ENTRY 22386 20121217 22342238600000001 SUBENT 22386001 20121217 22342238600100001 BIB 11 44 2238600100002 TITLE Stellar neutron capture cross sections of the 2238600100003 gadolinium isotopes 2238600100004 AUTHOR (K.Wisshak,F.Voss,F.Kaeppeler,K.Guber,L.Kazakov, 2238600100005 N.Kornilov,M.Uhl,G.Reffo) 2238600100006 INSTITUTE (2GERKFK) Wisshak, Voss, Kaeppeler 2238600100007 (1USAORL) Guber 2238600100008 (4RUSFEI) Kazakov, Kornilov 2238600100009 (2ITYBOL) Reffo 2238600100010 REFERENCE (J,PR/C,52,(5),2762,199511) Main reference, data given2238600100011 (R,FZKA-5510,1995) - full report, data. 2238600100012 REL-REF (I,22372001,K.Wisshak+,J,PR/C,45,(5),2470,199205) 2238600100013 experimental details 2238600100014 (I,22195001,K.Wisshak+,J,PR/C,42,(4),1731,199010) 2238600100015 experimental details 2238600100016 (M,22374001,K.Wisshak+,J,PR/C,48,(3),1401,1993) - 2238600100017 experimental details, data analysis, method of total 2238600100018 cross section and relative errors calculation 2238600100019 Determination of statis. and system. uncertainties in 2238600100020 measurements with the 4PiBaF2 detector has been 2238600100021 described in all refs above. 2238600100022 (I,,K.Wisshak+,J,NIM/A,292,595,1990) - Detector 2238600100023 description 2238600100024 FACILITY (VDG,2GERKFK) 3.75 MV Van de Graaff accelerator 2238600100025 pulse width is 1 ns, repetition rate 250 kHz, 2238600100026 average beam current 1.5 microAmp 2238600100027 INC-SOURCE (P-LI7) Metallic Li target of about 1 mg/cm2 2238600100028 INC-SPECT .Proton beam energy adjusted so to be 30 and 100 keV 2238600100029 above the reaction 7-Li(p,n)7-Be threshold 1.881 MeV 2238600100030 giving neutrons in energy ranges 3-100, 3-200 keV 2238600100031 SAMPLE .Monitor sample Au-197, 0.3 mm == 2.2475E-4 atoms/b 2238600100032 thickness,weight 1.2990 gram, enclosing aluminium can 2238600100033 0.1849 g 2238600100034 .Graphite sample 2.5 mm == 21.6874 atoms/b thickness, 2238600100035 0.7644 gram weight, enclosing aluminium can 0.2136 g 2238600100036 .Empty aluminium can 0.1810 gram 2238600100037 CORRECTION .Corrections were made on multiple scattering, 2238600100038 on neutron self-absorption, on undetected events 2238600100039 HISTORY (19980628C) + + Compiled by S.Maev + + 2238600100040 (19990527A) date is corrected 2238600100041 (20121217A) SD: Updated to new date formats,lower case.2238600100042 Corrected according last EXFOR rules and Dict. 2238600100043 In Subents 014 - 019: Col. EN-MEAN -> KT; values 2238600100044 were changed. ERR-ANALYS moved to Subents 2-27. 2238600100045 BIB update in all Subents. 2238600100046 ENDBIB 44 0 2238600100047 NOCOMMON 0 0 2238600100048 ENDSUBENT 47 0 2238600199999 SUBENT 22386002 20121217 22342238600200001 BIB 7 34 2238600200002 REACTION ((64-GD-152(N,G)64-GD-153,,SIG,,AV)/ 2238600200003 (79-AU-197(N,G)79-AU-198,,SIG,,AV)) averaged over 2238600200004 energy interval given in data section 2238600200005 METHOD (TOF) Flight path is 78.8 cm 2238600200006 MONITOR .Absolute measurement 2238600200007 DETECTOR (SCIN,D4PI) Karlsruhe 4Pi-Ba-F2 detector consisting of 2238600200008 42 hexagonal and pentagonal crystals forming 2238600200009 a spherical Ba-F2 shell of 15 cm thickness and 20 cm 2238600200010 inner diameter. Resolution is 7% at 2.5 MeV gamma 2238600200011 energy, time resolution 500 ps, peak efficiency 2238600200012 90% at 1 MeV 2238600200013 SAMPLE (64-GD-152,ENR=0.3250) .Oxide powder disk enriched by 2238600200014 isotope in question placed in aluminium can 0.1890 gr.2238600200015 Sum of all isotopes thickness is 1.6 mm == 2.1742E-3 2238600200016 atoms/b, weight of Gd2-O3 oxide is 1.1427 gram. 2238600200017 Weight impurities content is less than 0.1% 2238600200018 Isotopic composition is 2238600200019 Gd-152 content is 32.50%, Gd-154 content is 5.45% 2238600200020 Gd-155 content is 16.68%, Gd-156 content is 15.56% 2238600200021 Gd-157 content is 9.03%, Gd-158 content is 12.13% 2238600200022 Gd-160 content is 8.65% 2238600200023 STATUS (TABLE) Data taken from Table VII of PR/C,52,(5),2762 2238600200024 ERR-ANALYS (ERR-T) Total error 2238600200025 (ERR-S) Statistical error 2238600200026 (ERR-SYS) total systematic error includes followings: 2238600200027 (ERR-1) Error due to flight path uncertainty 2238600200028 (ERR-2) error due to neutron flux normalization 2238600200029 (ERR-3) error due to impurities of the samples 2238600200030 standard 2238600200031 (ERR-4) error due to isotopic composition of sample 2238600200032 (ERR-5) error due to isotopic correction of sample 2238600200033 (ERR-6) error due to multiple scattering and self- 2238600200034 shielding in sample 2238600200035 (ERR-7) error due to unobserved events 2238600200036 ENDBIB 34 0 2238600200037 COMMON 8 6 2238600200038 ERR-SYS ERR-1 ERR-2 ERR-3 ERR-4 ERR-5 2238600200039 ERR-6 ERR-7 2238600200040 PER-CENT PER-CENT PER-CENT PER-CENT PER-CENT PER-CENT 2238600200041 PER-CENT PER-CENT 2238600200042 1.4 0.1 0.2 0.2 0.6 1.0 2238600200043 0.7 0.3 2238600200044 ENDCOMMON 6 0 2238600200045 DATA 5 18 2238600200046 EN-MIN EN-MAX DATA ERR-S ERR-T 2238600200047 KEV KEV NO-DIM PER-CENT PER-CENT 2238600200048 3. 5. 1.407 9.1 9.2 2238600200049 5. 7.5 1.588 4.3 4.5 2238600200050 7.5 10. 1.643 3.9 4.1 2238600200051 10. 12.5 1.555 3.1 3.4 2238600200052 12.5 15. 1.629 2.7 3.0 2238600200053 15. 20. 1.690 1.7 2.2 2238600200054 20. 25. 1.850 1.5 2.1 2238600200055 25. 30. 1.744 1.3 1.9 2238600200056 30. 40. 1.748 1.0 1.7 2238600200057 40. 50. 1.890 1.0 1.7 2238600200058 50. 