Decay modes (%)
Nsp
<β> (eV)
<γ> (eV)
<α>
(eV)
Source
3223 84-Po-189 1.5- 5E-03 s 20
α:25.00; α m:25.00;
β+m:50.00
0
1.410E+06 1.410E+06 3.836E+06 NUBASE
3224 84-Po-190 0.0+ 2.45E-03 s 2.04
α:100.00
2
7.680E+06 ENSDF
3225 84-Po-191 1.5- 0.022 s 4.55
α:100.00
0
7.501E+06 NUBASE
3226 84-Po-191M 6.5+ 3.400E+04 0.098 s 8.16
α m:100.00
0
7.524E+06 NUBASE
3227 84-Po-192 0.0+ 0.033 s 4.22
α:99.50
2
7.267E+06 ENSDF
3228 84-Po-193 1.5- 0.42 s 9.52
α:100.00
2
7.092E+06 ENSDF
3229 84-Po-193M 6.5+ 1.000E+05 0.24 s 4.17
α:100.00
2
7.145E+06 ENSDF
3230 84-Po-194 0.0+ 0.392 s 1.02
α:100.00
0
6.987E+06 NUBASE
3231 84-Po-195 1.5- 4.64 s 1.94
α:75.00; β+
m:25.00
0
5.462E+05 5.462E+05 5.066E+06 NUBASE
3232 84-Po-195M 6.5+ 8.000E+04 1.92 s 1.04
α m:89.99; β+:10.00;
IT:0.01
0
2.344E+05 2.345E+05 6.151E+06 NUBASE
3233 84-Po-196 0.0+ 5.56 s 2.16
α:94.00; β+:6.00
0
9.070E+04 9.070E+04 6.258E+06 NUBASE
3234 84-Po-197 1.5- 53.6 s 1.87
β+m:56.00; α:44.00
0
1.114E+06 1.114E+06 2.818E+06 NUBASE
3235 84-Po-197M 6.5+ 2.300E+05 25.8 s 0.39
α m:84.00; β+:15.99;
IT:0.01
0
3.495E+05 3.496E+05 5.464E+06 NUBASE
3236 84-Po-198 0.0+ 1.77 m 1.69
α:57.00; β+:43.00
0
5.584E+05 5.584E+05 3.597E+06 NUBASE
3237 84-Po-199 1.5- 5.48 m 2.92
β+m:92.50; α:7.50
0
1.516E+06 1.516E+06 4.556E+05 NUBASE
3238 84-Po-199M 6.5+ 3.120E+05 4.17 m 0.96
β+:73.50; α m:24.00;
IT:2.50
0
1.444E+06 1.452E+06 1.484E+06 NUBASE
3239 84-Po-200 0.0+ 11.5 m 0.87
β+m:88.90; α:11.10
0
9.826E+05 9.826E+05 6.640E+05 NUBASE
3240 84-Po-201 1.5- 15.3 m 1.31
β+m:98.40; α:1.60
0
1.327E+06 1.327E+06 9.279E+04 NUBASE
3241 84-Po-201M 6.5+ 4.241E+05 8.9 m 2.25
IT:56.06; β+:41.04;
α m:2.90
0
7.271E+05 9.649E+05 1.714E+05 NUBASE
3242 84-Po-202 0.0+ 44.7 m 1.12
β+:98.08; α:1.92
0
9.184E+05 9.184E+05 1.095E+05 NUBASE
3243 84-Po-203 2.5- 36.7 m 1.36
α:0.11; β+:99.89
5
1.363E+05 1.381E+06 5.981E+03 ENSDF
3244 84-Po-203M 6.5+ 6.415E+05 45 s 4.44
IT:99.96; α m:0.04
0
6.412E+05 2.283E+03 NUBASE
3245 84-Po-204 0.0+ 3.53 h 0.57
β+:49.67; β+
m:49.67;
α:0.66
0
6.392E+05 6.392E+05 3.620E+04 NUBASE
3246 84-Po-205 2.5- 1.66 h 1.20
α:0.04; β+:99.90
5
5.259E+04 1.459E+06 2.090E+03 ENSDF
3247 84-Po-205M 9.5- 1.461E+06 0.057 s 1.57
IT:100.00
0
1.461E+06 NUBASE
3248 84-Po-206 0.0+ 8.8 d 1.14
β+:94.55; α:5.45
0
5.818E+05 5.818E+05 2.903E+05 NUBASE
3249 84-Po-207 2.5- 5.8 h 0.34
α:0.02; β+:99.98
5
4.202E+04 1.274E+06 1.073E+03 ENSDF
3250 84-Po-207M 9.5- 1.383E+06 2.79 s 2.87
IT:100.00
3
2.848E+05 1.075E+06 ENSDF
3251 84-Po-208 0.0+ 2.93 y 1.37
β+:~; α:100.00
5
2.860E+00 1.721E+01 5.215E+06 UKPADD67
3252 84-Po-209 0.5- 102.002 y 4.90
β+:0.26; α:99.74
5
4.443E+02 5.150E+03 4.964E+06 UKHEDD25
3253 84-Po-210 0.0+ 138.388 d ~
α:100.00
4
9.327E-02 9.725E+00 5.408E+06 UKHEDD25
3254 84-Po-211 4.5+ 0.516 s 0.58
α:100.00
4
1.573E+02 7.747E+03 7.586E+06 UKHEDD25
3255 84-Po-211M 12.5+ 1.463E+06 25.5 s 1.18
α:100.00
4
1.007E+04 1.490E+06 7.550E+06 UKHEDD25
3256 84-Po-212 0.0+ 2.98E-07 s 1.01
α:100.00
1
8.955E+06 LNHB
3257 84-Po-212M 18.0+ 2.922E+06 45.1 s 1.33
α:100.00
4
3.770E+02 9.123E+04 1.178E+07 UKHEDD25
3258 84-Po-213 4.5+ 4.2E-06 s 19.05
α:100.00
4
7.491E-01 2.344E+01 8.536E+06 UKHEDD25
3259 84-Po-214 0.0+ 1.637E-04 s 0.12
α:100.00
4
8.284E-01 8.419E+01 7.833E+06 UKHEDD25
THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009 131
MAIN DATA TABLES
Matn Nuclide
SpPa
Exc ener
Half-life (%-err)
Decay modes (%)
Nsp
<β> (eV)
<γ> (eV)
<α>
(eV)
Source
3260 84-Po-215 4.5+ 1.78E-03 s 0.56
β-:~; α:100.00
5
3.148E+01 2.157E+02 7.526E+06 UKHEDD25
3261 84-Po-216 0.0+ 0.15 s 3.33
α:100.00
4
1.468E-01 1.531E+01 6.907E+06 UKHEDD25
3262 84-Po-217 2.5+ 1.47 s 3.40
α:95.00; β-:5.00
0
2.508E+04 2.508E+04 6.327E+06 NUBASE
3263 84-Po-218 0.0+ 3.098 m 0.26
β-:0.02; α:99.98
5
1.369E+01 9.213E+00 6.114E+06 UKHEDD25
3264 84-Po-219 3.5+ 2 m 100
β-:50.00; α:50.00
0
4.005E+05 4.005E+05 2.948E+06 NUBASE
3265 84-Po-220 0.0+ 40 s 100
β-:100.00
0
3.733E+05 3.733E+05 NUBASE
3266 85-At-193 4.5- 0.04 s 100
α:100.00
0
7.485E+06 NUBASE
3267 85-At-194 3.0+ 0.04 s 100
α:100.00
0
7.285E+06 NUBASE
3268 85-At-194M 10.0- 2.500E+05 0.25 s 100
α m:100.00
0
7.285E+06 NUBASE
3269 85-At-195 4.5- 0.328 s 6.10
α:100.00
0
7.339E+06 NUBASE
3270 85-At-195M 0.5+ 0.147 s 3.40
α m:75.00; β+:25.00
0
6.328E+05 6.328E+05 5.321E+06 NUBASE
3271 85-At-196 3.0+ 0.253 s 3.56
α:96.00; β+:4.00
0
1.274E+05 1.274E+05 6.917E+06 NUBASE
3272 85-At-196M 10.0- 2.000E+05 0.02 s 100
IT:100.00
0
2.000E+05 NUBASE
3273 85-At-197 4.5- 0.35 s 11.43
α:96.00; β+
m:4.00
0
9.053E+04 9.053E+04 6.824E+06 NUBASE
3274 85-At-197M 0.5+ 5.000E+04 3.7 s 67.57
α m:100.00; IT:~
0
2.000E+00 6.850E+06 NUBASE
3275 85-At-198 3.0+ 4.2 s 7.14
α:94.00; β+:6.00
0
1.761E+05 1.761E+05 6.481E+06 NUBASE
3276 85-At-198M 10.0- 3.300E+05 1 s 20
α n:86.00; β+:14.00
0
4.262E+05 4.262E+05 6.016E+06 NUBASE
3277 85-At-199 4.5- 7.2 s 6.94
α:89.00; β+
m:11.00
0
2.230E+05 2.230E+05 6.033E+06 NUBASE
3278 85-At-200 3.0+ 43.2 s 2.08
α:57.00; β+:43.00
0
1.142E+06 1.142E+06 3.760E+06 NUBASE
3279 85-At-200M 7.0+ 1.130E+05 47 s 2.13
α m:43.00; β+:28.50;
IT:28.50
0
7.675E+05 7.997E+05 2.813E+06 NUBASE
3280 85-At-200N 10.0- 3.440E+05 3.5 s 5.71
ITm:84.85; α n:10.61;
β+:4.55
0
1.259E+05 3.219E+05 7.074E+05 NUBASE
3281 85-At-201 4.5- 1.417 m 3.53
α:71.00; β+
m:29.00
0
5.135E+05 5.135E+05 4.597E+06 NUBASE
3282 85-At-202 ? 3.067 m 0.54
β+:82.00; α:18.00
0
2.004E+06 2.004E+06 1.144E+06 NUBASE
3283 85-At-202M 7.0+ 1.900E+05 3.033 m 1.10
IT:45.65; β+:45.65;
α m:8.70
0
1.145E+06 1.231E+06 5.449E+05 NUBASE
3284 85-At-202N 10.0- 5.800E+05 0.46 s 10.87
ITm:99.65; β+:0.25;
α n:0.10
0
6.594E+03 3.952E+05 6.147E+03 NUBASE
3285 85-At-203 4.5- 7.4 m 2.70
β+:34.50; β+
m:34.50;
α:31.00
0
1.109E+06 1.109E+06 1.925E+06 NUBASE
3286 85-At-204 7.0+ 9.2 m 2.17
β+:96.20; α:3.80
0
2.071E+06 2.071E+06 2.307E+05 NUBASE
3287 85-At-204M 10.0- 5.873E+05 0.108 s 9.26
IT:100.00
0
5.873E+05 NUBASE
3288 85-At-205 4.5- 26.9 m 0.30
β+:45.00; β+
m:45.00;
α:10.00
0
1.142E+06 1.142E+06 6.019E+05 NUBASE
3289 85-At-206 5.0+ 30 m 2
α:0.89; β+:99.11
5
3.030E+05 2.303E+06 5.180E+04 ENSDF
3290 85-At-207 4.5- 1.8 h 2.22
β+:91.40; α:8.60
0
1.189E+06 1.189E+06 5.050E+05 NUBASE
3291 85-At-208 6.0+ 1.63 h 1.84
β+:99.45; α:0.55
0
1.650E+06 1.650E+06 3.163E+04 NUBASE
3292 85-At-209 4.5- 5.41 h 0.92
β+:95.90; α:4.10
0
1.114E+06 1.114E+06 2.360E+05 NUBASE
3293 85-At-210 5.0+ 8.1 h 4.94
α:0.18; β+:99.83
5
6.930E+04 2.964E+06 9.558E+03 ENSDF
3294 85-At-211 4.5- 7.214 h 0.10
α:41.80; β+:58.20
5
3.065E+03 3.915E+04 2.501E+06 ENSDF
3295 85-At-212 1.0- 0.314 s 0.64
α:100.00
1
7.786E+06 ENSDF
3296 85-At-212M 9.0- 2.220E+05 0.119 s 2.52
α:100.00
3
3.142E+04 4.805E+03 7.990E+06 ENSDF
132 THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009
