UCRL-ID-127776, Rev. 1

 

 

 

 

 

A Temperature Dependent

ENDF/B-VI, Release 7

Cross Section Library

 

 

 

by

Dermott E. Cullen

University of California

Lawrence Livermore National Laboratory

P.O. Box 808

L-128

Livermore, CA 94550

 

tele: 510-423-7359

FAX: 510-422-9560

E. Mail: cullen1@llnl.gov

 

 

 

 

 

November 22, 2000

 

 

 

 

 

 

 

 

 

 

 

 

Approved for public release; further dissemination unlimited.

 

DISCLAIMER

 

This document was prepared as an account of work sponsored by an agency of the United States Government. Neither the United States Government nor the University of California nor any of their employees, makes any warranty, express or implied, or assumes any legal liability or responsibility for the accuracy, completeness, or usefulness of any information, apparatus, product, or process disclosed, or represents that its use would not infringe privately owned rights. Reference herein to any specific commercial product, process, or service by trade name, trademark, manufacturer, or otherwise, does not necessarily constitute or imply its endorsement, recommendation, or favoring by the United States Government or the University of California. The views and opinions of authors expressed herein do not necessarily state or reflect those of the United States Government or the University of California, and shall not be used for advertising or product endorsement purposes.

 

Work performed under the auspices of the U. S. Department of Energy by the University of California Lawrence Livermore National Laboratory under Contract W-7405-Eng-48.

 

 

This report has been reproduced

directly from the best available copy.

 

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P.O.Box 62, Oak Ridge, TN 37831

Prices available from (423) 576-8401

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Available to the public from the

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OR

 

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http://www.llnl.gov/tid/Library.html

 

 

UCRL-ID-127776, Rev. 1

 

A Temperature Dependent

ENDF/B-VI, Release 7

Cross Section Library

 

by

Dermott E. Cullen

University of California

Lawrence Livermore National Laboratory

P.O.Box 808

L-128

Livermore, CA 94550

 

tele:510-423-7359

FAX:510-422-9560

E. Mail: cullen1@llnl.gov

 

November 22, 2000

 

Introduction

 

The ENDF/B data library has recently been updated and is now freely available through the National Nuclear Data Center (NNDC), Brookhaven National Laboratory. This most recent library is identified as ENDF/B-VI, Release 7. Release 7 completely supersedes all preceding releases.

 

As distributed the ENDF/B-VI, Release 7 data includes cross sections represented in the form of a combination of resonance parameters and/or tabulated energy dependent cross sections, nominally at 0 Kelvin temperature.

 

For use in applications this library has been processed into the form of temperature dependent cross sections at eight temperatures between 0 and 2100 Kelvin, in steps of 300 Kelvin. At each temperature the cross sections are tabulated and linearly interpolable in energy.

 

All results are in the computer independent ENDF/B-VI character format [1], which allows the data to be easily transported between computers. In its processed form this library is approximately 1.6 gigabyte in size and is distributed on three CDs.

 

Earlier Versions of ENDF/B-VI

 

Between the original distribution (Release 0) and Release 2 libraries, 74 evaluations were updated and distributed in July 1994 (see, UCRL-ID-117797). Between Release 2 and 3 libraries, 18 evaluations were updated and distributed in January 1996 (see, UCRL-ID-124171). Between Release 0 and 3 no completely new evaluations were added to the library. Between Release 3 and 4(see, UCRL-ID-127776), 87 evaluations were updated and five completely new evaluations were added, namely for Gd152, Gd154, Ir191, Ir193 and Pu236. In additional the evaluation for natural Cd was deleted and replaced by evaluations for the individual isotopes. The result was a library of 321 evaluations. For details, see the above mentioned three reports: UCRL-ID-117797, UCRL-ID-124171, and UCRL-ID-127776.

 

ENDF/B-VI, Release 7 Data

 

Between the last version of this library (POINT97), which was based on release 4 data, and the current version (POINT2000), which is based on release 7 data, the following changes were made to the evaluations (listed below in ascending ZA order),

 

Material MAT Changes

1-H -1 125 Minor changes to low energy cross sections. Extended to 150 MeV.