60. 1.917 1.0 1.7 2238600200059 60. 80. 1.955 0.8 1.6 2238600200060 80. 100. 2.095 0.8 1.6 2238600200061 100. 120. 2.109 1.0 1.7 2238600200062 120. 150. 2.240 1.4 2.0 2238600200063 150. 175. 2.324 1.5 2.1 2238600200064 175. 200. 2.412 1.5 2.1 2238600200065 200. 225. 2.572 1.9 2.4 2238600200066 ENDDATA 20 0 2238600200067 ENDSUBENT 66 0 2238600299999 SUBENT 22386003 20121217 22342238600300001 BIB 7 33 2238600300002 REACTION ((64-GD-154(N,G)64-GD-155,,SIG,,AV)/ 2238600300003 (79-AU-197(N,G)79-AU-198,,SIG,,AV)) averaged over 2238600300004 energy interval given in data section 2238600300005 METHOD (TOF) Flight path is 78.8 cm 2238600300006 MONITOR .Absolute measurement 2238600300007 DETECTOR (SCIN,D4PI) Karlsruhe 4Pi-Ba-F2 detector consisting of 2238600300008 42 hexagonal and pentagonal crystals forming 2238600300009 a spherical Ba-F2 shell of 15 cm thickness and 20 cm 2238600300010 inner diameter. Resolution is 7% at 2.5 MeV gamma 2238600300011 energy, time resolution 500 ps, peak efficiency 2238600300012 90% at 1 MeV 2238600300013 SAMPLE (64-GD-154,ENR=0.5700) .Oxide powder disk enriched by 2238600300014 isotope in question placed in aluminium can 0.1830 gr.2238600300015 Sum of all isotopes thickness is 1.8 mm == 2.4185E-3 2238600300016 atoms/b, weight of Gd2-O3 oxide is 1.2677 gram. 2238600300017 Weight impurities content is less than 0.4% 2238600300018 Gd-152 content is 0.0%, Gd-154 content is 57.00%, 2238600300019 Gd-155 content is 32.70%, Gd-156 content is 5.30% 2238600300020 Gd-157 content is 2.10%, Gd-158 content is 1.90%, 2238600300021 Gd-160 content is 1.00% 2238600300022 STATUS (TABLE) Data taken from Table VII of PR/C,52,(5),2762 2238600300023 ERR-ANALYS (ERR-T) Total error 2238600300024 (ERR-S) Statistical error 2238600300025 (ERR-SYS) total systematic error includes followings: 2238600300026 (ERR-1) Error due to flight path uncertainty 2238600300027 (ERR-2) error due to neutron flux normalization 2238600300028 (ERR-3) error due to impurities of the samples 2238600300029 standard 2238600300030 (ERR-4) error due to isotopic composition of sample 2238600300031 (ERR-5) error due to isotopic correction of sample 2238600300032 (ERR-6) error due to multiple scattering and self- 2238600300033 shielding in sample 2238600300034 (ERR-7) error due to unobserved events 2238600300035 ENDBIB 33 0 2238600300036 COMMON 8 6 2238600300037 ERR-SYS ERR-1 ERR-2 ERR-3 ERR-4 ERR-5 2238600300038 ERR-6 ERR-7 2238600300039 PER-CENT PER-CENT PER-CENT PER-CENT PER-CENT PER-CENT 2238600300040 PER-CENT PER-CENT 2238600300041 1.0 0.1 0.2 0.2 0.4 0.6 2238600300042 0.5 0.3 2238600300043 ENDCOMMON 6 0 2238600300044 DATA 5 18 2238600300045 EN-MIN EN-MAX DATA ERR-S ERR-T 2238600300046 KEV KEV NO-DIM PER-CENT PER-CENT 2238600300047 3. 5. 1.389 5.9 6.0 2238600300048 5. 7.5 1.361 3.1 3.3 2238600300049 7.5 10. 1.604 2.6 2.8 2238600300050 10. 12.5 1.494 2.1 2.3 2238600300051 12.5 15. 1.572 1.9 2.1 2238600300052 15. 20. 1.645 1.2 1.6 2238600300053 20. 25. 1.870 1.0 1.4 2238600300054 25. 30. 1.827 0.9 1.3 2238600300055 30. 40. 1.774 0.7 1.2 2238600300056 40. 50. 1.948 0.7 1.2 2238600300057 50. 60. 1.949 0.7 1.2 2238600300058 60. 80. 1.967 0.6 1.2 2238600300059 80. 100. 2.077 0.6 1.2 2238600300060 100. 120. 2.066 0.7 1.2 2238600300061 120. 150. 1.883 1.0 1.4 2238600300062 150. 175. 1.745 1.1 1.5 2238600300063 175. 200. 1.668 1.2 1.6 2238600300064 200. 225. 1.672 1.6 1.9 2238600300065 ENDDATA 20 0 2238600300066 ENDSUBENT 65 0 2238600399999 SUBENT 22386004 20121217 22342238600400001 BIB 7 33 2238600400002 REACTION ((64-GD-155(N,G)64-GD-156,,SIG,,AV)/ 2238600400003 (79-AU-197(N,G)79-AU-198,,SIG,,AV)) averaged over 2238600400004 energy interval given in data section 2238600400005 METHOD (TOF) Flight path is 78.8 cm 2238600400006 MONITOR .Absolute measurement 2238600400007 DETECTOR (SCIN,D4PI) Karlsruhe 4Pi-Ba-F2 detector consisting of 2238600400008 42 hexagonal and pentagonal crystals forming 2238600400009 a spherical Ba-F2 shell of 15 cm thickness and 20 cm 2238600400010 inner diameter. Resolution is 7% at 2.5 MeV gamma 2238600400011 energy, time resolution 500 ps, peak efficiency 2238600400012 90% at 1 MeV 2238600400013 SAMPLE (64-GD-155,ENR=0.9160) .Oxide powder disk enriched by 2238600400014 isotope in question placed in aluminium can 0.1830 gr.2238600400015 Sum of all isotopes thickness is 0.9 mm == 1.3086E-3 2238600400016 atoms/b, weight of Gd2-O3 oxide is 0.6878 gram. 2238600400017 Weight impurities content is less than 0.1% 2238600400018 Gd-152 content is less than 0.01%, 2238600400019 Gd-154 content is 0.22%, Gd-155 content is 91.60% 2238600400020 Gd-156 content is 6.34%, Gd-157 content is 0.78%, 2238600400021 Gd-158 content is 0.73%, Gd-160 content is 0.33% 2238600400022 STATUS (TABLE) Data taken from Table VII of PR/C,52,(5),2762 2238600400023 ERR-ANALYS (ERR-T) Total error 2238600400024 (ERR-S) Statistical error 2238600400025 (ERR-SYS) total systematic error includes followings: 2238600400026 (ERR-1) Error due to flight path uncertainty 2238600400027 (ERR-2) error due to neutron flux normalization 2238600400028 (ERR-3) error due to impurities of the samples 2238600400029 standard 2238600400030 (ERR-4) error due to isotopic composition of sample 2238600400031 (ERR-5) error due to isotopic correction of sample 2238600400032 (ERR-6) error due to multiple scattering and self- 2238600400033 shielding in sample 2238600400034 (ERR-7) error due to unobserved events 2238600400035 ENDBIB 33 0 2238600400036 COMMON 8 6 2238600400037 ERR-SYS ERR-1 ERR-2 ERR-3 ERR-4 ERR-5 2238600400038 ERR-6 ERR-7 2238600400039 PER-CENT PER-CENT PER-CENT PER-CENT PER-CENT PER-CENT 2238600400040 PER-CENT PER-CENT 2238600400041 1.0 0.1 0.2 0.2 0.2 0.2 2238600400042 0.4 0.8 2238600400043 ENDCOMMON 6 0 2238600400044 DATA 5 18 2238600400045 EN-MIN EN-MAX DATA ERR-S ERR-T 2238600400046 KEV KEV NO-DIM PER-CENT PER-CENT 2238600400047 3. 