MAIN DATA TABLES
Matn Nuclide
SpPa
Exc ener
Half-life (%-err)
Decay modes (%)
Nsp
<β> (eV)
<γ> (eV)
<α>
(eV)
Source
3297 85-At-213 4.5- 1.25E-07 s 4.80
α:100.00
1
9.254E+06 ENSDF
3298 85-At-214 1.0- 5.58E-07 s 1.79
α:100.00
1
8.983E+06 ENSDF
3299 85-At-215 4.5- 1E-04 s 20
α:100.00
4
1.651E+01 1.853E+02 8.178E+06 UKHEDD25
3300 85-At-216 1.0- 3E-04 s 10
α:100.00
1
7.957E+06 ENSDF
3301 85-At-217 4.5- 0.032 s 1.24
β-:0.01; α:99.99
5
8.290E+01 2.999E+02 7.199E+06 UKHEDD25
3302 85-At-218 1.0- 1.5 s 20
β-:0.10; α:99.90
5
5.247E+04 1.186E+04 6.804E+06 UKHEDD25
3303 85-At-219 2.5- 54 s 11.11
β-:3.00; α:97.00
2
1.786E+04 5.023E+01 6.195E+06 UKHEDD25
3304 85-At-220 3.0+ 3.71 m 1.08
α:8.00; β-:92.00
5
1.183E+06 3.724E+05 4.843E+05 ENSDF
3305 85-At-221 1.5- 2.3 m 8.70
β-:100.00
0
7.793E+05 7.793E+05 NUBASE
3306 85-At-222 ? 54 s 18.52
β-:100.00
0
1.475E+06 1.475E+06 NUBASE
3307 85-At-223 1.5- 50 s 14
β-:100.00
0
1.053E+06 1.053E+06 NUBASE
3308 86-Rn-195 1.5- 6E-03 s 50
α:100.00
0
7.699E+06 NUBASE
3309 86-Rn-195M 6.5+ 5.000E+04 6E-03 s 50
α m:100.00
0
7.715E+06 NUBASE
3310 86-Rn-196 0.0+ 3E-03 s 233.33
α:99.80
1
7.606E+06 ENSDF
3311 86-Rn-197 1.5- 0.065 s 38.46
α:100.00
1
7.412E+06 ENSDF
3312 86-Rn-197M 6.5+ 2.000E+05 0.019 s 42.11
α m:100.00
1
7.523E+06 ENSDF
3313 86-Rn-198 0.0+ 0.057 s 15.79
α:99.40
1
7.310E+06 ENSDF
3314 86-Rn-199 1.5- 0.62 s 4.84
α:94.00; β+:6.00
0
1.460E+05 1.460E+05 6.698E+06 NUBASE
3315 86-Rn-199M 6.5+ 1.500E+05 0.32 s 6.25
α m:97.00; β+:3.00
0
7.450E+04 7.450E+04 6.979E+06 NUBASE
3316 86-Rn-200 0.0+ 1.03 s 4.85
α:98.00; β+:2.00
0
3.321E+04 3.321E+04 6.902E+06 NUBASE
3317 86-Rn-201 1.5- 7 s 5.71
α:80.00; β+:20.00
0
4.479E+05 4.479E+05 5.492E+06 NUBASE
3318 86-Rn-201M 6.5+ 2.800E+05 3.8 s 2.63
α m:89.99; β+:10.00;
IT:0.01
0
2.333E+05 2.333E+05 6.223E+06 NUBASE
3319 86-Rn-202 0.0+ 9.94 s 1.81
α:86.00; β+:14.00
0
2.014E+05 2.014E+05 5.825E+06 NUBASE
3320 86-Rn-203 ? 43.5 s 4.83
α:66.00; β+:34.00
0
6.803E+05 6.803E+05 4.376E+06 NUBASE
3321 86-Rn-203M 6.5+ 3.630E+05 26.7 s 1.87
α m:80.00; β+:20.00
0
4.244E+05 4.244E+05 5.345E+06 NUBASE
3322 86-Rn-204 0.0+ 1.24 m 2.42
α:73.00; β+:13.50;
β+m:13.50
0
3.238E+05 3.238E+05 4.778E+06 NUBASE
3323 86-Rn-205 2.5- 2.8 m 3.57
β+:75.40; α:24.60
0
1.323E+06 1.323E+06 1.572E+06 NUBASE
3324 86-Rn-206 0.0+ 5.67 m 3
α:62.00; β+:38.00
0
4.185E+05 4.185E+05 3.958E+06 NUBASE
3325 86-Rn-207 2.5- 9.25 m 1.84
β+:79.00; α:21.00
0
1.214E+06 1.214E+06 1.313E+06 NUBASE
3326 86-Rn-208 0.0+ 24.35 m 0.57
α:62.00; β+:38.00
0
3.601E+05 3.601E+05 3.882E+06 NUBASE
3327 86-Rn-209 2.5- 28.5 m 3.51
α:17.00; β+:83.00
5
1.118E+05 9.774E+05 1.047E+06 ENSDF
3328 86-Rn-210 0.0+ 2.4 h 4.17
α:96.00; β+:4.00
5
8.138E+03 5.881E+04 5.912E+06 ENSDF
3329 86-Rn-211 0.5- 14.6 h 1.37
β+:72.60; α:27.40
0
6.996E+05 6.996E+05 1.634E+06 NUBASE
3330 86-Rn-212 0.0+ 23.9 m 5.02
α:100.00
1
6.384E+06 ENSDF
3331 86-Rn-213 4.5+ 0.025 s 0.80
α:100.00
1
8.238E+06 ENSDF
3332 86-Rn-214 0.0+ 2.7E-07 s 7.41
α:100.00
0
9.208E+06 NUBASE
3333 86-Rn-215 4.5+ 2.3E-06 s 4.35
α:100.00
1
8.839E+06 ENSDF
3334 86-Rn-216 0.0+ 4.5E-05 s 11.11
α:100.00
0
8.200E+06 NUBASE
3335 86-Rn-217 4.5+ 5.4E-04 s 9.26
α:100.00
4
8.395E+01 1.534E+02 7.884E+06 UKHEDD25
3336 86-Rn-218 0.0+ 0.035 s 25.71
α:100.00
4
1.399E+01 7.571E+02 7.262E+06 UKHEDD25
3337 86-Rn-219 2.5+ 3.96 s 1.26
α:100.00
4
6.673E+03 5.529E+04 6.885E+06 UKHEDD25
THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009 133
MAIN DATA TABLES
Matn Nuclide
SpPa
Exc ener
Half-life (%-err)
Decay modes (%)
Nsp
<β> (eV)
<γ> (eV)
<α>
(eV)
Source
3338 86-Rn-220 0.0+ 55.8 s 0.54
α:100.00
4
1.452E+01 6.285E+02 6.404E+06 UKHEDD25
3339 86-Rn-221 3.5+ 25 m 8
α:20.00; β-:78.00
5
2.775E+05 1.171E+05 1.220E+06 ENSDF
3340 86-Rn-222 0.0+ 3.823 d 0.01
α:100.00
4
1.097E+01 3.894E+02 5.590E+06 UKHEDD25
3341 86-Rn-223 3.5- 24.2 m 2.89
β-:100.00
4
6.249E+05 3.301E+05 UKPADD67
3342 86-Rn-224 0.0+ 1.783 h 2.80
β-:100.00
0
2.600E+05 2.600E+05 NUBASE
3343 86-Rn-225 3.5- 4.66 m 0.86
β-:100.00
0
8.933E+05 8.933E+05 NUBASE
3344 86-Rn-226 0.0+ 7.4 m 1.35
β-:100.00
0
4.667E+05 4.667E+05 NUBASE
3345 86-Rn-227 2.5+ 20.8 s 3.37
β-:100.00
0
1.110E+06 1.110E+06 NUBASE
3346 86-Rn-228 0.0+ 1.083 m 3.08
β-:100.00
0
7.000E+05 7.000E+05 NUBASE
3347 87-Fr-199 1.5- 0.016 s 43.75
α:100.00
0
7.811E+06 NUBASE
3348 87-Fr-200 3.0+ 0.024 s 41.67
α:100.00
0
7.615E+06 NUBASE
3349 87-Fr-200M 10.0- 2.000E+05 0.65 s 32.31
α m:100.00
0
7.615E+06 NUBASE
3350 87-Fr-201 4.5- 0.048 s 31.25
α:100.00
1
7.538E+06 ENSDF
3351 87-Fr-202 3.0+ 0.29 s 10.34
α:97.00; β+:3.00
0
9.415E+04 9.415E+04 7.164E+06 NUBASE
3352 87-Fr-202M 10.0- 3.300E+05 0.34 s 11.76
α m:97.00; β+:3.00
0
9.745E+04 9.745E+04 7.164E+06 NUBASE
3353 87-Fr-203 4.5- 0.55 s 3.64
α:95.00; β+:2.50;
β+m:2.50
0
1.140E+05 1.140E+05 6.893E+06 NUBASE
3354 87-Fr-204 3.0+ 1.7 s 17.65
α:96.00; β+:4.00
0
1.146E+05 1.146E+05 6.884E+06 NUBASE
3355 87-Fr-204M 7.0+ 5.400E+04 2.6 s 11.54
α m:90.00; β+:10.00
0
2.882E+05 2.882E+05 6.401E+06 NUBASE
3356 87-Fr-204N 10.0- 3.300E+05 1.7 s 35.29
α n:74.00; ITm:26.00
0
7.176E+04 5.296E+06 NUBASE
3357 87-Fr-205 4.5- 3.92 s 1.02
α:99.00; β+:1.00
0
2.133E+04 2.133E+04 6.984E+06 NUBASE
3358 87-Fr-206 ? 16 s 100
β+:58.00; α:42.00
0
1.522E+06 1.522E+06 2.908E+06 NUBASE
3359 87-Fr-206M 7.0+ 1.900E+05 15.9 s 0.63
α m:42.00; β+:29.00;
IT:29.00
0
7.794E+05 8.345E+05 2.908E+06 NUBASE
3360 87-Fr-206N 10.0- 7.200E+05 0.7 s 14.29
ITm:88.00; α n:12.00
0
4.664E+05 8.476E+05 NUBASE
3361 87-Fr-207 4.5- 14.8 s 0.68
α:95.00; β+:5.00
0
9.652E+04 9.652E+04 6.553E+06 NUBASE
3362 87-Fr-208 7.0+ 59.1 s 0.51
α:90.00; β+:10.00
0
2.326E+05 2.326E+05 6.102E+06 NUBASE
3363 87-Fr-209 4.5- 50 s 0.60
α:89.00; β+:11.00
0
1.892E+05 1.892E+05 6.033E+06 NUBASE
3364 87-Fr-210 6.0+ 3.18 m 1.89
α:60.00; β+:40.00
0
8.336E+05 8.336E+05 3.989E+06 NUBASE
3365 87-Fr-211 4.5- 3.1 m 0.65
α:80.00; β+:20.00
0
3.065E+05 3.065E+05 5.328E+06 NUBASE
3366 87-Fr-212 5.0+ 20 m 3
β+:57.00; α:43.00
0
9.732E+05 9.732E+05 2.807E+06 NUBASE
3367 87-Fr-213 4.5- 34.6 s 0.87
α:99.45; β+:0.55
0
3.938E+03 3.938E+03 6.867E+06 NUBASE
3368 87-Fr-214 1.0- 5E-03 s 4
α:100.00
1
8.581E+06 ENSDF
3369 87-Fr-214M 9.0- 1.220E+05 3.35E-03 s 1.49
α:100.00
1
8.664E+06 ENSDF
3370 87-Fr-215 4.5- 8.6E-08 s 5.81
α:100.00
1
9.538E+06 ENSDF
3371 87-Fr-216 1.0- 7E-07 s 2.86
α:100.00
1
9.175E+06 ENSDF
3372 87-Fr-217 4.5- 2.2E-05 s 22.73
α:100.00
1
8.472E+06 ENSDF
3373 87-Fr-218 1.0- 1E-03 s 60
α:100.00
1
7.955E+06 ENSDF
3374 87-Fr-218M ? 8.600E+04 0.022 s 2.27
α:100.00
0
8.100E+06 NUBASE
3375 87-Fr-219 4.5- 0.02 s 10
α:100.00
4
4.125E+02 3.550E+03 7.443E+06 ENSDF
3376 87-Fr-220 1.0+ 27.4 s 1.09
α:99.65; β-:0.35
5
1.372E+04 9.658E+03 6.673E+06 ENSDF
3377 87-Fr-221 2.5- 4.9 m 4.08