1-H -2 128 Cross section changes above 40 keV. Extended to 150 MeV.

6-C -Nat 600 Major changes to low energy cross sections. Extended to 150 MeV.

7-N -14 725 Cross section changes only above 20 MeV. Extended to 150 MeV.

8-O -16 825 Cross section changes above 6 MeV. Extended to 150 MeV.

13-Al-27 1325 Cross section changes only above 20 MeV. Extended to 150 MeV.

14-Si-28 1425 New evaluation up to 150 MeV.

14-Si-29 1428 New evaluation up to 150 MeV.

14-Si-30 1431 New evaluation up to 150 MeV.

15-P -31 1525 Extended to 150 MeV.

16-S -Nat 1600 I removed bogus "fission widths" from resonance parameters

20-Ca-Nat 2000 Extended to 150 MeV.

24-Cr-50 2425 Extended to 150 MeV.

24-Cr-52 2431 Extended to 150 MeV.

24-Cr-53 2434 Extended to 150 MeV.

24-Cr-54 2437 Extended to 150 MeV.

25-Mn-55 2525 Minor changes to energy-angle correlated data.

26-Fe-54 2625 Extended to 150 MeV.

26-Fe-56 2631 Extended to 150 MeV.

26-Fe-57 2634 Extended to 150 MeV.

26-Fe-58 2637 Minor changes to energy-angle correlated data.

28-Ni-58 2825 Extended to 150 MeV.

28-Ni-60 2831 Extended to 150 MeV.

28-Ni-61 2834 Extended to 150 MeV.

28-Ni-62 2837 Extended to 150 MeV.

28-Ni-64 2843 Extended to 150 MeV.

29-Cu-63 2925 Extended to 150 MeV.

29-Cu-65 2931 Extended to 150 MeV.

41-Nb-93 4125 Extended to 150 MeV.

46-Pd-102 4625 New cross sections. Extended to 30 MeV.

46-Pd-104 4631 New cross sections. Extended to 30 MeV.

46-Pd-105 4634 New cross sections. Extended to 30 MeV.

46-Pd-106 4637 New cross sections. Extended to 30 MeV.

46-Pd-108 4643 New resonance parameters and cross sections. Extended to 30 MeV.

46-Pd-110 4649 New cross sections above 210 eV. Extended to 30 MeV.

55-Cs-133 5525 New resonance parameters and cross sections.

55-Cs-134 5528 New resonance parameters and cross sections.

55-Cs-135 5531 New resonance parameters and cross sections.

56-Ba-134 5637 New resonance parameters and cross sections.

59-Pr-141 5925 New resonance parameters and cross sections.

62-Sm-147 6234 I removed bogus "fission widths" from resonance parameters

 

62-Sm-149 6240 New resonance parameters and cross sections.

63-Eu-153 6331 New resonance parameters and cross sections.

63-Eu-154 6334 New resonance parameters and cross sections.

63-Eu-155 6337 New resonance parameters and cross sections.

66-Dy-160 6637 New resonance parameters and cross sections.

66-Dy-161 6640 New resonance parameters and cross sections.

66-Dy-162 6643 New resonance parameters and cross sections.

66-Dy-163 6646 New resonance parameters and cross sections.

66-Dy-164 6649 New resonance parameters and cross sections.

67-Ho-165 6725 Changes in resonance parameters.

71-Lu-175 7125 New resonance parameters and cross sections.

71-Lu-176 7128 New resonance parameters and cross sections.

74-W -182 7431 New resonance parameters and cross sections. Extended to 150 MeV.

74-W -183 7434 New resonance parameters and cross sections. Extended to 150 MeV.

74-W -184 7437 New resonance parameters and cross sections. Extended to 150 MeV.

74-W -186 7443 New resonance parameters and cross sections. Extended to 150 MeV.

82-Pb-206 8231 Extended to 150 MeV.