5. 4.034 5.4 5.5 2238600400048 5. 7.5 3.700 2.7 2.9 2238600400049 7.5 10. 4.291 2.4 2.6 2238600400050 10. 12.5 4.215 1.8 2.1 2238600400051 12.5 15. 4.552 1.6 1.9 2238600400052 15. 20. 4.630 1.0 1.4 2238600400053 20. 25. 5.018 0.9 1.3 2238600400054 25. 30. 4.907 0.7 1.2 2238600400055 30. 40. 4.831 0.6 1.2 2238600400056 40. 50. 5.136 0.6 1.2 2238600400057 50. 60. 5.022 0.5 1.1 2238600400058 60. 80. 4.768 0.5 1.1 2238600400059 80. 100. 4.708 0.5 1.1 2238600400060 100. 120. 4.235 0.6 1.2 2238600400061 120. 150. 3.713 0.9 1.3 2238600400062 150. 175. 3.398 1.0 1.4 2238600400063 175. 200. 3.181 1.0 1.4 2238600400064 200. 225. 3.198 1.3 1.6 2238600400065 ENDDATA 20 0 2238600400066 ENDSUBENT 65 0 2238600499999 SUBENT 22386005 20121217 22342238600500001 BIB 7 33 2238600500002 REACTION ((64-GD-156(N,G)64-GD-157,,SIG,,AV)/ 2238600500003 (79-AU-197(N,G)79-AU-198,,SIG,,AV)) averaged over 2238600500004 energy interval given in data section 2238600500005 METHOD (TOF) Flight path is 78.8 cm 2238600500006 MONITOR .Absolute measurement 2238600500007 DETECTOR (SCIN,D4PI) Karlsruhe 4Pi-Ba-F2 detector consisting of 2238600500008 42 hexagonal and pentagonal crystals forming 2238600500009 a spherical Ba-F2 shell of 15 cm thickness and 20 cm 2238600500010 inner diameter. Resolution is 7% at 2.5 MeV gamma 2238600500011 energy, time resolution 500 ps, peak efficiency 2238600500012 90% at 1 MeV 2238600500013 SAMPLE (64-GD-156,ENR=0.9350) .Oxide powder disk enriched by 2238600500014 isotope in question placed in aluminium can 0.2138 gr.2238600500015 Sum of all isotopes thickness is 2.3 mm == 3.1241E-3 2238600500016 atoms/b, weight of Gd2-O3 oxide is 1.6507 gram. 2238600500017 Weight impurities content is less than 0.2% 2238600500018 Gd-152 content is less than 0.1%, 2238600500019 Gd-154 content is 0.20%, Gd-155 content is 1.30%, 2238600500020 Gd-156 content is 93.50%, Gd-157 content is 3.30% 2238600500021 Gd-158 content is 1.30%, Gd-160 content is 0.40% 2238600500022 STATUS (TABLE) Data taken from Table VII of PR/C,52,(5),2762 2238600500023 ERR-ANALYS (ERR-T) Total error 2238600500024 (ERR-S) Statistical error 2238600500025 (ERR-SYS) total systematic error includes followings: 2238600500026 (ERR-1) Error due to flight path uncertainty 2238600500027 (ERR-2) error due to neutron flux normalization 2238600500028 (ERR-3) error due to impurities of the samples 2238600500029 standard 2238600500030 (ERR-4) error due to isotopic composition of sample 2238600500031 (ERR-5) error due to isotopic correction of sample 2238600500032 (ERR-6) error due to multiple scattering and self- 2238600500033 shielding in sample 2238600500034 (ERR-7) error due to unobserved events 2238600500035 ENDBIB 33 0 2238600500036 COMMON 8 6 2238600500037 ERR-SYS ERR-1 ERR-2 ERR-3 ERR-4 ERR-5 2238600500038 ERR-6 ERR-7 2238600500039 PER-CENT PER-CENT PER-CENT PER-CENT PER-CENT PER-CENT 2238600500040 PER-CENT PER-CENT 2238600500041 0.6 0.1 0.2 0.2 0.2 0.2 2238600500042 0.4 0.3 2238600500043 ENDCOMMON 6 0 2238600500044 DATA 5 18 2238600500045 EN-MIN EN-MAX DATA ERR-S ERR-T 2238600500046 KEV KEV NO-DIM PER-CENT PER-CENT 2238600500047 3. 5. 0.860 5.6 5.6 2238600500048 5. 7.5 0.811 2.9 3.0 2238600500049 7.5 10. 0.953 2.5 2.6 2238600500050 10. 12.5 0.880 2.0 2.1 2238600500051 12.5 15. 0.941 1.7 1.8 2238600500052 15. 20. 1.017 1.1 1.3 2238600500053 20. 25. 1.134 0.9 1.1 2238600500054 25. 30. 1.071 0.8 1.0 2238600500055 30. 40. 1.124 0.6 0.8 2238600500056 40. 50. 1.219 0.6 0.8 2238600500057 50. 60. 1.225 0.6 0.8 2238600500058 60. 80. 1.181 0.5 0.8 2238600500059 80. 100. 1.184 0.5 0.8 2238600500060 100. 120. 1.061 0.6 0.8 2238600500061 120. 150. 0.951 0.9 1.1 2238600500062 150. 175. 0.875 1.0 1.2 2238600500063 175. 200. 0.811 1.1 1.3 2238600500064 200. 225. 0.798 1.4 1.5 2238600500065 ENDDATA 20 0 2238600500066 ENDSUBENT 65 0 2238600599999 SUBENT 22386006 20121217 22342238600600001 BIB 7 33 2238600600002 REACTION ((64-GD-157(N,G)64-GD-158,,SIG,,AV)/ 2238600600003 (79-AU-197(N,G)79-AU-198,,SIG,,AV)) averaged over 2238600600004 energy interval given in data section 2238600600005 METHOD (TOF) Flight path is 78.8 cm 2238600600006 MONITOR .Absolute measurement 2238600600007 DETECTOR (SCIN,D4PI) Karlsruhe 4Pi-Ba-F2 detector consisting of 2238600600008 42 hexagonal and pentagonal crystals forming 2238600600009 a spherical Ba-F2 shell of 15 cm thickness and 20 cm 2238600600010 inner diameter. Resolution is 7% at 2.5 MeV gamma 2238600600011 energy, time resolution 500 ps, peak efficiency 2238600600012 90% at 1 MeV 2238600600013 SAMPLE (64-GD-157,ENR=0.8960) .Oxide powder disk enriched by 2238600600014 isotope in question placed in aluminium can 0.1805 gr.2238600600015 Sum of all isotopes thickness is 1.7 mm == 2.3882E-3 2238600600016 atoms/b, weight of Gd2-O3 oxide is 1.2689 gram. 2238600600017 Weight impurities content is less than 0.2% 2238600600018 Gd-152 content is less than 0.04%, 2238600600019 Gd-154 content is 0.05%, Gd-155 content is 0.30%, 2238600600020 Gd-156 content is 1.71%, Gd-157 content is 89.60% 2238600600021 Gd-158 content is 7.78%, Gd-160 