α:100.00
4
8.822E+03 2.982E+04 6.471E+06 UKHEDD25
3378 87-Fr-222 2.0- 14.2 m 2.11
β-:100.00
4
7.152E+05 1.772E+05 ENSDF
134 THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009
MAIN DATA TABLES
Matn Nuclide
SpPa
Exc ener
Half-life (%-err)
Decay modes (%)
Nsp
<β> (eV)
<γ> (eV)
<α>
(eV)
Source
3379 87-Fr-223 1.5- 21.8 m 1.83
β-:99.99; α:0.01
5
3.791E+05 5.899E+04 3.263E+02 UKHEDD25
3380 87-Fr-224 1.0- 3.33 m 3
β-:100.00
4
8.769E+05 5.353E+05 ENSDF
3381 87-Fr-225 1.5- 4 m 5
β-:100.00
0
6.053E+05 6.053E+05 NUBASE
3382 87-Fr-226 1.0- 49 s 2.04
β-:100.00
4
1.221E+06 4.361E+05 ENSDF
3383 87-Fr-227 0.5+ 2.47 m 1.21
β-:100.00
4
7.668E+05 4.349E+05 ENSDF
3384 87-Fr-228 2.0- 38 s 2.63
β-:100.00
4
1.437E+06 6.664E+05 ENSDF
3385 87-Fr-229 0.5+ 50.2 s 0.80
β-:100.00
0
1.086E+06 1.086E+06 NUBASE
3386 87-Fr-230 ? 19.1 s 2.62
β-:100.00
0
1.694E+06 1.694E+06 NUBASE
3387 87-Fr-231 0.5+ 17.6 s 3.41
β-:100.00
4
1.373E+06 4.421E+05 ENSDF
3388 87-Fr-232 ? 5 s 20
β-:100.00
0
1.903E+06 1.903E+06 NUBASE
3389 88-Ra-202 0.0+ 2.6E-03 s 80.77
α:100.00
0
8.016E+06 NUBASE
3390 88-Ra-203 1.5- 1E-03 s 500
α:100.00
1
7.730E+06 ENSDF
3391 88-Ra-203M 1.5- 1.900E+05 0.033 s 66.67
α:100.00
1
7.768E+06 ENSDF
3392 88-Ra-204 0.0+ 0.06 s 18.33
α:99.70; β+:0.30
0
5.446E+03 5.446E+03 7.612E+06 NUBASE
3393 88-Ra-205 1.5- 0.22 s 22.73
α:50.00; β+:50.00
0
1.192E+06 1.192E+06 3.743E+06 NUBASE
3394 88-Ra-205M 6.5+ 2.900E+05 0.18 s 27.78
α m:50.00; IT:50.00
0
1.450E+05 3.748E+06 NUBASE
3395 88-Ra-206 0.0+ 0.24 s 8.33
α:100.00
0
7.415E+06 NUBASE
3396 88-Ra-207 ? 1.3 s 15.38
α:90.00; β+:10.00
0
2.127E+05 2.127E+05 6.548E+06 NUBASE
3397 88-Ra-207M 6.5+ 5.600E+05 0.057 s 14.04
IT:85.00; α m:14.45;
β+:0.55
0
1.272E+04 4.887E+05 1.080E+06 NUBASE
3398 88-Ra-208 0.0+ 1.3 s 15.38
α:95.00; β+:5.00
0
7.307E+04 7.307E+04 6.909E+06 NUBASE
3399 88-Ra-209 2.5- 4.6 s 4.35
α:90.00; β+:10.00
0
1.873E+05 1.873E+05 6.422E+06 NUBASE
3400 88-Ra-210 0.0+ 3.7 s 5.41
α:96.00; β+:4.00
0
5.076E+04 5.076E+04 6.866E+06 NUBASE
3401 88-Ra-211 2.5- 13 s 15.38
α:93.00; β+:7.00
0
1.165E+05 1.165E+05 6.549E+06 NUBASE
3402 88-Ra-212 0.0+ 13 s 1.54
α:85.00; β+:15.00
0
1.674E+05 1.674E+05 5.977E+06 NUBASE
3403 88-Ra-213 0.5- 2.74 m 2.19
α:80.00; β+:20.00
0
2.605E+05 2.605E+05 5.490E+06 NUBASE
3404 88-Ra-213M 6.5+ 1.770E+06 2.1E-03 s 4.76
α:1.00; IT:99.00
4
9.988E+04 1.635E+06 8.591E+04 ENSDF
3405 88-Ra-214 0.0+ 2.46 s 1.22
α:99.94; β+
m:0.06
0
1.841E+02 1.841E+02 7.270E+06 NUBASE
3406 88-Ra-215 4.5+ 1.59E-03 s 5.66
α:100.00
1
8.834E+06 ENSDF
3407 88-Ra-216 0.0+ 1.82E-07 s 5.49
α:100.00; β+:~
0
1.560E-06 3.120E-06 9.526E+06 NUBASE
3408 88-Ra-217 4.5+ 1.6E-06 s 12.50
α:100.00
1
9.161E+06 ENSDF
3409 88-Ra-218 0.0+ 2.56E-05 s 4.30
α:100.00
0
8.546E+06 NUBASE
3410 88-Ra-219 3.5+ 0.01 s 30
α:100.00
4
5.652E+04 1.710E+05 7.946E+06 ENSDF
3411 88-Ra-220 0.0+ 0.018 s 11.11
α:100.00
2
4.650E+03 7.589E+06 ENSDF
3412 88-Ra-221 2.5+ 28 s 7.14
α:100.00
0
6.880E+06 NUBASE
3413 88-Ra-222 0.0+ 38 s 1.32
α:100.00
4
8.336E+02 9.191E+03 6.667E+06 ENSDF
3414 88-Ra-223 0.5+ 11.43 d 0.17
α:100.00
4
7.474E+04 1.343E+05 5.782E+06 UKHEDD25
3415 88-Ra-224 0.0+ 3.64 d 0.82
α:100.00
4
2.352E+03 1.043E+04 5.776E+06 UKHEDD25
3416 88-Ra-225 1.5+ 14.8 d 1.35
β-:100.00
4
1.078E+05 1.383E+04 UKHEDD25
3417 88-Ra-226 0.0+ 1600.001 y 0.44
α:100.00
4
3.499E+03 7.256E+03 4.859E+06 LNHB
3418 88-Ra-227 1.5+ 42.2 m 1.18
β-:100.00
0
4.427E+05 4.427E+05 NUBASE
3419 88-Ra-228 0.0+ 5.75 y 0.52
β-:100.00
4
2.147E+04 2.005E+03 UKHEDD25
3420 88-Ra-229 2.5+ 4 m 5
β-:100.00
1
6.134E+05 ENSDF
THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009 135
MAIN DATA TABLES
Matn Nuclide
SpPa
Exc ener
Half-life (%-err)
Decay modes (%)
Nsp
<β> (eV)
<γ> (eV)
<α>
(eV)
Source
3421 88-Ra-230 0.0+ 1.55 h 2.15
β-:100.00
0
2.360E+05 2.360E+05 NUBASE
3422 88-Ra-231 2.5+ 1.717 m 2.91
β-:100.00
0
8.267E+05 8.267E+05 NUBASE
3423 88-Ra-232 0.0+ 4.167 m 20
β-:100.00
0
5.000E+05 5.000E+05 NUBASE
3424 88-Ra-233 0.5+ 30 s 16.67
β-:100.00
0
1.090E+06 1.090E+06 NUBASE
3425 88-Ra-234 0.0+ 30 s 33.33
β-:100.00
0
7.100E+05 7.100E+05 NUBASE
3426 89-Ac-206 3.0+ 0.025 s 28
α:99.80; β+:0.20
0
6.630E+03 6.630E+03 7.929E+06 NUBASE
3427 89-Ac-206M ? 8.000E+04 0.015 s 40
α:100.00
0
8.025E+06 NUBASE
3428 89-Ac-206N 10.0- 2.800E+05 0.041 s 39.02
α m:100.00
0
7.895E+06 NUBASE
3429 89-Ac-207 4.5- 0.022 s 181.82
α:100.00
1
7.864E+06 ENSDF
3430 89-Ac-208 3.0+ 0.095 s 25.26
α:99.00
1
7.644E+06 ENSDF
3431 89-Ac-208M 10.0- 5.100E+05 0.028 s 25
α n:89.00; IT:10.00;
β+:1.00
0
3.185E+04 8.285E+04 7.037E+06 NUBASE
3432 89-Ac-209 4.5- 0.1 s 50
α:99.00
1
7.656E+06 ENSDF
3433 89-Ac-210 7.0+ 0.35 s 14.29
α m:91.00; β+:9.00
0
2.499E+05 2.499E+05 6.750E+06 NUBASE
3434 89-Ac-211 4.5- 0.25 s 20
α:100.00
1
7.625E+06 ENSDF
3435 89-Ac-212 6.0+ 0.92 s 5.43
α:97.00; β+:3.00
0
7.471E+04 7.471E+04 7.299E+06 NUBASE
3436 89-Ac-213 4.5- 0.8 s 6.25
α:100.00
1
7.505E+06 ENSDF
3437 89-Ac-214 5.0+ 8.2 s 2.44
α:89.00; β+:11.00
0
2.320E+05 2.320E+05 6.542E+06 NUBASE
3438 89-Ac-215 4.5- 0.17 s 5.88
α:99.91
1
7.742E+06 ENSDF
3439 89-Ac-216 1.0- 3.3E-04 s 100
α:100.00
1
9.236E+06 ENSDF
3440 89-Ac-216M 9.0- 3.700E+04 3.3E-04 s 6.06
α:100.00
1
9.204E+06 ENSDF
3441 89-Ac-217 4.5- 6.9E-08 s 5.80
α:100.00
1
9.832E+06 ENSDF
3442 89-Ac-218 1.0- 1.08E-06 s 8.33
α:100.00
1
9.378E+06 ENSDF
3443 89-Ac-219 4.5- 1.18E-05 s 12.71
α:100.00
1
8.826E+06 ENSDF
3444 89-Ac-220 3.0- 0.026 s 0.76
α:100.00
4
1.140E+05 1.295E+05 7.960E+06 ENSDF
3445 89-Ac-221 4.5- 0.052 s 3.85
α:100.00
1
7.737E+06 ENSDF
3446 89-Ac-222 1.0- 5 s 10
α:99.00; β+:1.00
0
7.667E+03 7.667E+03 7.066E+06 NUBASE
3447 89-Ac-222M ? 2.000E+05 1.05 m 6.67
α:44.30; α m:44.30;
IT:10.00; β+:1.40
0
1.167E+04 3.167E+04 6.463E+06 NUBASE
3448 89-Ac-223 2.5- 2.1 m 2.38
α:99.00; β+:1.00
0
2.957E+02 5.913E+02 6.715E+06 NUBASE
3449 89-Ac-224 0.0- 2.78 h 6.12
α:9.10; β+:90.90
5
3.994E+04 2.310E+05 5.628E+05 ENSDF
3450 89-Ac-225 1.5- 10 d 1
α:100.00
4
2.761E+04 1.715E+04 5.868E+06 UKHEDD25
3451 89-Ac-226 1.0- 1.224 d 0.41
β-:83.00; β+:17.00;
α:0.01
0
3.134E+05 3.188E+05 3.321E+02 NUBASE
3452 89-Ac-227 1.5- 21.773 y 0.01
β-:98.62; α:1.38
5
1.481E+04 5.624E+02 6.933E+04 UKHEDD25
3453 89-Ac-228 3.0+ 6.15 h 0.33
β-:100.00
4
4.402E+05 9.632E+05 UKHEDD25
3454 89-Ac-229 1.5+ 1.045 h 0.80
β-:50.00; β-
m:50.00
0
3.878E+05 3.878E+05 NUBASE
3455 89-Ac-230 1.0+ 2.033 m 2.46
β-:100.00
4
9.098E+05 5.011E+05 ENSDF
3456 89-Ac-231 0.5+ 7.5 m 1.33
β-:100.00
4
6.289E+05 4.168E+05 ENSDF
3457 89-Ac-232 1.0+ 1.983 m 4.20
β-:100.00
4
9.840E+05 1.148E+06 ENSDF
3458 89-Ac-233 0.5+ 2.417 m 6.90
β-:100.00
4
9.207E+05 4.986E+05 ENSDF
3459 89-Ac-234 ? 44 s 15.91
β-:100.00
0
1.495E+06 1.495E+06 NUBASE
3460 89-Ac-235 0.5+ 40 s 100
β-:100.00
0