82-Pb-207 8234 Extended to 150 MeV.

82-Pb-208 8237 New cross sections above 1 MeV. Extended to 150 MeV.

83-Bi-209 8325 Extended to 150 MeV.

92-U -235 9228 New nu-bar. New resonance parameters.

92-U -238 9237 Minor changes to resonance parameters.

94-Pu-239 9437 Minor changes to resonance parameters.

95-Am-243 9549 New nu-bar. New cross sections. Extended to 30 MeV.

96-Cm-243 9634 New nu-bar. New resonance parameters and cross sections.

96-Cm-245 9640 New nu-bar. New resonance parameters and cross sections.

96-Cm-246 9643 New nu-bar. New resonance parameters and cross sections.

 

The result is a library of 324 evaluations.

 

PREPRO2000 Codes

 

In addition to the changes in the ENDF/B-VI evaluations, it should be noted that between the last version of this report, where the PREPRO'97 codes were used, and the current version, where the PREPRO2000 codes were used, there have been major improvements in the ENDF/B Pre-processing codes. The major improvements were both in terms of improving the basic methods used by the codes and in terms of incorporating the latest ENDF/B-VI Formats and Procedures used by the current evaluations. The result is more accurate cross section data throughout the POINT2000 library.

 

WARNING - due to recent changes in ENDF/B-VI Formats and Procedures only the latest version of the ENDF/B Pre-processing codes, namely PREPRO2000, can be used to accurately process all current ENDF/B-VI evaluations. If you fail to heed this warning and you use any earlier versions of these codes the results will be inaccurate.

 

The PREPRO2000 codes run on virtually any computer, and are now available FREE on-line from the Nuclear Data Section, IAEA, Vienna, Austria, website at,

 

http://IAEAND.IAEA.OR.AT/ndspub/endf/prepro

 

Requesting this Data

 

Please do not contact the author of this report to request this data; I do not have the resources necessary to directly respond to requests for this data. This data has been distributed to and is Internationally available from nuclear data/code centers throughout the World,

1)      Within the United States: contact the National Nuclear Data Center, Brookhaven National Laboratory, Vicki McLane at services@bnlnd2.dne.bnl.gov

2)  ;     Within Western Europe: contact the OECD Nuclear Energy Agency/ Data Bank (NEA/DB), Paris, France, Enrico Sartori at sartori@nea.fr

3)      Otherwise: contact the Nuclear Data Section, international Atomic Energy Agency, Vienna, Austria, Vladimir Pronyaev at v.pronyaev@iaea.org

 

Data Processing

 

As distributed the original evaluated data includes cross sections represented in the form of a combination of resonance parameters and/or tabulated energy dependent cross sections, nominally at 0 Kelvin temperature. For use in applications, this data has been processed using the 2000 version of the ENDF/B Pre-processing codes (PREPRO2000) to produce temperature dependent, linearly interpolable in energy, tabulated cross sections, in the ENDF/B-VI format.

 

Data is included for eight temperatures between 0 and 2100 Kelvin, in steps of 300 Kelvin.

 

The steps required and codes used to produce room temperature, linearly interpolable tabulated cross sections, in the ENDF/B-VI format, are described below (the name of each code in given in parenthesis; for details of each code see reference [2]).

 

Here are the steps, and PREPRO2000 codes, used to process the data, in the order in which the codes were used.

 

1) Linearly interpolable, tabulated cross sections (LINEAR)

2) Including the resonance contribution (RECENT)

3) Doppler broaden all cross sections to temperature (SIGMA1)

4) Check data, define redundant cross sections by summation (FIXUP)

 

For the "cold" (0 Kelvin) data steps 1), 2) and 4) were used. For the data at other temperatures, after steps 1) and 2), the data was Doppler broadened to each temperature using step 3), and the results were then made consistent with the ENDF/B formats and conventions using step 4), to produce the final distributed data.

 

The result is linearly interpolable in energy, tabulated, temperature dependent cross sections, in the ENDF/B-VI format, ready to be used in applications.