content is 0.56% 2238600600022 STATUS (TABLE) Data taken from Table VII of PR/C,52,(5),2762 2238600600023 ERR-ANALYS (ERR-T) Total error 2238600600024 (ERR-S) Statistical error 2238600600025 (ERR-SYS) total systematic error includes followings: 2238600600026 (ERR-1) Error due to flight path uncertainty 2238600600027 (ERR-2) error due to neutron flux normalization 2238600600028 (ERR-3) error due to impurities of the samples 2238600600029 standard 2238600600030 (ERR-4) error due to isotopic composition of sample 2238600600031 (ERR-5) error due to isotopic correction of sample 2238600600032 (ERR-6) error due to multiple scattering and self- 2238600600033 shielding in sample 2238600600034 (ERR-7) error due to unobserved events 2238600600035 ENDBIB 33 0 2238600600036 COMMON 8 6 2238600600037 ERR-SYS ERR-1 ERR-2 ERR-3 ERR-4 ERR-5 2238600600038 ERR-6 ERR-7 2238600600039 PER-CENT PER-CENT PER-CENT PER-CENT PER-CENT PER-CENT 2238600600040 PER-CENT PER-CENT 2238600600041 0.9 0.1 0.2 0.2 0.2 0.2 2238600600042 0.4 0.8 2238600600043 ENDCOMMON 6 0 2238600600044 DATA 5 18 2238600600045 EN-MIN EN-MAX DATA ERR-S ERR-T 2238600600046 KEV KEV NO-DIM PER-CENT PER-CENT 2238600600047 3. 5. 2.234 5.2 5.3 2238600600048 5. 7.5 2.071 2.6 2.8 2238600600049 7.5 10. 2.384 2.4 2.6 2238600600050 10. 12.5 2.174 1.8 2.0 2238600600051 12.5 15. 2.398 1.6 1.8 2238600600052 15. 20. 2.562 1.0 1.3 2238600600053 20. 25. 2.697 0.9 1.3 2238600600054 25. 30. 2.610 0.7 1.1 2238600600055 30. 40. 2.578 0.6 1.1 2238600600056 40. 50. 2.711 0.6 1.1 2238600600057 50. 60. 2.590 0.6 1.1 2238600600058 60. 80. 2.212 0.5 1.0 2238600600059 80. 100. 1.980 0.5 1.0 2238600600060 100. 120. 1.830 0.6 1.1 2238600600061 120. 150. 1.611 0.9 1.3 2238600600062 150. 175. 1.444 1.0 1.3 2238600600063 175. 200. 1.350 1.0 1.3 2238600600064 200. 225. 1.330 1.4 1.7 2238600600065 ENDDATA 20 0 2238600600066 ENDSUBENT 65 0 2238600699999 SUBENT 22386007 20121217 22342238600700001 BIB 7 35 2238600700002 REACTION ((64-GD-158(N,G)64-GD-159,,SIG,,AV)/ 2238600700003 (79-AU-197(N,G)79-AU-198,,SIG,,AV)) averaged over 2238600700004 energy interval given in data section 2238600700005 METHOD (TOF) Flight path is 78.8 cm 2238600700006 MONITOR .Absolute measurement 2238600700007 DETECTOR (SCIN,D4PI) Karlsruhe 4Pi-Ba-F2 detector consisting of 2238600700008 42 hexagonal and pentagonal crystals forming 2238600700009 a spherical Ba-F2 shell of 15 cm thickness and 20 cm 2238600700010 inner diameter. Resolution is 7% at 2.5 MeV gamma 2238600700011 energy, time resolution 500 ps, peak efficiency 2238600700012 90% at 1 MeV 2238600700013 SAMPLE (64-GD-158,ENR=0.9730) .Oxide powder disk enriched by 2238600700014 isotope in question placed in aluminium can 0.3459 gr.2238600700015 Sum of all isotopes thickness is 5.8 mm == 8.6244E-3 2238600700016 atoms/b, weight of Gd2-O3 oxide is 4.6062 gram. 2238600700017 Weight impurities content is less than 0.3% 2238600700018 Isotopic composition is 2238600700019 Gd-152 content is less then 0.08%, 2238600700020 Gd-154 content is less then 0.08%, 2238600700021 Gd-155 content is 0.17%, Gd-156 content is 0.33%, 2238600700022 Gd-157 content is 0.78%, Gd-158 content is 97.30% 2238600700023 Gd-160 content is 1.42% 2238600700024 STATUS (TABLE) Data taken from Table VII of PR/C,52,(5),2762 2238600700025 ERR-ANALYS (ERR-T) Total error 2238600700026 (ERR-S) Statistical error 2238600700027 (ERR-SYS) total systematic error includes followings: 2238600700028 (ERR-1) Error due to flight path uncertainty 2238600700029 (ERR-2) error due to neutron flux normalization 2238600700030 (ERR-3) error due to impurities of the samples 2238600700031 standard 2238600700032 (ERR-4) error due to isotopic composition of sample 2238600700033 (ERR-5) error due to isotopic correction of sample 2238600700034 (ERR-6) error due to multiple scattering and self- 2238600700035 shielding in sample 2238600700036 (ERR-7) error due to unobserved events 2238600700037 ENDBIB 35 0 2238600700038 COMMON 8 6 2238600700039 ERR-SYS ERR-1 ERR-2 ERR-3 ERR-4 ERR-5 2238600700040 ERR-6 ERR-7 2238600700041 PER-CENT PER-CENT PER-CENT PER-CENT PER-CENT PER-CENT 2238600700042 PER-CENT PER-CENT 2238600700043 0.6 0.1 0.2 0.2 0.2 0.2 2238600700044 0.4 0.8 2238600700045 ENDCOMMON 6 0 2238600700046 DATA 5 18 2238600700047 EN-MIN EN-MAX DATA ERR-S ERR-T 2238600700048 KEV KEV NO-DIM PER-CENT PER-CENT 2238600700049 3. 5. 0.407 7.7 7.7 2238600700050 5. 7.5 0.419 3.5 3.6 2238600700051 7.5 10. 0.482 3.0 3.1 2238600700052 10. 12.5 0.478 2.2 2.3 2238600700053 12.5 15. 0.529 1.9 2.0 2238600700054 15. 20. 0.577 1.1 1.3 2238600700055 20. 25. 0.665 1.0 1.2 2238600700056 25. 30. 0.603 0.8 1.2 2238600700057 30. 40. 0.615 0.6 0.8 2238600700058 40. 50. 0.636 0.6 0.8 2238600700059 50. 60. 0.638 0.6 0.8 2238600700060 60. 80. 0.641 0.5 0.8 2238600700061 80. 100. 0.521 0.6 0.8 2238600700062 100. 120. 0.460 0.7 0.9 2238600700063 120. 150. 0.406 1.0 1.2 2238600700064 150. 175. 0.355 1.2 1.3 2238600700065 175. 200. 0.352 1.2 1.3 2238600700066 200. 225. 