1.153E+06 1.153E+06 NUBASE
136 THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009
MAIN DATA TABLES
Matn Nuclide
SpPa
Exc ener
Half-life (%-err)
Decay modes (%)
Nsp
<β> (eV)
<γ> (eV)
<α>
(eV)
Source
3461 89-Ac-236 ? 2 m 100
β-:100.00
0
1.687E+06 1.687E+06 NUBASE
3462 90-Th-209 2.5- 7E-03 s 71.43
α:50.00; β+:50.00
0
1.277E+06 1.277E+06 4.118E+06 NUBASE
3463 90-Th-210 0.0+ 9E-03 s 188.89
α:100.00
1
8.053E+06 ENSDF
3464 90-Th-211 2.5- 0.048 s 41.67
α:99.50; β+:0.50
0
1.118E+04 1.118E+04 7.905E+06 NUBASE
3465 90-Th-212 0.0+ 0.036 s 41.67
α:99.70; β+:0.30
0
4.811E+03 4.811E+03 7.928E+06 NUBASE
3466 90-Th-213 2.5- 0.14 s 17.86
α:100.00
1
7.840E+06 ENSDF
3467 90-Th-214 0.0+ 0.1 s 25
α:99.90; β+:0.10
0
1.428E+03 1.428E+03 7.818E+06 NUBASE
3468 90-Th-215 0.5- 1.2 s 16.67
α:100.00
0
7.666E+06 NUBASE
3469 90-Th-216 0.0+ 0.027 s 1.12
α:99.99; β+:0.01
0
4.362E+01 4.362E+01 8.070E+06 NUBASE
3470 90-Th-217 4.5+ 2.52E-04 s 2.78
α:100.00
1
9.424E+06 ENSDF
3471 90-Th-218 0.0+ 1.09E-07 s 11.93
α:100.00
1
9.847E+06 ENSDF
3472 90-Th-219 4.5+ 1.05E-06 s 2.86
α:100.00
1
9.514E+06 ENSDF
3473 90-Th-220 0.0+ 9.7E-06 s 6.19
α:100.00; β+:~
0
9.170E-05 1.834E-04 8.953E+06 NUBASE
3474 90-Th-221 3.5+ 1.68E-03 s 3.57
α:100.00
0
8.626E+06 NUBASE
3475 90-Th-222 0.0+ 2.8E-03 s 10.71
α:100.00
1
8.117E+06 ENSDF
3476 90-Th-223 2.5+ 0.6 s 3.33
α:100.00
4
4.989E+04 7.368E+04 7.451E+06 ENSDF
3477 90-Th-224 0.0+ 1.05 s 1.90
α:100.00
4
1.214E+04 2.306E+04 7.225E+06 ENSDF
3478 90-Th-225 1.5+ 8.72 m 0.46
α:90.00; β+:10.00
0
3.360E+03 6.720E+03 6.229E+06 NUBASE
3479 90-Th-226 0.0+ 30.57 m 0.33
α:100.00
4
1.986E+04 8.630E+03 6.420E+06 ENSDF
3480 90-Th-227 0.5+ 18.718 d 0.03
α:100.00
4
4.451E+04 1.197E+05 6.007E+06 LNHB
3481 90-Th-228 0.0+ 1.913 y 0.03
α:100.00
4
2.048E+04 3.077E+03 5.498E+06 UKHEDD25
3482 90-Th-229 2.5+ 7340.164 y 2.18
α:100.00
4
1.159E+05 9.031E+04 4.947E+06 UKHEDD25
3483 90-Th-229M 1.5+ 3.500E+00 2.917 d 71.43
IT:100.00
0
3.500E+00 NUBASE
3484 90-Th-230 0.0+ 7.54E+04 y 0.40
α:100.00; SF:~
6
1.240E+04 1.277E+03 4.747E+06 UKHEDD25
3485 90-Th-231 2.5+ 1.063 d 0.04
β-:100.00
4
1.649E+05 2.582E+04 UKHEDD25
3486 90-Th-232 0.0+ 1.405E+10 y 0.43
α:100.00; SF:~
6
1.303E+04 1.243E+03 4.077E+06 UKHEDD25
3487 90-Th-233 1.5+ 22.3 m 0.45
β-:100.00
4
4.122E+05 3.749E+04 UKHEDD25
3488 90-Th-234 0.0+ 24.09 d 0.12
β-m:100.00
4
6.056E+04 8.801E+03 UKHEDD25
3489 90-Th-235 2.5+ 6.9 m 2.90
β-:100.00
0
6.400E+05 6.400E+05 UKHEDD25
3490 90-Th-236 0.0+ 37.5 m 0.53
β-:100.00
0
3.667E+05 3.667E+05 NUBASE
3491 90-Th-237 2.5+ 4.8 m 10.42
β-:100.00
0
8.533E+05 8.533E+05 NUBASE
3492 90-Th-238 0.0+ 9.4 m 21.28
β-:100.00
0
6.200E+05 6.200E+05 NUBASE
3493 91-Pa-212 7.0+ 8E-03 s 62.50
α:50.00; α m:50.00
0
8.170E+06 NUBASE
3494 91-Pa-213 4.5- 7E-03 s 42.86
α:100.00
0
8.395E+06 NUBASE
3495 91-Pa-214 ? 0.017 s 17.65
α:100.00
0
8.275E+06 NUBASE
3496 91-Pa-215 4.5- 0.014 s 14.29
α:100.00
0
8.245E+06 NUBASE
3497 91-Pa-216 ? 0.105 s 11.43
α:98.00; β+:2.00
0
4.997E+04 4.997E+04 7.933E+06 NUBASE
3498 91-Pa-217 4.5- 4.9E-03 s 12.24
α:100.00
1
8.497E+06 ENSDF
3499 91-Pa-217M 14.5+ 1.854E+06 1.6E-03 s 62.50
α:100.00
1
1.035E+07 ENSDF
3500 91-Pa-218 ? 1.2E-04 s 33.33
α:100.00
1
9.766E+06 ENSDF
3501 91-Pa-219 4.5- 5.3E-08 s 18.87
α:100.00
1
1.008E+07 ENSDF
3502 91-Pa-220 1.0- 7.8E-07 s 20.51
α:100.00; β+:~
0
5.711E-03 5.711E-03 9.832E+06 NUBASE
3503 91-Pa-221 4.5- 5.9E-06 s 28.81
α:100.00
0
9.248E+06 NUBASE
THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009 137
MAIN DATA TABLES
Matn Nuclide
SpPa
Exc ener
Half-life (%-err)
Decay modes (%)
Nsp
<β> (eV)
<γ> (eV)
<α>
(eV)
Source
3504 91-Pa-222 ? 3.2E-03 s 9.37
α:100.00
0
8.855E+06 NUBASE
3505 91-Pa-223 4.5- 5.1E-03 s 11.76
α:100.00
1
8.251E+06 ENSDF
3506 91-Pa-224 5.0- 0.844 s 2.25
α:99.90; β+:0.10
0
1.291E+03 1.291E+03 7.685E+06 NUBASE
3507 91-Pa-225 2.5- 1.7 s 5.88
α:100.00
1
7.361E+06 ENSDF
3508 91-Pa-226 ? 1.8 m 11.11
α:37.00; α m:37.00;
β+:26.00
0
2.458E+05 2.458E+05 5.096E+06 NUBASE
3509 91-Pa-227 2.5- 38.3 m 0.78
α:85.00; β+:15.00
0
7.694E+03 1.539E+04 5.594E+06 NUBASE
3510 91-Pa-228 3.0+ 22 h 4.55
α:2.00; β+:98.15
5
9.409E+04 1.332E+06 1.217E+05 ENSDF
3511 91-Pa-229 2.5+ 1.5 d 3.33
α:0.48; β+:99.52
5
6.586E+03 6.487E+04 2.644E+04 ENSDF
3512 91-Pa-230 2.0- 17.4 d 2.87
β+:91.60; β-:8.40;
α:~
0
4.160E+05 4.160E+05 1.741E+02 NUBASE
3513 91-Pa-231 1.5- 3.276E+04 y 0.34
α:100.00; SF:~
6
5.230E+04 3.873E+04 5.061E+06 UKHEDD25
3514 91-Pa-232 2.0- 1.31 d 1.53
β-:100.00; β+:~
5
1.682E+05 9.364E+05 UKHEDD25
3515 91-Pa-233 1.5- 27 d 0.37
β-:100.00
4
1.922E+05 2.205E+05 LNHB
3516 91-Pa-234 4.0+ 6.78 h 0.44
β-:100.00
4
3.859E+05 1.435E+06 UKHEDD25
3517 91-Pa-234M 0.0- 7.900E+04 1.17 m 2.56
β-:99.85; IT:0.15
4
8.165E+05 1.974E+04 UKHEDD25
3518 91-Pa-235 1.5- 24.2 m 1.24
β-m:100.00
4
4.641E+05 9.868E+03 UKHEDD25
3519 91-Pa-236 1.0- 9.1 m 1.10
β-:100.00
4
8.643E+05 8.057E+05 ENSDF
3520 91-Pa-237 0.5+ 8.7 m 2.30
β-:100.00
4
5.714E+05 6.079E+05 ENSDF
3521 91-Pa-238 3.0- 2.27 m 3.96
β-:100.00; β-,SF:~
0
1.154E+06 1.154E+06 NUBASE
3522 91-Pa-239 ? 1.8 h 27.78
β-:100.00
0
9.220E+05 9.220E+05 NUBASE
3523 91-Pa-240 ? 2 m 100
β-:100.00
0
1.362E+06 1.362E+06 NUBASE
3524 92-U -217 0.5- 0.026 s 53.85
α:100.00
0
8.155E+06 NUBASE
3525 92-U -218 0.0+ 6E-03 s 83.33
α:100.00
0
8.783E+06 NUBASE
3526 92-U -219 4.5+ 4.2E-05 s 80.95
α:100.00
1
9.861E+06 ENSDF
3527 92-U -220 0.0+ 6E-08 s 100
α:50.00; β+:50.00
0
4.417E+05 4.417E+05 5.151E+06 NUBASE
3528 92-U -221 4.5+ 7E-07 s 100
α:50.00; β+:50.00
0
7.017E+05 7.017E+05 4.975E+06 NUBASE
3529 92-U -222 0.0+ 1.4E-06 s 50
α:100.00; β+:~
0
7.267E-03 7.267E-03 9.501E+06 NUBASE
3530 92-U -223 3.5+ 1.8E-05 s 55.56
α:100.00
1
8.941E+06 ENSDF
3531 92-U -224 0.0+ 9.4E-04 s 28.72
α:100.00; β+:~
0
7.376E-01 7.376E-01 8.620E+06 NUBASE
3532 92-U -225 2.5+ 0.061 s 6.56
α:100.00
0
8.014E+06 NUBASE
3533 92-U -226 0.0+ 0.35 s 42.86
α:100.00
1
7.684E+06 ENSDF
3534 92-U -227 1.5+ 1.1 m 9.09
α:100.00
4
7.539E+04 1.155E+05 7.011E+06 ENSDF
3535 92-U -228 0.0+ 9.1 m 2.20
α:95.00; β+:5.00
0
7.525E+02 1.505E+03 6.464E+06 NUBASE
3536 92-U -229 1.5+ 58 m 5.17
β+:80.00; α:20.00
0
3.501E+05 3.501E+05 1.295E+06 NUBASE
3537 92-U -230 0.0+ 20.8 d 10.10
α:100.00
4
1.942E+04 2.681E+03 5.971E+06 ENSDF
3538 92-U -231 2.5+ 4.2 d 2.38
β+:100.00; α:~
0
1.906E+04 3.813E+04 2.230E+02 NUBASE
3539 92-U -232 0.0+ 69.801 y 0.72
α:100.00; SF:~
6
1.684E+04 1.685E+03 5.397E+06 UKHEDD25
3540 92-U -233 2.5+ 1.593E+05 y 0.13
α:100.00
4
7.597E+03 1.225E+03 4.904E+06 UKHEDD25
3541 92-U -234 0.0+ 2.457E+05 y 0.12
α:100.00; SF:~
6
1.414E+04 1.450E+03 4.842E+06 UKHEDD25
3542 92-U -235 3.5- 7.038E+08 y 0.07
α:100.00; SF:~
6
5.067E+04 1.636E+05 4.465E+06 UKHEDD25
3543 92-U -235M 0.5+ 7.680E+01 26 m 7.69