 

Note - this processing only involved the energy dependent neutron cross sections. All other data in the evaluations, e.g., angular and energy distributions, was not effected by this processing, and is identical in all versions of the final results, i.e., is the same in all of the directories, ORIGINAL, as well as K0 through K2100, on the CDs.

 

Accuracy of Results

 

Each of the codes described above that was used to process data to obtain tabulated, linearly interpolable in energy cross sections, processed the data to within a user defined accuracy, or allowable uncertainty. The ENDF/B Pre-processing codes (PREPRO2000) are self-documenting, in the sense that the ENDF/B formatted output data that each code produces includes comments at the beginning of each evaluation defining the accuracy to which the cross sections were calculated. The combination of comments added by all of the codes defines the sequence and accuracy used by all of them. The accuracy is the same for all evaluations. Therefore, for exact details of the accuracy of the data, see the comments at the beginning of any evaluation.

 

Compared to the processing of earlier versions of ENDF/B-VI, the current results were generated to higher accuracy, which is why the resulting data base is larger. Also, they were generated using an energy dependent accuracy, to allow the low energy cross sections, where there are no narrow resonances, to be generated to much higher accuracy, without a significant increase in the overall size of the data base. This was done in order to improve the cross sections for use in thermal and slow neutron applications. Again, for details see the comments in any evaluation.

 

Contents of the Library

 

This library contains all of the evaluations in the ENDF/B-VI general purpose library. The following table summarizes the contents of the ENDF/B-VI general purpose library. This library contains evaluations for 324 materials (isotopes or naturally occurring elemental mixtures of isotopes).

 

This library does not contain data from special purpose ENDF/B-VI libraries, such as fission products, thermal scattering, photon interaction data. To obtain any of these special purpose libraries contact the National Nuclear Data Center, Brookhaven National Laboratory,

ENDF@bnlnd2.dne.bnl.gov

 

In this library each evaluation is stored as a separate file. The following table defines each material and the corresponding filename. The entire library is in the computer independent ENDF/B-VI character format, which allows the data to be easily transported between computers. The entire library requires approximately 1.6 gigabyte of storage and is distributed on three CDs; see below for details of the CD contents.

 

This library contains data for some metastable materials, which are indicated by an "M" at the end of their descriptions.

 

The majority of these evaluations are complete, in the sense that they include all cross sections over the energy range 10-5 eV to at least 20 MeV. However, the following are only partial evaluations that either only contain single reactions and no total cross section (Mg24, K41, Ti46, Ti47, Ti48, Ti50 and Ni59), or do not include energy dependent cross sections above the resonance region (Ar40, Mo92, Mo98, Mo100, In115, Sn120, Sn122 and Sn124).

 

CD Format and Layout

 

The CDs were written using ISO 9660 format that can be read on almost any computer. One restriction of the ISO 9660 format is that it is similar to DOS diskettes, in that it does not distinguish between upper and lower case characters. Therefore when the data is read from the CDs, on so me computers the filenames will end up in upper case, and on other computers they will be lower case.

 

The three CDs are divided into ten directories,

 

CD# 1

DOCUMENT -A copy of this report in various formats.

ORIGINAL -The original ENDF/B data before it was processed.

K0 -0 Kelvin cross sections

K300 -300 Kelvin cross sections

CD# 2

K600 -600 Kelvin cross sections

K900 -900 Kelvin cross sections

K1200 -1200 Kelvin cross sections

CD# 3

K1500 -1500 Kelvin cross sections

K1800 -1800 Kelvin cross sections

K2100 -2100 Kelvin cross sections

 

With the exception of DOCUMENT, each of these directories contains 324 files, one file for each evaluation. Each file is a complete ENDF/B "tape" [1], including a starting "tape" identification line, and ending with a "tape" end line [1]. In this form, each file can be used by a wide variety of available computer codes that treat data in the ENDF/B format.