0.346 1.6 1.7 2238600700067 ENDDATA 20 0 2238600700068 ENDSUBENT 67 0 2238600799999 SUBENT 22386008 20121217 22342238600800001 BIB 9 34 2238600800002 REACTION (64-GD-152(N,G)64-GD-153,,SIG,,AV) Averaged over 2238600800003 energy interval given in data section 2238600800004 MONITOR (79-AU-197(N,G)79-AU-198,,SIG) 2238600800005 MONIT-REF (22099002,W.Ratynski+,J,PR/C,37,595,1988) 2238600800006 The experimental ratios were converted into absolute 2238600800007 cross sections by means of the gold cross section of 2238600800008 Macklin (priv.comm.), after normalization by a factor 2238600800009 of 0.989 to the absolute value of Ratynski et. al. 2238600800010 METHOD (TOF) Flight path is 78.8 cm 2238600800011 DETECTOR (SCIN,D4PI) Karlsruhe 4Pi-Ba-F2 detector consisting of 2238600800012 42 hexagonal and pentagonal crystals forming 2238600800013 a spherical Ba-F2 shell of 15 cm thickness and 20 cm 2238600800014 inner diameter. Resolution is 7% at 2.5 MeV gamma 2238600800015 energy, time resolution 500 ps, peak efficiency 2238600800016 90% at 1 MeV 2238600800017 SAMPLE (64-GD-152,ENR=0.3250) .Oxide powder disk enriched by 2238600800018 isotope in question placed in aluminium can 0.1890 gr.2238600800019 Sum of all isotopes thickness is 1.6 mm == 2.1742E-3 2238600800020 atoms/b, weight of Gd2-O3 oxide is 1.1427 gram. 2238600800021 Weight impurities content is less than 0.1% 2238600800022 Isotopic composition is 2238600800023 Gd-152 content is 32.50%, Gd-154 content is 5.45% 2238600800024 Gd-155 content is 16.68%, Gd-156 content is 15.56% 2238600800025 Gd-157 content is 9.03%, Gd-158 content is 12.13% 2238600800026 Gd-160 content is 8.65% 2238600800027 STATUS (TABLE)Data taken from table VIII of PR/C,52,(5),2762 2238600800028 (DEP,22386002) 2238600800029 ERR-ANALYS (DATA-ERR) Total uncertainty from ratio. 2238600800030 Uncertainties of cross-sections can be calculated from 2238600800031 the uncertainty of the cross-section ratio by adding 2238600800032 quadratically the uncertainty of the gold standard 2238600800033 (ERR-S) Statistical uncertainty from ratio 2238600800034 (MONIT-ERR) standard gold cross-section error 2238600800035 HISTORY (20121217A) SD:Col.ERR-T -> DATA-ERR. ERR-ANALYS update2238600800036 ENDBIB 34 0 2238600800037 COMMON 1 3 2238600800038 MONIT-ERR 2238600800039 PER-CENT 2238600800040 1.5 2238600800041 ENDCOMMON 3 0 2238600800042 DATA 6 18 2238600800043 EN-MIN EN-MAX DATA ERR-S DATA-ERR MONIT 2238600800044 KEV KEV MB PER-CENT PER-CENT MB 2238600800045 3. 5. 3190. 9.1 9.2 2266.7 2238600800046 5. 7.5 2742. 4.3 4.5 1726.7 2238600800047 7.5 10. 1998. 3.9 4.1 1215.7 2238600800048 10. 12.5 1659. 3.1 3.4 1066.7 2238600800049 12.5 15. 1430. 2.7 3.0 878.0 2238600800050 15. 20. 1248. 1.7 2.2 738.8 2238600800051 20. 25. 1110. 1.5 2.1 600.0 2238600800052 25. 30. 995.2 1.3 1.9 570.8 2238600800053 30. 40. 874.9 1.0 1.7 500.4 2238600800054 40. 50. 818.9 1.0 1.7 433.3 2238600800055 50. 60. 746.9 1.0 1.7 389.6 2238600800056 60. 80. 683.2 0.8 1.6 349.4 2238600800057 80. 100. 624.8 0.8 1.6 298.3 2238600800058 100. 120. 611.9 1.0 1.7 290.1 2238600800059 120. 150. 614.0 1.4 2.0 274.1 2238600800060 150. 175. 612.7 1.5 2.1 263.7 2238600800061 175. 200. 609.2 1.5 2.1 252.6 2238600800062 200. 225. 639.1 1.9 2.4 248.5 2238600800063 ENDDATA 20 0 2238600800064 ENDSUBENT 63 0 2238600899999 SUBENT 22386009 20121217 22342238600900001 BIB 9 33 2238600900002 REACTION (64-GD-154(N,G)64-GD-155,,SIG,,AV) Averaged over 2238600900003 energy interval given in data section 2238600900004 MONITOR (79-AU-197(N,G)79-AU-198,,SIG) 2238600900005 MONIT-REF (22099002,W.Ratynski+,J,PR/C,37,595,1988) 2238600900006 The experimental ratios were converted into absolute 2238600900007 cross sections by means of the gold cross section of 2238600900008 Macklin (priv.comm.), after normalization by a factor 2238600900009 of 0.989 to the absolute value of Ratynski et. al. 2238600900010 METHOD (TOF) Flight path is 78.8 cm 2238600900011 DETECTOR (SCIN,D4PI) Karlsruhe 4Pi-Ba-F2 detector consisting of 2238600900012 42 hexagonal and pentagonal crystals forming 2238600900013 a spherical Ba-F2 shell of 15 cm thickness and 20 cm 2238600900014 inner diameter. Resolution is 7% at 2.5 MeV gamma 2238600900015 energy, time resolution 500 ps, peak efficiency 2238600900016 90% at 1 MeV 2238600900017 SAMPLE (64-GD-154,ENR=0.5700) .Oxide powder disk enriched by 2238600900018 isotope in question placed in aluminium can 0.1830 gr.2238600900019 Sum of all isotopes thickness is 1.8 mm == 2.4185E-3 2238600900020 atoms/b, weight of Gd2-O3 oxide is 1.2677 gram. 2238600900021 Weight impurities content is less than 0.4% 2238600900022 Gd-152 content is 0.0%, Gd-154 content is 57.00%, 2238600900023 Gd-155 content is 32.70%, Gd-156 content is 5.30% 2238600900024 Gd-157 content is 2.10%, Gd-158 content is 1.90%, 2238600900025 Gd-160 content is 1.00% 2238600900026 STATUS (TABLE)Data taken from Table VIII of PR/C,52,(5),2762 2238600900027 (DEP,22386003) 2238600900028 ERR-ANALYS (DATA-ERR) Total uncertainty from ratio. 2238600900029 Uncertainties of cross-sections can be calculated from 2238600900030 the uncertainty of the cross-section ratio by adding 2238600900031 quadratically the uncertainty of the gold standard 2238600900032 (ERR-S) Statistical uncertainty from ratio 2238600900033 (MONIT-ERR) standard gold cross-section error 2238600900034 HISTORY (20121217A) SD:Col.ERR-T -> DATA-ERR. ERR-ANALYS update2238600900035 ENDBIB 33 0 2238600900036 COMMON 1 3 2238600900037 MONIT-ERR 2238600900038 PER-CENT 2238600900039 1.5 2238600900040 ENDCOMMON 3 0 2238600900041 DATA 6 18 2238600900042 EN-MIN EN-MAX DATA ERR-S DATA-ERR MONIT 2238600900043 KEV KEV MB PER-CENT PER-CENT MB 2238600900044 3. 5. 3148. 5.9 6.0 2266.7 2238600900045 5. 7.5 2350. 3.1 3.3 1726.7 2238600900046 7.5 10. 1949. 2.6 2.8 1215.7 2238600900047 10. 12.5 1593. 2.1 2.3 1066.7 2238600900048 12.5 15. 1380. 1.9 2.1 878.0 2238600900049 15. 20. 1215. 1.2 1.6 738.8 2238600900050 20. 25. 