IT:100.00
2
7.680E+01 1.920E-10 UKHEDD25
3544 92-U -236 0.0+ 2.37E+07 y 0.84
α:100.00; SF:~
6
1.106E+04 1.202E+03 4.572E+06 UKHEDD25
138 THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009
MAIN DATA TABLES
Matn Nuclide
SpPa
Exc ener
Half-life (%-err)
Decay modes (%)
Nsp
<β> (eV)
<γ> (eV)
<α>
(eV)
Source
3545 92-U -237 0.5+ 6.75 d 0.15
β-:100.00
4
1.997E+05 1.434E+05 UKHEDD25
3546 92-U -238 0.0+ 4.468E+09 y 0.07
α:100.00; SF:~
6
1.021E+04 1.100E+03 4.259E+06 UKHEDD25
3547 92-U -239 2.5+ 23.47 m 0.21
β-:100.00
4
4.099E+05 5.157E+04 UKHEDD25
3548 92-U -240 0.0+ 14.1 h 1.42
β-:100.00
4
1.454E+05 9.258E+03 UKHEDD25
3549 92-U -241 3.5+ 5 m 100
β-:100.00
0
6.467E+05 6.467E+05 NUBASE
3550 92-U -242 0.0+ 16.8 m 2.98
β-:100.00
3
3.883E+05 3.641E+04 ENSDF
3551 93-Np-225 4.5- 3E-03 s 100
α:100.00
0
8.785E+06 NUBASE
3552 93-Np-226 ? 0.035 s 28.57
α:100.00
1
8.175E+06 ENSDF
3553 93-Np-227 2.5- 0.51 s 11.76
α:99.95; β+:0.05
0
5.897E+02 5.897E+02 7.811E+06 NUBASE
3554 93-Np-228 ? 1.023 m 2.28
β+:59.99; α:40.00;
β+,SF:0.01
0
8.948E+05 8.948E+05 2.962E+06 NUBASE
3555 93-Np-229 2.5+ 4 m 5
α:50.00; β+:50.00
0
4.282E+05 4.282E+05 3.508E+06 NUBASE
3556 93-Np-230 ? 4.6 m 6.52
β+:97.00; α:3.00
0
1.172E+06 1.172E+06 2.035E+05 NUBASE
3557 93-Np-231 2.5+ 48.8 m 0.41
β+:98.00; α:2.00
0
5.955E+05 5.955E+05 1.275E+05 NUBASE
3558 93-Np-232 4.0+ 14.7 m 2.04
β+:100.00
4
8.314E+04 1.178E+06 ENSDF
3559 93-Np-233 2.5+ 36.2 m 0.28
α:~; β+:100.00
5
4.596E+03 8.856E+04 5.602E+01 ENSDF
3560 93-Np-234 0.0+ 4.4 d 2.27
β+:100.00
4
4.033E+04 1.107E+06 ENSDF
3561 93-Np-235 2.5+ 1.084 y 0.28
β+:100.00; α:~
5
3.300E+03 7.999E+03 6.985E+01 LNHB
3562 93-Np-236 6.0- 1.52E+05 y 1.97
β-:11.80; β+:88.04;
α:0.16
6
2.396E+05 1.530E+05 8.109E+03 UKHEDD25
3563 93-Np-236M 1.0- 5.000E+00 22.5 h 1.33
β-:50.00; β+:50.00
5
9.141E+04 4.913E+04 UKHEDD25
3564 93-Np-237 2.5+ 2.14E+06 y 0.47
α:100.00
4
3.831E+04 3.240E+04 4.860E+06 LNHB
3565 93-Np-238 2.0+ 2.117 d 0.09
β-:100.00
4
2.325E+05 6.443E+05 UKHEDD25
3566 93-Np-239 2.5+ 2.355 d 0.17
β-:100.00
4
2.628E+05 1.822E+05 UKHEDD25
3567 93-Np-240 5.0+ 1.083 h 4.62
β-:100.00
4
4.668E+05 1.247E+06 UKHEDD25
3568 93-Np-240M 1.0- 2.000E+04 7.4 m 2.70
β-:99.89; IT:0.11
4
6.830E+05 3.368E+05 UKHEDD25
3569 93-Np-241 2.5+ 13.9 m 1.44
β-:100.00
4
4.372E+05 3.609E+04 UKHEDD25
3570 93-Np-242 1.0+ 2.2 m 9.09
β-:100.00
2
8.887E+05 2.432E+05 ENSDF
3571 93-Np-242M 6.0+ 5.5 m 1.82
β-:100.00
0
9.005E+05 9.005E+05 NUBASE
3572 93-Np-243 2.5- 1.85 m 8.11
β-:100.00
0
7.080E+05 7.080E+05 NUBASE
3573 93-Np-244 7.0- 2.29 m 6.99
β-:100.00
0
1.131E+06 1.131E+06 NUBASE
3574 94-Pu-228 0.0+ 0.01 s 100
α:99.90; β+:0.10
0
7.967E+02 7.967E+02 7.943E+06 NUBASE
3575 94-Pu-229 1.5+ 2 m 41.67
α:100.00
0
7.598E+06 NUBASE
3576 94-Pu-230 0.0+ 1.7 m 10
α:50.00; β+:50.00
0
2.823E+05 2.823E+05 3.590E+06 NUBASE
3577 94-Pu-231 1.5+ 8.6 m 5.81
β+:87.00; α:13.00
0
7.700E+05 7.700E+05 8.890E+05 NUBASE
3578 94-Pu-232 0.0+ 33.7 m 1.48
β+:89.00; α:11.00
0
4.477E+04 8.953E+04 7.388E+05 NUBASE
3579 94-Pu-233 2.5+ 20.9 m 1.91
β+:99.88; α:0.12
0
6.992E+05 6.992E+05 7.697E+03 NUBASE
3580 94-Pu-234 0.0+ 8.8 h 1.14
β+:94.00; α:6.00
0
1.852E+04 3.704E+04 3.786E+05 NUBASE
3581 94-Pu-235 2.5+ 25.3 m 1.98
β+:100.00; α:~
0
3.798E+05 3.798E+05 1.667E+02 NUBASE
3582 94-Pu-236 0.0+ 2.858 y 0.21
α:100.00; SF:~
6
1.339E+04 1.583E+03 5.852E+06 UKHEDD25
3583 94-Pu-237 3.5- 45.3 d 0.44
β+:100.00; α:~
5
1.750E+04 5.516E+04 2.341E+02 UKHEDD25
3584 94-Pu-237M 0.5+ 1.455E+05 0.18 s 11.11
IT:100.00
0
1.455E+05 NUBASE
3585 94-Pu-238 0.0+ 87.7 y 0.34
α:100.00; SF:~
6
1.119E+04 1.548E+03 5.580E+06 UKHEDD25
THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009 139
MAIN DATA TABLES
Matn Nuclide
SpPa
Exc ener
Half-life (%-err)
Decay modes (%)
Nsp
<β> (eV)
<γ> (eV)
<α>
(eV)
Source
3586 94-Pu-239 0.5+ 2.411E+04 y 0.05
α:0.06; α m:99.94;
SF:~
6
7.935E+03 7.277E+02 5.238E+06 UKHEDD25
3587 94-Pu-240 0.0+ 6562.997 y 0.08
α:100.00; SF:~
6
1.112E+04 1.363E+03 5.243E+06 UKHEDD25
3588 94-Pu-241 2.5+ 14.33 y 0.28
β-:100.00; α:~
5
5.235E+03 1.711E+00 1.226E+02 UKHEDD25
3589 94-Pu-242 0.0+ 3.735E+05 y 0.29
α:100.00; SF:~
6
9.381E+03 1.291E+03 4.973E+06 UKHEDD25
3590 94-Pu-243 3.5+ 4.956 h 0.06
β-:100.00
4
1.736E+05 2.508E+04 UKHEDD25
3591 94-Pu-244 0.0+ 8E+07 y 1.12
α:99.88; SF:0.12
6
7.715E+03 9.756E+03 4.873E+06 UKHEDD25
3592 94-Pu-245 4.5- 10.5 h 0.95
β-:100.00
4
3.314E+05 3.986E+05 UKHEDD25
3593 94-Pu-246 0.0+ 10.85 d 0.18
β-m:100.00
4
1.149E+05 1.238E+05 UKHEDD25
3594 94-Pu-247 0.5+ 2.27 d 10.13
β-:100.00
0
6.167E+05 6.167E+05 NUBASE
3595 95-Am-231 ? 30 s 100
β+:50.00; α:50.00
0
6.925E+05 6.925E+05 3.728E+06 NUBASE
3596 95-Am-232 ? 1.31 m 3.05
β+:97.93; α:2.00;
β+,SF:0.07
0
1.643E+06 1.643E+06 1.455E+05 NUBASE
3597 95-Am-233 ? 3.2 m 25
β+:97.00; α:3.00
0
1.009E+06 1.009E+06 2.090E+05 NUBASE
3598 95-Am-234 ? 2.32 m 3.45
β+:99.95; α:0.04;
β+,SF:0.01
0
1.393E+06 1.393E+06 2.677E+03 NUBASE
3599 95-Am-235 2.5- 9.9 m 5.05
β+:99.60; α:0.40
0
8.220E+05 8.220E+05 2.642E+04 NUBASE
3600 95-Am-236 ? 30 m 100
β+:50.00; α:50.00
0
5.462E+05 5.462E+05 3.198E+06 NUBASE
3601 95-Am-237 2.5- 1.217 h 1.37
β+:49.99; β+
m:49.99;
α:0.03
0
4.679E+05 4.679E+05 1.549E+03 NUBASE
3602 95-Am-238 1.0+ 1.633 h 2.04
β+:100.00
4
1.545E+04 8.877E+05 ENSDF
3603 95-Am-239 2.5- 11.9 h 0.84
β+:99.99; α:0.01
0
4.010E+04 8.020E+04 5.922E+02 NUBASE
3604 95-Am-240 3.0- 2.117 d 0.59
β+:100.00; α:~
5
8.295E+04 1.031E+06 1.038E+01 UKHEDD25
3605 95-Am-241 2.5- 432.808 y 0.16
α:100.00; SF:~
6
3.908E+04 2.751E+04 5.557E+06 UKHEDD25
3606 95-Am-242 1.0- 16.04 h 0.19
β-:83.20; β+:16.80
5
1.827E+05 1.670E+04 UKHEDD25
3607 95-Am-242M 5.0- 4.863E+04 141.003 y 1.42
IT:99.54; α:0.46;
SF:~
6
4.595E+04 4.183E+03 2.478E+04 UKHEDD25
3608 95-Am-242N ? 2.200E+06 0.014 s 7.14
SF:100.00
0
NUBASE
3609 95-Am-243 2.5- 7364.976 y 0.30
α:100.00; SF:~
6
2.393E+04 5.696E+04 5.359E+06 UKHEDD25
3610 95-Am-244 6.0- 10.1 h 0.99
β-:100.00
4
3.081E+05 8.434E+05 UKHEDD25
3611 95-Am-244M 1.0- 6.900E+04 26 m 7.69
β-:99.96; β+:0.04
5
5.039E+05 1.244E+04 UKHEDD25
3612 95-Am-245 2.5+ 2.05 h 0.49
β-:100.00
4
2.847E+05 2.774E+04 UKHEDD25
3613 95-Am-246 7.0+ 39 m 7.69
β-:100.00
4
7.153E+05 7.752E+05 UKHEDD25
3614 95-Am-246M 2.0+ 5.000E+03 25 m 0.80
β-:100.00
4
4.846E+05 1.016E+06 UKHEDD25
3615 95-Am-247 2.5+ 23 m 5.65
β-:100.00
4
5.873E+05 1.345E+05 ENSDF
3616 95-Am-248 ? 3 m 100
β-:100.00
0
1.056E+06 1.056E+06 NUBASE
3617 95-Am-249 ? 1 m 100
β-:100.00
0
7.833E+05 7.833E+05 NUBASE
3618 96-Cm-233 1.5+ 1 m 100
α:50.00; β+:50.00
0
6.867E+05 6.867E+05 3.733E+06 NUBASE
3619 96-Cm-234 0.0+ 51 s 23.53
α:50.00; β+:47.00;
SF:3.00
0
3.437E+05 3.437E+05 3.683E+06 NUBASE
3620 96-Cm-235 2.5+ 5 m 100
β+:50.00; α:50.00
0