 

The Effects of Temperature and Doppler Broadening

 

For those readers who are not familiar with the effects of temperature and Doppler broadening on neutron cross sections and transport, I suggest that you read references [3] and [4], listed below.

 

Users of neutron cross sections should be aware that there are several important effects of temperature and Doppler broadening,

 

1) There is the well known effect in the neutron resonance region, where as the temperature increases resonances become broader, hence the name Doppler broadening. Figure 1 illustrates the effect of temperature on the U238 capture cross section. From this figure we can see that as temperature increases the peaks of the resonances become lower, and the minima between resonances become higher. At extremely high temperature the entire resonance structure disappears and the cross sections approaches a simple 1/v (where v is the neutron speed) shape. This temperature effect will have a very important effect on resonance self-shielding in any neutron transport calculation.

 

2) Another, less well known, effect of Doppler broadening is at lower energies where as temperature increases the low energy constant scattering cross section increases, and at very low energies approaches a simple 1/v (where v is the neutron speed) shape. Figure 2 illustrates the effect of temperature on the hydrogen total cross section. From this figure we can see that starting from a "cold" (0 Kelvin) cross section that is constant at about 20 barns, as temperature increases the cross section increases. Compared to the "cold" 20 barn cross section, at thermal energy the Doppler broadened cross section is about 30 barns, i.e., 50 % higher. Note also from this figure that this effect extends well above thermal energy. For example, at 300 Kelvin the thermal energy is 0.0253 eV, but we can see this effect up to about 1 eV. From the lower half of figure 2 we can see that at very low energy the cross section approaches 1/v (where v is the neutron speed) and the cross sections at various temperatures become proportional to one another. This effect on the cross sections at low energy is very important for thermal and low energy neutron systems.

 

3) Yet another important effect of temperature is that at lower energies neutrons do not slow down in energy as quickly and neutron scatter can even result in the upscatter of neutrons, i.e., when neutrons scatter they can gain, rather than lose, energy. This is a well known effect at low energies, where thermal scattering law data or a free gas model is used to model the interaction of neutrons with target atoms that are moving about with thermal motion. This effect can also be important at higher energies, particularly near narrow resonances, where thermal motion of the target atoms can cause neutrons to slightly upscatter, but even slight upscatter can cause a neutron to scatter from below to above the energy of a very narrow resonance. See reference [4], below for a routine designed to be used in conjunction with the SIGMA1 method of Doppler broadening [3], to handle neutron thermal scattering. This routine [4] is completely compatible for use with the cross sections included here, since these cross sections were Doppler broadened using the SIGMA1 method [3].

 

The combination of SIGMA1 [3] Doppler broadened cross sections and THERMAL [4] to handle thermal scattering, is currently used in the TART98 Monte Carlo transport code [5].

 

Acknowledgments

 

I thank Vicki McLane and Marion Blennau, of the National Nuclear Data Center (NNDC), Brookhaven National Laboratory, for supplying the original ENDF/B, Release 7 data, used in this project. I thank Vladimir Pronyaev and Kevin McLaughlin, of the Nuclear Data Section, International Atomic Energy Agency, for supplying the ENDF/B Pre-processing codes, PREPRO2000, used in this project.

 

References

 

[1] Data Formats and Procedures for the Evaluated Nuclear Data File ENDF-6, BNL-NCS-44945, Rev. 11/95, edited by V.McLane, C.L. Dunford, P.F. Rose, National Nuclear Data Center,Brookhaven National Laboratory

 

[2] "PREPRO2000: The 2000 ENDF/B Pre-Processing Codes," by D.E. Cullen, Nuclear Data Section, International Atomic Energy Agency, Vienna, Austria, IAEA-NDS-39, Rev. 10, April 1, 2000.

 

[3] "Exact Doppler Broadening of Tabulated Cross Sections," by D.E. Cullen and C.R. Weisbin, Nuclear Science and Engineering 60, p. 199 (1975)

 

[4]"THERMAL: A Routine Designed to Calculate Neutron Thermal Scattering," by D.E. Cullen, Lawrence Livermore National Laboratory, UCRL-ID-120560-Rev-1, Sept. 1995.