1122. 1.0 1.4 600.0 2238600900051 25. 30. 1043. 0.9 1.3 570.8 2238600900052 30. 40. 887.5 0.7 1.2 500.4 2238600900053 40. 50. 844.3 0.7 1.2 433.3 2238600900054 50. 60. 759.5 0.7 1.2 389.6 2238600900055 60. 80. 687.1 0.6 1.2 349.4 2238600900056 80. 100. 619.6 0.6 1.2 298.3 2238600900057 100. 120. 599.4 0.7 1.2 290.1 2238600900058 120. 150. 516.1 1.0 1.4 274.1 2238600900059 150. 175. 460.0 1.1 1.5 263.7 2238600900060 175. 200. 421.3 1.2 1.6 252.6 2238600900061 200. 225. 415.3 1.6 1.9 248.5 2238600900062 ENDDATA 20 0 2238600900063 ENDSUBENT 62 0 2238600999999 SUBENT 22386010 20121217 22342238601000001 BIB 9 33 2238601000002 REACTION (64-GD-155(N,G)64-GD-156,,SIG,,AV) Averaged over 2238601000003 energy interval given in data section 2238601000004 MONITOR (79-AU-197(N,G)79-AU-198,,SIG) 2238601000005 MONIT-REF (22099002,W.Ratynski+,J,PR/C,37,595,1988) 2238601000006 The experimental ratios were converted into absolute 2238601000007 cross sections by means of the gold cross section of 2238601000008 Macklin (priv.comm.), after normalization by a factor 2238601000009 of 0.989 to the absolute value of Ratynski et. al. 2238601000010 METHOD (TOF) Flight path is 78.8 cm 2238601000011 DETECTOR (SCIN,D4PI) Karlsruhe 4pi-Ba-F2 detector consisting of 2238601000012 42 hexagonal and pentagonal crystals forming 2238601000013 a spherical Ba-F2 shell of 15 cm thickness and 20 cm 2238601000014 inner diameter. Resolution is 7% at 2.5 MeV gamma 2238601000015 energy, time resolution 500 ps, peak efficiency 2238601000016 90% at 1 MeV 2238601000017 SAMPLE (64-GD-155,ENR=0.9160) .Oxide powder disk enriched by 2238601000018 isotope in question placed in aluminium can 0.1830 gr.2238601000019 Sum of all isotopes thickness is 0.9 mm == 1.3086E-3 2238601000020 atoms/b, weight of Gd2-O3 oxide is 0.6878 gram. 2238601000021 Weight impurities content is less than 0.1% 2238601000022 Gd-152 content is less than 0.01%, 2238601000023 Gd-154 content is 0.22%, Gd-155 content is 91.60% 2238601000024 Gd-156 content is 6.34%, Gd-157 content is 0.78%, 2238601000025 Gd-158 content is 0.73%, Gd-160 content is 0.33% 2238601000026 STATUS (TABLE)Data taken from Table VIII of PR/C,52,(5),2762 2238601000027 (DEP,22386004) 2238601000028 ERR-ANALYS (DATA-ERR) Total uncertainty from ratio. 2238601000029 Uncertainties of cross-sections can be calculated from 2238601000030 the uncertainty of the cross-section ratio by adding 2238601000031 quadratically the uncertainty of the gold standard 2238601000032 (ERR-S) Statistical uncertainty from ratio 2238601000033 (MONIT-ERR) standard gold cross-section error 2238601000034 HISTORY (20121217A) SD:Col.ERR-T -> DATA-ERR. ERR-ANALYS update2238601000035 ENDBIB 33 0 2238601000036 COMMON 1 3 2238601000037 MONIT-ERR 2238601000038 PER-CENT 2238601000039 1.5 2238601000040 ENDCOMMON 3 0 2238601000041 DATA 6 18 2238601000042 EN-MIN EN-MAX DATA ERR-S DATA-ERR MONIT 2238601000043 KEV KEV MB PER-CENT PER-CENT MB 2238601000044 3. 5. 9145. 5.4 5.5 2266.7 2238601000045 5. 7.5 6388. 2.7 2.9 1726.7 2238601000046 7.5 10. 5217. 2.4 2.6 1215.7 2238601000047 10. 12.5 4496. 1.8 2.1 1066.7 2238601000048 12.5 15. 3997. 1.6 1.9 878.0 2238601000049 15. 20. 3420. 1.0 1.4 738.8 2238601000050 20. 25. 3011. 0.9 1.3 600.0 2238601000051 25. 30. 2801. 0.7 1.2 570.8 2238601000052 30. 40. 2417. 0.6 1.2 500.4 2238601000053 40. 50. 2225. 0.6 1.2 433.3 2238601000054 50. 60. 1957. 0.5 1.1 389.6 2238601000055 60. 80. 1666. 0.5 1.1 349.4 2238601000056 80. 100. 1404. 0.5 1.1 298.3 2238601000057 100. 120. 1229. 0.6 1.2 290.1 2238601000058 120. 150. 1018. 0.9 1.3 274.1 2238601000059 150. 175. 895.9 1.0 1.4 263.7 2238601000060 175. 200. 803.3 1.0 1.4 252.6 2238601000061 200. 225. 794.5 1.3 1.6 248.5 2238601000062 ENDDATA 20 0 2238601000063 ENDSUBENT 62 0 2238601099999 SUBENT 22386011 20121217 22342238601100001 BIB 9 33 2238601100002 REACTION (64-GD-156(N,G)64-GD-157,,SIG,,AV) Averaged over 2238601100003 energy interval given in data section 2238601100004 MONITOR (79-AU-197(N,G)79-AU-198,,SIG) 2238601100005 MONIT-REF (22099002,W.Ratynski+,J,PR/C,37,595,1988) 2238601100006 The experimental ratios were converted into absolute 2238601100007 cross sections by means of the gold cross section of 2238601100008 Macklin (priv.comm.), after normalization by a factor 2238601100009 of 0.989 to the absolute value of Ratynski et. al. 2238601100010 METHOD (TOF) Flight path is 78.8 cm 2238601100011 DETECTOR (SCIN,D4PI) Karlsruhe 4Pi-Ba-F2 detector consisting of 2238601100012 42 hexagonal and pentagonal crystals forming 2238601100013 a spherical Ba-F2 shell of 15 cm thickness and 20 cm 2238601100014 inner diameter. Resolution is 7% at 2.5 MeV gamma 2238601100015 energy, time resolution 500 ps, peak efficiency 2238601100016 90% at 1 MeV 2238601100017 SAMPLE (64-GD-156,ENR=0.9350) .Oxide powder disk enriched by 2238601100018 isotope in question placed in aluminium can 0.2138 gr.2238601100019 Sum of all isotopes thickness is 2.3 mm == 3.1241E-3 2238601100020 atoms/b, weight of Gd2-O3 oxide is 1.6507 gram. 2238601100021 Weight impurities content is less than 0.2% 2238601100022 Gd-152 content is less than 0.1%, 2238601100023 Gd-154 content is 0.20%, Gd-155 content is 1.30%, 2238601100024 Gd-156 content is 93.50%, Gd-157 content is 3.30% 2238601100025 Gd-158 content is 1.30%, Gd-160 content is 0.40% 2238601100026 STATUS (TABLE) Data taken from Table VIII of PR/C,52,(5),2762 2238601100027 (DEP,22386005) 2238601100028 ERR-ANALYS (DATA-ERR) Total uncertainty from ratio. 