5.417E+05 5.417E+05 3.600E+06 NUBASE
3621 96-Cm-236 0.0+ 10 m 100
β+:50.00; α:50.00
0
2.850E+05 2.850E+05 3.550E+06 NUBASE
3622 96-Cm-237 2.5+ 20 m 100
β+:50.00; α:50.00
0
4.517E+05 4.517E+05 3.403E+06 NUBASE
140 THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009
MAIN DATA TABLES
Matn Nuclide
SpPa
Exc ener
Half-life (%-err)
Decay modes (%)
Nsp
<β> (eV)
<γ> (eV)
<α>
(eV)
Source
3623 96-Cm-238 0.0+ 2.4 h 4.17
β+:90.00; α:10.00
0
4.410E+04 8.820E+04 6.625E+05 NUBASE
3624 96-Cm-239 3.5- 2.9 h 100
β+:99.90; α:0.10
0
5.987E+05 5.987E+05 6.581E+03 NUBASE
3625 96-Cm-240 0.0+ 27 d 3.70
α:99.70
1
6.370E+06 ENSDF
3626 96-Cm-241 0.5+ 32.8 d 0.61
β+:99.00; α:1.00
5
1.408E+05 4.968E+05 6.029E+04 UKHEDD25
3627 96-Cm-242 0.0+ 162.931 d 0.04
α:100.00; SF:~
6
1.017E+04 1.373E+03 6.206E+06 UKHEDD25
3628 96-Cm-243 2.5+ 30.001 y 6.67
β+:0.24; α:99.76
5
1.392E+05 1.332E+05 5.940E+06 UKHEDD25
3629 96-Cm-244 0.0+ 18 y 0.56
α:100.00; SF:~
6
8.874E+03 1.211E+03 5.894E+06 UKHEDD25
3630 96-Cm-244M 6.0+ 1.040E+06 0.034 s 5.88
IT:100.00
0
1.040E+06 NUBASE
3631 96-Cm-245 3.5+ 8500.194 y 2.35
α:100.00
4
8.129E+04 9.380E+04 5.448E+06 UKHEDD25
3632 96-Cm-246 0.0+ 4730.087 y 3.17
α:99.97; SF:0.03
6
8.200E+03 3.002E+03 5.514E+06 UKHEDD25
3633 96-Cm-247 4.5- 1.6E+07 y 3.12
α:100.00
4
2.239E+04 3.028E+05 5.028E+06 UKHEDD25
3634 96-Cm-248 0.0+ 3.4E+05 y 1.18
α:91.74; SF:8.26
6
6.291E+03 5.791E+05 1.981E+07 UKHEDD25
3635 96-Cm-249 0.5+ 1.069 h 0.05
β-:100.00
4
2.837E+05 1.968E+04 UKHEDD25
3636 96-Cm-250 0.0+ 8000.177 y 50
α:30.00; SF:70.00
4
4.900E+06 1.296E+08 UKHEDD25
3637 96-Cm-251 0.5+ 16.8 m 1.19
β-:100.00
4
4.507E+05 1.104E+05 ENSDF
3638 96-Cm-252 0.0+ 1 d 100
β-:100.00
0
1.767E+05 1.767E+05 NUBASE
3639 97-Bk-235 ? 20 s 100
β+:50.00; α:50.00
0
7.983E+05 7.983E+05 3.918E+06 NUBASE
3640 97-Bk-236 ? 1 m 100
β+:50.00; α:50.00
0
9.183E+05 9.183E+05 3.788E+06 NUBASE
3641 97-Bk-237 3.5+ 1 m 100
β+:50.00; α:50.00
0
6.367E+05 6.367E+05 3.753E+06 NUBASE
3642 97-Bk-238 ? 2.4 m 4.17
β+:99.75; α:0.20;
β+,SF:0.05
0
1.626E+06 1.626E+06 1.467E+04 NUBASE
3643 97-Bk-239 3.5+ 3 m 100
β+:50.00; α:50.00
0
5.167E+05 5.167E+05 3.603E+06 NUBASE
3644 97-Bk-240 ? 4.8 m 16.67
β+:90.00; α:10.00;
β+,SF:~
0
1.183E+06 1.183E+06 7.065E+05 NUBASE
3645 97-Bk-241 3.5+ 4.6 m 8.70
α:50.00; β+:50.00
0
3.994E+05 3.994E+05 3.553E+06 NUBASE
3646 97-Bk-242 2.0- 7 m 18.57
β+:100.00; β+,SF:~
0
9.783E+05 9.783E+05 NUBASE
3647 97-Bk-243 1.5- 4.5 h 4.44
β+:99.85; α:0.15
0
5.017E+05 5.017E+05 1.031E+04 NUBASE
3648 97-Bk-244 4.0- 4.35 h 3.45
β+:99.99; α:0.01
0
7.541E+05 7.541E+05 4.067E+02 NUBASE
3649 97-Bk-245 1.5- 4.94 d 0.61
α:0.12; β+:99.88
5
1.190E+05 2.347E+05 7.460E+03 ENSDF
3650 97-Bk-246 2.0- 1.8 d 1.11
β+:99.90; α:0.05;
α n:0.05
0
4.501E+05 4.501E+05 4.975E+03 NUBASE
3651 97-Bk-247 1.5- 1380.001 y 18.12
α:100.00
4
6.583E+04 1.415E+05 5.657E+06 ENSDF
3652 97-Bk-248 6.0+ 9 y 100
α:100.00
0
5.774E+06 NUBASE
3653 97-Bk-248M 1.0- 3.000E+04 23.7 h 0.84
β+:30.00; β-:70.00
5
1.775E+05 5.338E+04 ENSDF
3654 97-Bk-249 3.5+ 320 d 1.88
β-:100.00; α:~;
SF:~
7
3.304E+04 3.147E+01 7.902E+01 UKHEDD25
3655 97-Bk-250 2.0- 3.217 h 0.16
β-:100.00
4
2.970E+05 9.054E+05 UKHEDD25
3656 97-Bk-251 1.5- 55.6 m 1.98
β-:100.00
0
3.643E+05 3.643E+05 NUBASE
3657 97-Bk-252 ? 1.8 m 27.78
β-:50.00; α:50.00
0
4.160E+05 4.160E+05 2.773E+06 NUBASE
3658 97-Bk-253 ? 10 m 100
β-:100.00
0
5.430E+05 5.430E+05 NUBASE
3659 97-Bk-254 ? 1 m 100
β-:100.00
0
1.016E+06 1.016E+06 NUBASE
3660 98-Cf-237 2.5+ 2.1 s 14.29
α:45.00; SF:10.00;
β+:45.00
0
7.080E+05 7.080E+05 3.647E+06 NUBASE
THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009 141
MAIN DATA TABLES
Matn Nuclide
SpPa
Exc ener
Half-life (%-err)
Decay modes (%)
Nsp
<β> (eV)
<γ> (eV)
<α>
(eV)
Source
3661 98-Cf-238 0.0+ 0.021 s 6.16
SF:99.80; α:0.20
0
1.607E+04 NUBASE
3662 98-Cf-239 2.5+ 1 m 50
α:50.00; β+:50.00
0
6.433E+05 6.433E+05 3.908E+06 NUBASE
3663 98-Cf-240 0.0+ 57.6 s 15.62
α:98.00; SF:2.00
0
7.561E+06 NUBASE
3664 98-Cf-241 3.5- 3.8 m 18.42
β+:75.00; α:25.00
0
8.150E+05 8.150E+05 1.914E+06 NUBASE
3665 98-Cf-242 0.0+ 3.49 m 3.44
α:80.00; β+:19.99;
SF:0.01
0
1.066E+05 1.066E+05 6.012E+06 NUBASE
3666 98-Cf-243 0.5+ 10.7 m 4.67
β+:86.00; α:14.00
0
6.476E+05 6.476E+05 1.027E+06 NUBASE
3667 98-Cf-244 0.0+ 19.4 m 3.09
α:100.00
0
7.329E+06 NUBASE
3668 98-Cf-245 2.5+ 45 m 3.33
β+:64.00; α:36.00
0
3.353E+05 3.353E+05 2.613E+06 NUBASE
3669 98-Cf-246 0.0+ 1.488 d 1.40
α:100.00
4
3.977E+03 1.190E+03 6.857E+06 ENSDF
3670 98-Cf-247 3.5+ 3.11 h 0.96
β+:99.97; α:0.03
0
3.229E+04 6.458E+04 2.285E+03 NUBASE
3671 98-Cf-248 0.0+ 333.5 d 0.84
α:100.00
3
5.053E+03 2.696E+01 6.352E+06 ENSDF
3672 98-Cf-249 4.5- 351.007 y 0.57
α:100.00; SF:~
6
2.985E+04 3.292E+05 5.928E+06 UKHEDD25
3673 98-Cf-250 0.0+ 13.08 y 0.69
α:99.92; SF:0.08
6
5.958E+03 6.343E+03 6.262E+06 UKHEDD25
3674 98-Cf-251 0.5+ 898.018 y 4.90
α:100.00
4
1.817E+05 1.203E+05 5.878E+06 UKHEDD25
3675 98-Cf-252 0.0+ 2.645 y 0.30
α:96.91; SF:3.09
6
6.006E+03 2.174E+05 1.181E+07 UKHEDD25
3676 98-Cf-253 3.5+ 17.81 d 0.45
β-:99.69; α:0.31
5
8.046E+04 8.369E+01 1.882E+04 UKHEDD25
3677 98-Cf-254 0.0+ 60.5 d 0.33
SF:99.69; α:0.31
0
1.832E+04 NUBASE
3678 98-Cf-255 3.5+ 1.417 h 21.18
β-:100.00; SF:~;
α:~
0
2.403E+05 2.403E+05 1.147E-02 NUBASE
3679 98-Cf-256 0.0+ 12.3 m 9.76
SF:100.00; α:~
0
3.444E-02 NUBASE
3680 99-Es-240 ? 1 s 100
α:50.00; β+:50.00
0
1.028E+06 1.028E+06 4.188E+06 NUBASE
3681 99-Es-241 1.5- 10 s 50
α:50.00; β+:50.00
0
7.467E+05 7.467E+05 4.158E+06 NUBASE
3682 99-Es-242 ? 13.5 s 18.52
α:50.00; β+:49.40;
β+,SF:0.60
0
9.271E+05 9.271E+05 4.128E+06 NUBASE
3683 99-Es-243 1.5- 21 s 9.52
β+:70.00; α:30.00
0
8.937E+05 8.937E+05 2.420E+06 NUBASE
3684 99-Es-244 ? 37 s 10.81
β+:94.99; α:5.00;
β+,SF:0.01
0
1.441E+06 1.441E+06 3.968E+05 NUBASE
3685 99-Es-245 1.5- 1.1 m 9.09
β+:60.00; α:40.00
0
6.106E+05 6.106E+05 3.166E+06 NUBASE
3686 99-Es-246 4.0- 7.7 m 6.49
β+:90.10; α:9.90;
β+,SF:~
0
1.144E+06 1.144E+06 7.658E+05 NUBASE
3687 99-Es-247 3.5+ 4.6 m 6.52
β+:93.00; α:7.00;
SF:~
0
7.666E+05 7.666E+05 5.246E+05 NUBASE
3688 99-Es-248 ? 27 m 18.52
β+:99.75; α:0.25;
β+,SF:~
0
1.017E+06 1.017E+06 1.790E+04 NUBASE
3689 99-Es-249 3.5+ 1.703 h 0.59
α:0.57; β+:99.43
5
3.050E+04 4.119E+05 3.860E+04 ENSDF
3690 99-Es-250 6.0+ 8.6 h 1.16
β+:97.00; α:3.00
0
6.655E+05 6.655E+05 2.051E+05 NUBASE
3691 99-Es-250M 1.0- 2.000E+05 2.22 h 2.25
β+:100.00
4
2.035E+04 5.434E+05 ENSDF
3692 99-Es-251 1.5- 1.375 d 3.03
β+:99.50; α:0.50
0
1.876E+04 3.751E+04 3.298E+04 NUBASE
3693 99-Es-252 5.0- 1.291 y 0.40
α:78.00; β+:22.00
0
1.382E+04 2.763E+04 5.292E+06 NUBASE
3694 99-Es-253 3.5+ 20.47 d 0.15
α:100.00; SF:~
6
4.561E+03 1.075E+03 6.734E+06 UKHEDD25
3695 99-Es-254 7.0+ 275.7 d 0.18
α:100.00
4