 

[5] "TART98: A Coupled Neutron-Photon 3-D, Time Dependent, Combinatorial Geometry Monte Carlo Transport Code," by D.E. Cullen, Lawrence Livermore National Laboratory, UCRL-ID-126455, Rev. 2, November, 1998.

ENDF/B-VI Release 7 Library (Z = 1 to 51)

 

Filename Material Filename Material Filename Material

 

ZA001001 1-H -1 ZA028064 28-Ni-64 ZA042099 42-Mo-99

ZA001002 1-H -2 ZA029063 29-Cu-63 ZA042100 42-Mo-100

ZA001003 1-H -3 ZA029065 29-Cu-65 ZA043099 43-Tc-99

ZA002003 2-He-3 ZA031000 31-Ga-Nat ZA044096 44-Ru-96

ZA002004 2-He-4 ZA032072 32-Ge-72 ZA044098 44-Ru-98

ZA003006 3-Li-6 ZA032073 32-Ge-73 ZA044099 44-Ru-99

ZA003007 3-Li-7 ZA032074 32-Ge-74 ZA044100 44-Ru-100

ZA004009 4-Be-9 ZA032076 32-Ge-76 ZA044101 44-Ru-101

ZA005010 5-B -10 ZA033075 33-As-75 ZA044102 44-Ru-102

ZA005011 5-B -11 ZA034074 34-Se-74 ZA044103 44-Ru-103

ZA006000 6-C -Nat ZA034076 34-Se-76 ZA044104 44-Ru-104

ZA007014 7-N -14 ZA034077 34-Se-77 ZA044105 44-Ru-105

ZA007015 7-N -15 ZA034078 34-Se-78 ZA044106 44-Ru-106

ZA008016 8-O -16 ZA034080 34-Se-80 ZA045103 45-Rh-103

ZA008017 8-O -17 ZA034082 34-Se-82 ZA045105 45-Rh-105

ZA009019 9-F -19 ZA035079 35-Br-79 ZA046102 46-Pd-102

ZA011023 11-Na-23 ZA035081 35-Br-81 ZA046104 46-Pd-104

ZA012000 12-Mg-Nat ZA036078 36-Kr-78 ZA046105 46-Pd-105

ZA012024 12-Mg-24 ZA036080 36-Kr-80 ZA046106 46-Pd-106

ZA013027 13-Al-27 ZA036082 36-Kr-82 ZA046107 46-Pd-107

ZA014000 14-Si-Nat ZA036083 36-Kr-83 ZA046108 46-Pd-108

ZA014028 14-Si-28 ZA036084 36-Kr-84 ZA046110 46-Pd-110

ZA014029 14-Si-29 ZA036085 36-Kr-85 ZA047107 47-Ag-107

ZA014030 14-Si-30 ZA036086 36-Kr-86 ZA047109 47-Ag-109

ZA015031 15-P -31 ZA037085 37-Rb-85 ZA047111 47-Ag-111