2238601100029 Uncertainties of cross-sections can be calculated from 2238601100030 the uncertainty of the cross-section ratio by adding 2238601100031 quadratically the uncertainty of the gold standard 2238601100032 (ERR-S) Statistical uncertainty from ratio 2238601100033 (MONIT-ERR) standard gold cross-section error 2238601100034 HISTORY (20121217A) SD:Col.ERR-T -> DATA-ERR. ERR-ANALYS update2238601100035 ENDBIB 33 0 2238601100036 COMMON 1 3 2238601100037 MONIT-ERR 2238601100038 PER-CENT 2238601100039 1.5 2238601100040 ENDCOMMON 3 0 2238601100041 DATA 6 18 2238601100042 EN-MIN EN-MAX DATA ERR-S DATA-ERR MONIT 2238601100043 KEV KEV MB PER-CENT PER-CENT MB 2238601100044 3. 5. 1949. 5.6 5.6 2266.7 2238601100045 5. 7.5 1401. 2.9 3.0 1726.7 2238601100046 7.5 10. 1158. 2.5 2.6 1215.7 2238601100047 10. 12.5 938.3 2.0 2.1 1066.7 2238601100048 12.5 15. 826.3 1.7 1.8 878.0 2238601100049 15. 20. 751.1 1.1 1.3 738.8 2238601100050 20. 25. 680.5 0.9 1.1 600.0 2238601100051 25. 30. 611.2 0.8 1.0 570.8 2238601100052 30. 40. 562.6 0.6 0.8 500.4 2238601100053 40. 50. 528.3 0.6 0.8 433.3 2238601100054 50. 60. 477.5 0.6 0.8 389.6 2238601100055 60. 80. 412.7 0.5 0.8 349.4 2238601100056 80. 100. 353.1 0.5 0.8 298.3 2238601100057 100. 120. 307.9 0.6 0.8 290.1 2238601100058 120. 150. 260.7 0.9 1.1 274.1 2238601100059 150. 175. 230.6 1.0 1.2 263.7 2238601100060 175. 200. 204.9 1.1 1.3 252.6 2238601100061 200. 225. 198.3 1.4 1.5 248.5 2238601100062 ENDDATA 20 0 2238601100063 ENDSUBENT 62 0 2238601199999 SUBENT 22386012 20121217 22342238601200001 BIB 9 33 2238601200002 REACTION (64-GD-157(N,G)64-GD-158,,SIG,,AV) Averaged over 2238601200003 energy interval given in data section 2238601200004 MONITOR (79-AU-197(N,G)79-AU-198,,SIG) 2238601200005 MONIT-REF (22099002,W.Ratynski+,J,PR/C,37,595,1988) 2238601200006 The experimental ratios were converted into absolute 2238601200007 cross sections by means of the gold cross section of 2238601200008 Macklin (priv.comm.), after normalization by a factor 2238601200009 of 0.989 to the absolute value of Ratynski et. al. 2238601200010 METHOD (TOF) Flight path is 78.8 cm 2238601200011 DETECTOR (SCIN,D4PI) Karlsruhe 4Pi-Ba-F2 detector consisting of 2238601200012 42 hexagonal and pentagonal crystals forming 2238601200013 a spherical Ba-F2 shell of 15 cm thickness and 20 cm 2238601200014 inner diameter. Resolution is 7% at 2.5 MeV gamma 2238601200015 energy, time resolution 500 ps, peak efficiency 2238601200016 90% at 1 MeV 2238601200017 SAMPLE (64-GD-157,ENR=0.8960) .Oxide powder disk enriched by 2238601200018 isotope in question placed in aluminium can 0.1805 gr.2238601200019 Sum of all isotopes thickness is 1.7 mm == 2.3882E-3 2238601200020 atoms/b, weight of Gd2-O3 oxide is 1.2689 gram. 2238601200021 Weight impurities content is less than 0.2% 2238601200022 Gd-152 content is less than 0.04%, 2238601200023 Gd-154 content is 0.05%, Gd-155 content is 0.30%, 2238601200024 Gd-156 content is 1.71%, Gd-157 content is 89.60% 2238601200025 Gd-158 content is 7.78%, Gd-160 content is 0.56% 2238601200026 STATUS (TABLE) Data taken from Table VIII of PR/C,52,(5),2762 2238601200027 (DEP,22386006) 2238601200028 ERR-ANALYS (DATA-ERR) Total uncertainty from ratio. 2238601200029 Uncertainties of cross-sections can be calculated from 2238601200030 the uncertainty of the cross-section ratio by adding 2238601200031 quadratically the uncertainty of the gold standard 2238601200032 (ERR-S) Statistical uncertainty from ratio 2238601200033 (MONIT-ERR) standard gold cross-section error 2238601200034 HISTORY (20121217A) SD:Col.ERR-T -> DATA-ERR. ERR-ANALYS update2238601200035 ENDBIB 33 0 2238601200036 COMMON 1 3 2238601200037 MONIT-ERR 2238601200038 PER-CENT 2238601200039 1.5 2238601200040 ENDCOMMON 3 0 2238601200041 DATA 6 18 2238601200042 EN-MIN EN-MAX DATA ERR-S DATA-ERR MONIT 2238601200043 KEV KEV MB PER-CENT PER-CENT MB 2238601200044 3. 5. 5063. 5.2 5.3 2266.7 2238601200045 5. 7.5 3576. 2.6 2.8 1726.7 2238601200046 7.5 10. 2898. 2.4 2.6 1215.7 2238601200047 10. 12.5 2319. 1.8 2.0 1066.7 2238601200048 12.5 15. 2105. 1.6 1.8 878.0 2238601200049 15. 20. 1893. 1.0 1.3 738.8 2238601200050 20. 25. 1618. 0.9 1.3 600.0 2238601200051 25. 30. 1490. 0.7 1.1 570.8 2238601200052 30. 40. 1290. 0.6 1.1 500.4 2238601200053 40. 50. 1175. 0.6 1.1 433.3 2238601200054 50. 60. 1009. 0.6 1.1 389.6 2238601200055 60. 80. 772.9 0.5 1.0 349.4 2238601200056 80. 100. 590.7 0.5 1.0 298.3 2238601200057 100. 120. 530.9 0.6 1.1 290.1 2238601200058 120. 150. 441.7 0.9 1.3 274.1 2238601200059 150. 175. 380.6 1.0 1.3 263.7 2238601200060 175. 200. 340.9 1.0 1.3 252.6 2238601200061 200. 225. 330.5 1.4 1.7 248.5 2238601200062 ENDDATA 20 0 2238601200063 ENDSUBENT 62 0 2238601299999 SUBENT 22386013 20121217 22342238601300001 BIB 9 35 2238601300002 REACTION (64-GD-158(N,G)64-GD-159,,SIG,,AV) Averaged over 2238601300003 energy interval given in data section 2238601300004 MONITOR (79-AU-197(N,G)79-AU-198,,SIG) 2238601300005 MONIT-REF (22099002,W.Ratynski+,J,PR/C,37,595,1988) 2238601300006 The experimental ratios were converted into absolute 2238601300007 cross sections by means of the gold cross section of 2238601300008 Macklin (priv.comm.), after normalization by a factor 2238601300009 of 0.989 to the absolute value of Ratynski et. al. 2238601300010 METHOD (TOF) Flight path is 78.8 cm 2238601300011 DETECTOR (SCIN,D4PI) Karlsruhe 4pi-Ba-F2 detector consisting of 2238601300012 42 hexagonal and pentagonal crystals forming 2238601300013 