1.199E+04 6.215E+04 6.503E+06 ENSDF
142 THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009
MAIN DATA TABLES
Matn Nuclide
SpPa
Exc ener
Half-life (%-err)
Decay modes (%)
Nsp
<β> (eV)
<γ> (eV)
<α>
(eV)
Source
3696 99-Es-254M 2.0+ 8.370E+04 1.637 d 0.51
β-:96.65; IT:2.96;
α:0.32; β+:0.07
0
3.774E+05 3.800E+05 2.114E+04 NUBASE
3697 99-Es-255 3.5+ 39.8 d 3.02
β-:92.00; α:8.00;
SF:~
0
8.893E+04 8.893E+04 5.149E+05 NUBASE
3698 99-Es-256 ? 25.4 m 9.45
β-:100.00
0
5.680E+05 5.680E+05 NUBASE
3699 99-Es-256M 8.0+ 7.6 h 100
β-:100.00; β-,SF:~
0
5.680E+05 5.680E+05 NUBASE
3700 99-Es-257 3.5+ 7.7 d 2.60
β-:100.00; α:~
0
2.703E+05 2.703E+05 2.418E+01 NUBASE
3701 99-Es-258 ? 3 m 100
β-:50.00; α:50.00
0
3.783E+05 3.783E+05 2.943E+06 NUBASE
3702 100-Fm-242 0.0+ 8E-04 s 25
SF:50.00; α:50.00
0
4.388E+06 NUBASE
3703 100-Fm-243 3.5- 0.21 s 28.57
α:60.00; β+:39.43;
SF:0.57
0
5.888E+05 5.888E+05 5.211E+06 NUBASE
3704 100-Fm-244 0.0+ 3.3E-03 s 15.15
SF:99.60; α:0.40
0
3.422E+04 NUBASE
3705 100-Fm-245 0.5+ 4.2 s 30.95
α:95.67; β+:4.20;
SF:0.13
0
5.292E+04 5.292E+04 8.070E+06 NUBASE
3706 100-Fm-246 0.0+ 1.1 s 18.18
α:85.50; SF:4.50;
β+,SF:10.00
0
7.161E+06 NUBASE
3707 100-Fm-247 2.5+ 35 s 11.43
α:50.00; β+:50.00
0
4.950E+05 4.950E+05 4.103E+06 NUBASE
3708 100-Fm-248 0.0+ 36 s 8.33
α:92.91; β+:6.99;
SF:0.10
0
3.744E+04 3.744E+04 7.434E+06 NUBASE
3709 100-Fm-249 3.5+ 2.6 m 26.92
β+:67.00; α:33.00
0
5.449E+05 5.449E+05 2.577E+06 NUBASE
3710 100-Fm-250 0.0+ 30 m 10
α:89.99; β+
m:10.00;
SF:0.01
0
3.220E+03 6.440E+03 6.801E+06 NUBASE
3711 100-Fm-250M ? 1.500E+06 1.8 s 5.56
IT:80.00; α:20.00;
SF:~
0
1.200E+06 1.811E+06 NUBASE
3712 100-Fm-251 4.5- 5.3 h 1.51
β+:98.20; α:1.80
0
4.828E+05 4.828E+05 1.337E+05 NUBASE
3713 100-Fm-252 0.0+ 1.058 d 0.20
α:100.00
3
4.208E+03 3.952E+01 7.144E+06 ENSDF
3714 100-Fm-253 0.5+ 3 d 4
β+:88.00; α:12.00
0
1.480E+04 2.959E+04 8.639E+05 NUBASE
3715 100-Fm-254 0.0+ 3.24 h 0.06
α:99.94
4
4.329E+03 1.397E+03 7.298E+06 ENSDF
3716 100-Fm-255 3.5+ 20.07 h 0.35
α:100.00
4
7.211E+04 1.145E+04 7.167E+06 ENSDF
3717 100-Fm-256 0.0+ 2.627 h 0.82
SF:91.90; α:8.10
0
5.692E+05 NUBASE
3718 100-Fm-257 4.5+ 100.5 d 0.20
α:99.79
4
1.157E+05 1.191E+05 6.660E+06 ENSDF
3719 100-Fm-258 0.0+ 3.7E-04 s 3.78
SF:100.00
0
NUBASE
3720 100-Fm-259 1.5+ 1.5 s 20
SF:100.00
0
NUBASE
3721 101-Md-245 0.5- 9E-04 s 27.78
SF:50.00; α:50.00
0
4.513E+06 NUBASE
3722 101-Md-245M 3.5+ 1.000E+05 0.4 s 50
α:50.00; β+:50.00
0
8.617E+05 8.617E+05 4.563E+06 NUBASE
3723 101-Md-246 ? 1 s 40
α:33.33; β+:33.33;
SF:33.33
0
6.822E+05 6.822E+05 2.962E+06 NUBASE
3724 101-Md-247 0.5- 0.27 s 59.26
SF:50.00; α:50.00
0
4.418E+06 NUBASE
3725 101-Md-247M 3.5+ 5.000E+04 1.12 s 19.64
α:100.00; SF:~
0
8.885E+06 NUBASE
3726 101-Md-248 ? 7 s 42.86
β+:79.95; α:20.00;
β+,SF:0.05
0
1.398E+06 1.398E+06 1.739E+06 NUBASE
3727 101-Md-249 3.5- 24 s 16.67
α:60.00; β+:40.00
0
4.947E+05 4.947E+05 5.079E+06 NUBASE
3728 101-Md-249M 0.5- 1.000E+05 1.9 s 47.37
α:100.00
0
8.565E+06 NUBASE
THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009 143
MAIN DATA TABLES
Matn Nuclide
SpPa
Exc ener
Half-life (%-err)
Decay modes (%)
Nsp
<β> (eV)
<γ> (eV)
<α>
(eV)
Source
3729 101-Md-250 ? 52 s 11.54
β+:46.49; β+
m:46.49;
α:7.00; β+,SF:0.02
0
1.183E+06 1.183E+06 5.821E+05 NUBASE
3730 101-Md-251 3.5- 4 m 12.50
β+:95.00; α:5.00
0
9.636E+05 9.636E+05 3.998E+05 NUBASE
3731 101-Md-252 ? 2.3 m 34.78
β+:50.00; α:50.00
0
6.355E+05 6.355E+05 3.953E+06 NUBASE
3732 101-Md-253 3.5- 12 m 66.67
β+:99.40; α:0.60
0
6.461E+05 6.461E+05 4.617E+04 NUBASE
3733 101-Md-254 0.0- 10 m 30
β+:100.00
0
8.686E+05 8.686E+05 NUBASE
3734 101-Md-254M 3.0- 5.000E+04 28 m 28.57
β+:100.00
0
8.853E+05 8.853E+05 NUBASE
3735 101-Md-255 3.5- 27 m 7.41
β+:91.86; α:7.99;
SF:0.15
0
3.197E+05 3.197E+05 6.315E+05 NUBASE
3736 101-Md-256 1.0- 1.283 h 2.60
β+:87.80; α:9.20;
SF:3.00
0
6.245E+05 6.245E+05 7.273E+05 NUBASE
3737 101-Md-257 3.5- 5.52 h 0.91
β+:81.73; α:14.42;
SF:3.85
0
1.664E+04 3.328E+04 1.090E+06 NUBASE
3738 101-Md-258 8.0- 51.5 d 0.58
α:100.00; β+:~;
β-:~
0
7.330E+00 7.330E+00 7.271E+06 NUBASE
3739 101-Md-258M 1.0- 57 m 1.58
β+:68.80; SF:20.00;
β-:10.00; α m:1.20
0
5.021E+04 9.348E+04 8.625E+04 NUBASE
3740 101-Md-259 3.5- 1.6 h 3.12
SF:98.70; α:1.30
0
9.238E+04 NUBASE
3741 101-Md-260 ? 27.8 d 2.88
SF:91.50; α:2.50;
α m:2.50; β-:3.50
0
1.097E+04 1.097E+04 3.468E+05 NUBASE
3742 101-Md-261 3.5- 40 m 100
α:100.00
0
6.655E+06 NUBASE
3743 102-No-249 2.5+ 5.7E-05 s 21.05
β+:25.00; β+
m:25.00;
α:50.00
0
7.400E+05 7.400E+05 4.588E+06 NUBASE
3744 102-No-250 0.0+ 5.7E-06 s 14.04
SF:99.90; α:0.10;
β+:~
0
2.400E+00 2.400E+00 8.955E+03 NUBASE
3745 102-No-251 3.5+ 0.8 s 37.50
α:100.00
1
8.745E+06 ENSDF
3746 102-No-251M 4.5- 1.100E+05 1.7 s 58.82
α:100.00
0
9.015E+06 NUBASE
3747 102-No-252 0.0+ 2.44 s 1.64
α:67.00; SF:32.20;
β+:0.80
0
6.003E+03 6.003E+03 5.729E+06 NUBASE
3748 102-No-253 4.5- 1.62 m 9.26
α:80.00; β+:20.00;
SF:~
0
2.113E+05 2.113E+05 6.740E+06 NUBASE
3749 102-No-254 0.0+ 51 s 19.61
α:89.85; β+:9.98;
SF:0.17
0
4.040E+04 4.040E+04 7.390E+06 NUBASE
3750 102-No-254M ? 5.000E+05 0.28 s 14.29
IT:80.00; α:10.00;
α m:10.00
0
4.000E+05 1.595E+06 NUBASE
3751 102-No-255 0.5+ 3.1 m 6.45
α:61.00; β+:39.00
0
2.614E+05 2.614E+05 5.150E+06 NUBASE
3752 102-No-256 0.0+ 2.91 s 1.72
α:99.50
1
8.533E+06 ENSDF
3753 102-No-257 3.5+ 25 s 8
α:100.00
1
8.383E+06 ENSDF
3754 102-No-258 0.0+ 1.2E-03 s 16.67
SF:100.00; α:~
0
8.151E+01 NUBASE
3755 102-No-259 4.5+ 58 m 8.62
α:68.18; β+:22.73;
SF:9.09
0
5.568E+03 1.114E+04 5.377E+06 NUBASE
3756 102-No-260 0.0+ 0.106 s 7.55
SF:100.00
0
NUBASE
3757 102-No-261 1.5+ 3 h 100
α:100.00
0
7.486E+06 NUBASE
3758 102-No-262 0.0+ 5E-03 s 100
SF:100.00
0
NUBASE
144 THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009
MAIN DATA TABLES
Matn Nuclide
SpPa
Exc ener
Half-life (%-err)
Decay modes (%)
Nsp
<β> (eV)
<γ> (eV)
<α>
(eV)
Source
3759 103-Lr-251 ? 1.5E-04 s 100
β+:25.00; β+
m:25.00;
α:25.00; α m:25.00
0
8.225E+05 8.225E+05 4.705E+06 NUBASE
3760 103-Lr-252 ? 0.39 s 23.08
β+:71.00; α:28.00;
SF:1.00
0
1.410E+06 1.410E+06 2.594E+06 NUBASE
3761 103-Lr-253 3.5- 0.58 s 12.07
α:96.15; SF:2.78;
β+:1.07
0
1.503E+04 1.503E+04 8.591E+06 NUBASE
3762 103-Lr-253M 0.5- 3.000E+04 1.5 s 20
α m:90.91; SF:8.08;
β+:1.01
0
1.431E+04 1.431E+04 8.059E+06 NUBASE
3763 103-Lr-254 ? 13 s 23.08
α:76.00; β+:12.00;
β+m:12.00
0
3.901E+05 3.901E+05 6.677E+06 NUBASE
3764 103-Lr-255 3.5- 22 s 18.18
α:69.00; β+:30.00;
SF:1.00
0
3.206E+05 3.206E+05 5.938E+06 NUBASE
3765 103-Lr-256 ? 27 s 11.11
α:84.97; β+:15.00;
SF:0.03
0
2.022E+05 2.022E+05 7.491E+06 NUBASE
3766 103-Lr-257 4.5+ 0.646 s 3.87
α:100.00
1
8.990E+06 ENSDF
3767 103-Lr-258 ? 4.1 s 7.32
α:47.50; α m:47.50;
β+:5.00
0
5.600E+04 5.600E+04 8.436E+06 NUBASE