ZA016000 16-S -Nat ZA037086 37-Rb-86 ZA048106 48-Cd-106

ZA016032 16-S -32 ZA037087 37-Rb-87 ZA048108 48-Cd-108

ZA017000 17-Cl-Nat ZA038084 38-Sr-84 ZA048110 48-Cd-110

ZA018040 18-Ar-40 ZA038086 38-Sr-86 ZA048111 48-Cd-111

ZA019000 19-K -Nat ZA038087 38-Sr-87 ZA048112 48-Cd-112

ZA019041 19-K -41 ZA038088 38-Sr-88 ZA048113 48-Cd-113

ZA020000 20-Ca-Nat ZA038089 38-Sr-89 ZA048114 48-Cd-114

ZA021045 21-Sc-45 ZA038090 38-Sr-90 ZA048115.M 48-Cd-115m

ZA022000 22-Ti-Nat ZA039089 39-Y -89 ZA048116 48-Cd-116

ZA022046 22-Ti-46 ZA039090 39-Y -90 ZA049000 49-In-Nat

ZA022047 22-Ti-47 ZA039091 39-Y -91 ZA049113 49-In-113

ZA022048 22-Ti-48 ZA040000 40-Zr-Nat ZA049115 49-In-115

ZA022050 22-Ti-50 ZA040090 40-Zr-90 ZA050112 50-Sn-112

ZA023000 23-V -Nat ZA040091 40-Zr-91 ZA050114 50-Sn-114

ZA024050 24-Cr-50 ZA040092 40-Zr-92 ZA050115 50-Sn-115

ZA024052 24-Cr-52 ZA040093 40-Zr-93 ZA050116 50-Sn-116

ZA024053 24-Cr-53 ZA040094 40-Zr-94 ZA050117 50-Sn-117

ZA024054 24-Cr-54 ZA040095 40-Zr-95 ZA050118 50-Sn-118

ZA025055 25-Mn-55 ZA040096 40-Zr-96 ZA050119 50-Sn-119

ZA026054 26-Fe-54 ZA041093 41-Nb-93 ZA050120 50-Sn-120

ZA026056 26-Fe-56 ZA041094 41-Nb-94 ZA050122 50-Sn-122

ZA026057 26-Fe-57 ZA041095 41-Nb-95 ZA050123 50-Sn-123

ZA026058 26-Fe-58 ZA042000 42-Mo-Nat ZA050124 50-Sn-124

ZA027059 27-Co-59 ZA042092 42-Mo-92 ZA050125 50-Sn-125

ZA028058 28-Ni-58 ZA042094 42-Mo-94 ZA050126 50-Sn-126

ZA028059 28-Ni-59 ZA042095 42-Mo-95 ZA051121 51-Sb-121

ZA028060 28-Ni-60 ZA042096 42-Mo-96 ZA051123 51-Sb-123

ZA028061 28-Ni-61 ZA042097 42-Mo-97 ZA051124 51-Sb-124

ZA028062 28-Ni-62 ZA042098 42-Mo-98 ZA051125 51-Sb-125

 

ENDF/B-VI Release 7 Library (Z = 51 to 99)

 

Filename Material Filename Material Filename Material

 

ZA051126 51-Sb-126 ZA060147 60-Nd-147 ZA074183 74-W -183

ZA052120 52-Te-120 ZA060148 60-Nd-148 ZA074184 74-W -184

ZA052122 52-Te-122 ZA060150 60-Nd-150 ZA074186 74-W -186

ZA052123 52-Te-123 ZA061147 61-Pm-147 ZA075185 75-Re-185

ZA052124 52-Te-124 ZA061148 61-Pm-148 ZA075187 75-Re-187

ZA052125 52-Te-125 ZA061148.M 61-Pm-148m ZA077191 77-Ir-191

ZA052126 52-Te-126 ZA061149 61-Pm-149 ZA077193 77-Ir-193

ZA052127.M 52-Te-127m ZA061151 61-Pm-151 ZA079197 79-Au-197

ZA052128 52-Te-128 ZA062144 62-Sm-144 ZA082206 82-Pb-206

ZA052129.M 52-Te-129m ZA062147 62-Sm-147 ZA082207 82-Pb-207

ZA052130 52-Te-130 ZA062148 62-Sm-148 ZA082208 82-Pb-208

ZA052132 52-Te-132 ZA062149 62-Sm-149 ZA083209 83-Bi-209

ZA053127 53-I -127 ZA062150 62-Sm-150 ZA090230 90-Th-230

ZA053129 53-I -129 ZA062151 62-Sm-151 ZA090232 90-Th-232

ZA053130 53-I -130 ZA062152 62-Sm-152 ZA091231 91-Pa-231

ZA053131 53-I -131 ZA062153 62-Sm-153 ZA091233 91-Pa-233

ZA053135 53-I -135 ZA062154 62-Sm-154 ZA092232 92-U -232

ZA054124 54-Xe-124 ZA063151 63-Eu-151 ZA092233 92-U -233

ZA054126 54-Xe-126 ZA063152 63-Eu-152 ZA092234 92-U -234

ZA054128 54-Xe-128 ZA063153 63-Eu-153 ZA092235 92-U -235

ZA054129 54-Xe-129 ZA063154 63-Eu-154 ZA092236 92-U -236

ZA054130 54-Xe-130 ZA063155 63-Eu-155 ZA092237 92-U -237

ZA054131 54-Xe-131 ZA063156 63-Eu-156 ZA092238 92-U -238

ZA054132 54-Xe-132 ZA063157 63-Eu-157 ZA093237 93-Np-237

ZA054133 54-Xe-133 ZA064152 64-Gd-152 ZA093238 93-Np-238

ZA054134 54-Xe-134 ZA064154 64-Gd-154 ZA093239 93-Np-239

ZA054135 54-Xe-135 ZA064155 64-Gd-155 ZA094236 94-Pu-236

ZA054136 54-Xe-136 ZA064156 64-Gd-156 ZA094237 94-Pu-237

ZA055133 55-Cs-133 ZA064157 64-Gd-157 ZA094238 94-Pu-238

ZA055134 55-Cs-134 ZA064158 64-Gd-158 ZA094239 94-Pu-239

ZA055135 55-Cs-135 ZA064160 64-Gd-160 ZA094240 94-Pu-240

ZA055136 55-Cs-136 ZA065159 65-Tb-159 ZA094241 94-Pu-241

ZA055137 55-Cs-137 ZA065160 65-Tb-160 ZA094242 94-Pu-242

ZA056134 56-Ba-134 ZA066160 66-Dy-160 ZA094243 94-Pu-243

ZA056135 56-Ba-135 ZA066161 66-Dy-161 ZA094244 94-Pu-244

ZA056136 56-Ba-136 ZA066162 66-Dy-162 ZA095241 95-Am-241

ZA056137 56-Ba-137 ZA066163 66-Dy-163 ZA095242 95-Am-242

ZA056138 56-Ba-138 ZA066164 66-Dy-164 ZA095242.M 95-Am-242m

ZA056140 56-Ba-140 ZA067165 67-Ho-165 ZA095243 95-Am-243

ZA057139 57-La-139 ZA068166 68-Er-166 ZA096241 96-Cm-241

ZA057140 57-La-140 ZA068167 68-Er-167 ZA096242 96-Cm-242

ZA058140 58-Ce-140 ZA071175 71-Lu-175 ZA096243 96-Cm-243

ZA058141 58-Ce-141 ZA071176 71-Lu-176 ZA096244 96-Cm-244

ZA058142 58-Ce-142 ZA072000 72-Hf-Nat ZA096245 96-Cm-245

ZA058143 58-Ce-143 ZA072174 72-Hf-174 ZA096246 96-Cm-246

ZA058144 58-Ce-144 ZA072176 72-Hf-176 ZA096247 96-Cm-247

ZA059141 59-Pr-141 ZA072177 72-Hf-177 ZA096248 96-Cm-248

ZA059142 59-Pr-142 ZA072178 72-Hf-178 ZA097249 97-Bk-249

ZA059143 59-Pr-143 ZA072179 72-Hf-179 ZA098249 98-Cf-249

ZA060142 60-Nd-142 ZA072180 72-Hf-180 ZA098250 98-Cf-250

ZA060143 60-Nd-143 ZA073181 73-Ta-181 ZA098251 98-Cf-251

ZA060144 60-Nd-144 ZA073182 73-Ta-182 ZA098252 98-Cf-252

ZA060145 60-Nd-145 ZA074000 74-W -Nat ZA098253 98-Cf-253

ZA060146 60-Nd-146 ZA074182 74-W -182 ZA099253 99-Es-253

 

 

Fig.1: Effect of Doppler Broadening on Resonance Cross Sections

 

Fig.2: Effect of Doppler Broadening on Low Energy Cross Sections