3768 103-Lr-259 4.5+ 6.2 s 4.84
α:77.53; SF:21.87;
β+:0.60
0
3.459E+03 3.459E+03 6.654E+06 NUBASE
3769 103-Lr-260 ? 3 m 16.67
α:80.00; β+:20.00
0
1.780E+05 1.780E+05 6.588E+06 NUBASE
3770 103-Lr-261 ? 39 m 30.77
SF:50.00; α:50.00
0
4.069E+06 NUBASE
3771 103-Lr-262 ? 4 h 100
β+:45.00; SF:10.00;
α:22.50; α m:22.50
0
3.255E+05 3.255E+05 3.603E+06 NUBASE
3772 103-Lr-263 ? 5 h 100
α:100.00
0
7.625E+06 NUBASE
3773 104-Rf-253 3.5+ 0.013 s 38.46
SF:50.00; α:50.00
0
4.773E+06 NUBASE
3774 104-Rf-254 0.0+ 2.3E-05 s 13.04
SF:98.50; α:1.50
0
1.406E+05 NUBASE
3775 104-Rf-255 4.5- 1.64 s 6.71
α m:48.00; SF:52.00
0
4.298E+06 NUBASE
3776 104-Rf-255M 2.5+ 1 s 40
α:100.00
0
9.065E+06 NUBASE
3777 104-Rf-256 0.0+ 6.45E-03 s 3.88
SF:99.68; α:0.32
0
2.858E+04 NUBASE
3778 104-Rf-257 0.5+ 4.7 s 6.38
α:87.60; β+:11.00;
SF:1.40
0
1.170E+05 1.170E+05 7.915E+06 NUBASE
3779 104-Rf-257M 5.5- 1.140E+05 3.9 s 10.26
α:99.30; SF:0.70
0
9.086E+06 NUBASE
3780 104-Rf-258 0.0+ 0.012 s 16.67
SF:87.00; α:13.00
0
1.203E+06 NUBASE
3781 104-Rf-259 3.5+ 2.8 s 14.29
α:91.72; SF:7.98;
β+:0.30
0
2.542E+03 2.542E+03 8.366E+06 NUBASE
3782 104-Rf-260 0.0+ 0.021 s 4.76
SF:97.99; α:2.00;
β+:0.01
0
4.350E+00 8.700E+00 1.780E+05 NUBASE
3783 104-Rf-261 1.5+ 5.5 s 45.45
α:60.00; SF:40.00
0
5.189E+06 NUBASE
3784 104-Rf-261M 4.5+ 7.000E+04 1.35 m 11.11
α:75.00; β+:15.00;
SF:10.00
0
9.125E+04 9.125E+04 6.539E+06 NUBASE
3785 104-Rf-262 0.0+ 2.3 s 17.39
SF:99.20; α:0.80
0
6.788E+04 NUBASE
3786 104-Rf-262M ? 6.000E+05 0.047 s 10.64
SF:100.00
0
NUBASE
3787 104-Rf-263 1.5+ 11 m 27.27
SF:70.00; α:30.00
0
2.492E+06 NUBASE
3788 104-Rf-264 0.0+ 1 h 100
α:100.00
0
8.145E+06 NUBASE
THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009 145
MAIN DATA TABLES
Matn Nuclide
SpPa
Exc ener
Half-life (%-err)
Decay modes (%)
Nsp
<β> (eV)
<γ> (eV)
<α>
(eV)
Source
3789 104-Rf-265 1.5+ 13 h 100
α:100.00
0
7.785E+06 NUBASE
3790 105-Db-255 ? 1.7 s 29.41
α:80.00; SF:20.00
0
7.772E+06 NUBASE
3791 105-Db-256 ? 1.9 s 21.05
α:32.00; β+:36.00;
SF:32.00
0
7.781E+05 7.781E+05 3.026E+06 NUBASE
3792 105-Db-257 4.5+ 1.53 s 11.11
α:46.53; α m:46.53;
SF:5.94; β+
m:0.99
0
1.418E+04 1.418E+04 8.572E+06 NUBASE
3793 105-Db-257M 0.5- 1.000E+05 0.79 s 16.46
α:43.07; α m:43.07;
SF:12.87; β+:0.99
0
1.488E+04 1.488E+04 8.020E+06 NUBASE
3794 105-Db-258 ? 4.5 s 13.33
α:63.37; β+:35.64;
SF:0.99
0
6.356E+05 6.356E+05 6.004E+06 NUBASE
3795 105-Db-258M ? 6.000E+04 20 s 50
β+:100.00
0
1.803E+06 1.803E+06 NUBASE
3796 105-Db-259 ? 0.51 s 31.37
α:100.00
0
9.615E+06 NUBASE
3797 105-Db-260 ? 1.52 s 8.55
α:88.20; SF:9.37;
β+:2.44
0
3.683E+04 3.683E+04 8.277E+06 NUBASE
3798 105-Db-261 ? 1.8 s 22.22
α:82.00; SF:18.00
0
7.556E+06 NUBASE
3799 105-Db-262 ? 35 s 14.29
α:67.00; SF:30.00;
β+:1.50; β+
m:1.50
0
3.580E+04 3.580E+04 6.033E+06 NUBASE
3800 105-Db-263 ? 29 s 31.03
SF:56.00; α:37.10;
β+:6.90
0
5.221E+04 5.221E+04 3.278E+06 NUBASE
3801 105-Db-264 ? 3 m 100
α:100.00
0
8.655E+06 NUBASE
3802 105-Db-265 ? 15 m 100
α:100.00
0
8.495E+06 NUBASE
3803 106-Sg-258 0.0+ 3.3E-03 s 30.30
SF:80.00; α:20.00
0
1.935E+06 NUBASE
3804 106-Sg-259 0.5+ 0.58 s 36.21
α m:81.82; SF:18.18
0
8.047E+06 NUBASE
3805 106-Sg-260 0.0+ 3.8E-03 s 21.05
SF:60.00; α:40.00
0
3.968E+06 NUBASE
3806 106-Sg-261 3.5+ 0.23 s 26.09
α:49.50; α m:49.50;
SF:1.00
0
9.651E+06 NUBASE
3807 106-Sg-262 0.0+ 8E-03 s 37.50
SF:78.00; α:22.00
0
2.111E+06 NUBASE
3808 106-Sg-263 4.5+ 1 s 20
α:70.00; SF:30.00
0
6.577E+06 NUBASE
3809 106-Sg-263M 1.5+ 1.000E+05 0.12 s 100
α:50.00; IT:50.00
0
5.000E+04 4.748E+06 NUBASE
3810 106-Sg-264 0.0+ 0.4 s 100
α:100.00
0
9.205E+06 NUBASE
3811 106-Sg-265 1.5+ 8 s 37.50
α m:50.00; SF:50.00
0
4.505E+06 NUBASE
3812 106-Sg-266 0.0+ 21 s 28.57
α:17.00; α m:17.00;
SF:66.00
0
2.919E+06 NUBASE
3813 106-Sg-269 ? 35 s 65.71
α:100.00
0
8.795E+06 NUBASE
3814 107-Bh-260 ? 3E-04 s 100
α:100.00
0
1.047E+07 NUBASE
3815 107-Bh-261 ? 0.013 s 30.77
α:45.24; α m:45.24;
SF:9.52
0
9.514E+06 NUBASE
3816 107-Bh-262 ? 0.29 s 55.17
α:40.00; α m:40.00;
SF:20.00
0
8.212E+06 NUBASE
3817 107-Bh-262M ? 3.000E+05 0.014 s 28.57
α:45.00; α m:45.00;
SF:10.00
0
9.509E+06 NUBASE
3818 107-Bh-263 ? 0.2 s 100
α:100.00
0
1.009E+07 NUBASE
3819 107-Bh-264 ? 1.3 s 38.46
α:50.00; β+:50.00
0
8.817E+05 8.817E+05 4.983E+06 NUBASE
3820 107-Bh-265 ? 0.5 s 100
α:100.00
0
9.765E+06 NUBASE
146 THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009
MAIN DATA TABLES
Matn Nuclide
SpPa
Exc ener
Half-life (%-err)
Decay modes (%)
Nsp
<β> (eV)
<γ> (eV)
<α>
(eV)
Source
3821 107-Bh-266 ? 5 s 60
α:100.00
0
9.555E+06 NUBASE
3822 107-Bh-267 ? 22 s 45.45
α:100.00
0
9.375E+06 NUBASE
3823 107-Bh-269 ? 25 s 100
α:100.00
0
8.835E+06 NUBASE
3824 108-Hs-263 3.5+ 1E-03 s 100
α:100.00
0
1.067E+07 NUBASE
3825 108-Hs-264 0.0+ 5.4E-04 s 55.56
α:50.00; SF:50.00
0
5.298E+06 NUBASE
3826 108-Hs-265 4.5+ 2.1E-03 s 14.29
α:99.00; SF:1.00
0
1.048E+07 NUBASE
3827 108-Hs-265M 1.5+ 4.000E+05 7.8E-04 s 19.23
α:100.00
0
1.099E+07 NUBASE
3828 108-Hs-266 0.0+ 2.7E-03 s 37.04
α:98.60; SF:1.40
0
1.020E+07 NUBASE
3829 108-Hs-267 1.5+ 0.032 s 46.88
α m:100.00
0
1.002E+07 NUBASE
3830 108-Hs-268 0.0+ 2 s 100
α:100.00
0
9.905E+06 NUBASE
3831 108-Hs-269 ? 27 s 62.96
α:100.00
0
9.625E+06 NUBASE
3832 108-Hs-273 1.5+ 50 s 100
α:100.00
0
9.905E+06 NUBASE
3833 109-Mt-265 ? 2E-03 s 100
α:100.00
0
1.107E+07 NUBASE
3834 109-Mt-266 ? 1.2E-03 s 33.33
α:47.25; α m:47.25;
SF:5.50
0
1.025E+07 NUBASE
3835 109-Mt-266M ? 1.230E+06 6E-03 s 50
α:50.00; α m:50.00
0
1.208E+07 NUBASE
3836 109-Mt-267 ? 0.01 s 100
α:100.00
0
1.087E+07 NUBASE
3837 109-Mt-268 ? 0.053 s 39.62
α:100.00
0
1.073E+07 NUBASE
3838 109-Mt-269 ? 0.2 s 100
α:100.00
0
1.054E+07 NUBASE
3839 109-Mt-270 ? 2 s 100
α:100.00
0
1.035E+07 NUBASE
3840 109-Mt-271 ? 5 s 100
α:100.00
0
1.014E+07 NUBASE
3841 109-Mt-273 ? 20 s 100
α:50.00; SF:50.00
0
5.413E+06 NUBASE
3842 110-Ds-267 4.5+ 1E-05 s 80
α:100.00
0
1.228E+07 NUBASE
3843 110-Ds-268 0.0+ 1E-04 s 100
α:100.00
0
1.192E+07 NUBASE
3844 110-Ds-269 1.5+ 2.3E-04 s 47.83
α m:100.00
0
1.119E+07 NUBASE
3845 110-Ds-270 0.0+ 1.6E-04 s 62.50
α:99.80; SF:0.20
0
1.117E+07 NUBASE
3846 110-Ds-270M 10.0- 1.140E+06 0.01 s 60
α:50.00; IT:50.00
0
5.700E+05 6.168E+06 NUBASE
3847 110-Ds-271 5.5- 0.21 s 80.95
α:100.00
0
1.088E+07 NUBASE
3848 110-Ds-271M 4.5+ 2.900E+04 1.3E-03 s 38.46
α:100.00
0
1.090E+07 NUBASE
3849 110-Ds-272 0.0+ 1 s 100
SF:100.00
0
NUBASE
3850 110-Ds-273 6.5- 3.6E-04 s 77.78
α:100.00
0
1.138E+07 NUBASE
3851 110-Ds-273M 1.5+ 1.980E+05 0.12 s 100
α:100.00
0
1.157E+07 NUBASE
3852 111-Rg-272 ? 2E-03 s 40
α:100.00
0
1.145E+07 NUBASE
THE JEFF-3.1/-3.1.1 RADIOACTIVE DECAY DATA AND FISSION YIELDS SUB-LIBRARIES – © OECD/NEA 2009 147
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