a spherical Ba-F2 shell of 15 cm thickness and 20 cm 2238601300014 inner diameter. Resolution is 7% at 2.5 MeV gamma 2238601300015 energy, time resolution 500 ps, peak efficiency 2238601300016 90% at 1 MeV 2238601300017 SAMPLE (64-GD-158,ENR=0.9730) .Oxide powder disk enriched by 2238601300018 isotope in question placed in aluminium can 0.3459 gr.2238601300019 Sum of all isotopes thickness is 5.8 mm == 8.6244E-3 2238601300020 atoms/b, weight of Gd2-O3 oxide is 4.6062 gram. 2238601300021 Weight impurities content is less than 0.3% 2238601300022 Isotopic composition is 2238601300023 Gd-152 content is less then 0.08%, 2238601300024 Gd-154 content is less then 0.08%, 2238601300025 Gd-155 content is 0.17%, Gd-156 content is 0.33%, 2238601300026 Gd-157 content is 0.78%, Gd-158 content is 97.30% 2238601300027 Gd-160 content is 1.42% 2238601300028 STATUS (TABLE) Data taken from Table VIII of PR/C,52,(5),2762 2238601300029 (DEP,22386007) 2238601300030 ERR-ANALYS (DATA-ERR) Total uncertainty from ratio. 2238601300031 Uncertainties of cross-sections can be calculated from 2238601300032 the uncertainty of the cross-section ratio by adding 2238601300033 quadratically the uncertainty of the gold standard 2238601300034 (ERR-S) Statistical uncertainty from ratio 2238601300035 (MONIT-ERR) standard gold cross-section error 2238601300036 HISTORY (20121217A) SD:Col.ERR-T -> DATA-ERR. ERR-ANALYS update2238601300037 ENDBIB 35 0 2238601300038 COMMON 1 3 2238601300039 MONIT-ERR 2238601300040 PER-CENT 2238601300041 1.5 2238601300042 ENDCOMMON 3 0 2238601300043 DATA 6 18 2238601300044 EN-MIN EN-MAX DATA ERR-S DATA-ERR MONIT 2238601300045 KEV KEV MB PER-CENT PER-CENT MB 2238601300046 3. 5. 923.1 7.7 7.7 2266.7 2238601300047 5. 7.5 722.7 3.5 3.6 1726.7 2238601300048 7.5 10. 586.2 3.0 3.1 1215.7 2238601300049 10. 12.5 509.8 2.2 2.3 1066.7 2238601300050 12.5 15. 464.7 1.9 2.0 878.0 2238601300051 15. 20. 426.4 1.1 1.3 738.8 2238601300052 20. 25. 399.2 1.0 1.2 600.0 2238601300053 25. 30. 344.0 0.8 1.2 570.8 2238601300054 30. 40. 307.9 0.6 0.8 500.4 2238601300055 40. 50. 275.7 0.6 0.8 433.3 2238601300056 50. 60. 248.7 0.6 0.8 389.6 2238601300057 60. 80. 223.9 0.5 0.8 349.4 2238601300058 80. 100. 155.5 0.6 0.8 298.3 2238601300059 100. 120. 133.4 0.7 0.9 290.1 2238601300060 120. 150. 111.3 1.0 1.2 274.1 2238601300061 150. 175. 93.68 1.2 1.3 263.7 2238601300062 175. 200. 88.86 1.2 1.3 252.6 2238601300063 200. 225. 86.07 1.6 1.7 248.5 2238601300064 ENDDATA 20 0 2238601300065 ENDSUBENT 64 0 2238601399999 SUBENT 22386014 20121217 22342238601400001 BIB 9 47 2238601400002 REACTION (64-GD-152(N,G)64-GD-153,,SIG,,MXW,DERIV) 2238601400003 Value given in data section is avg(sigma*V)/V-therm 2238601400004 MONITOR (79-AU-197(N,G)79-AU-198,,SIG) 2238601400005 ANALYSIS .Obtained by integrating cross-section from zero to 2238601400006 700 keV using different expressions for cross sect., 2238601400007 namely - contribution I-1 at low energies 0 - 3 keV 2238601400008 is calculated in three different ways - first, from 2238601400009 statistical model calculations fitted to present 2238601400010 results and resonance parameters data. Second, 2238601400011 cross-sections from joint evaluated file was 2238601400012 normalized to present data from 3 to 10 keV. Third, 2238601400013 cross-sections were calculated according to Uhl's 2238601400014 method. Contribution I-2 covers the range of present 2238601400015 experiment, for part I-3 above 225 keV this energy 2238601400016 range cross-sections were taken from joint evaluated 2238601400017 file. 2238601400018 SAMPLE (64-GD-152,ENR=0.3250) .Oxide powder disk enriched by 2238601400019 isotope in question placed in aluminium can 0.1890 gr.2238601400020 Sum of all isotopes thickness is 1.6 mm == 2.1742E-3 2238601400021 atoms/b, weight of Gd2-O3 oxide is 1.1427 gram. 2238601400022 Weight impurities content is less than 0.1% . 2238601400023 Isotopic composition is 2238601400024 Gd-152 content is 32.50%, Gd-154 content is 5.45% 2238601400025 Gd-155 content is 16.68%, Gd-156 content is 15.56% 2238601400026 Gd-157 content is 9.03%, Gd-158 content is 12.13% 2238601400027 Gd-160 content is 8.65% 2238601400028 MISC-COL (MISC1) I-1 2238601400029 (MISC2) I-2 2238601400030 (MISC3) I-3 2238601400031 REL-REF (R,,C.Nordborg+,C,91JUELIC,,782,1991) - JEF -file 2238601400032 (R,,S.F.Mughabghab+,B,NEUT.CS 1A,,1981) - resonance 2238601400033 (R,12987001,R.L.Macklin,J,NSE,95,304,1987) 2238601400034 parameters 2238601400035 STATUS (TABLE) Data taken from Table X of PR/C,52,(5),2762 2238601400036 and from Table 23 of FZKA-5510. 2238601400037 (DEP,22386008) 2238601400038 ERR-ANALYS (ERR-T) Total error 2238601400039 (ERR-S) Statistical uncertainty 2238601400040 (ERR-SYS) total systematic error of Maxwell. averaging 2238601400041 Systematic uncertainties are correspond to the 2238601400042 uncertainties of the cross section ratios. 2238601400043 The 1.5% uncertainty of the gold standard is not 2238601400044 included here, since it cancels out in most 2238601400045 applications of relevance for nuclear astrophysics 2238601400046 HISTORY (20121217A) SD: Col. EN-MEAN -> KT; values were changed2238601400047 Col. MISC1 - MISC3 were added. ERR-ANALYS update; 2238601400048 REL-REF added. SF9=DERIV was added to REACTION code. 2238601400049 ENDBIB 47 0 2238601400050 NOCOMMON 0 0 2238601400051 DATA 11 13 2238601400052 KT DATA ERR-SYS ERR-S ERR-T MISC1 2238601400053 MISC1-ERR MISC2 MISC2-ERR MISC3 MISC3-ERR 2238601400054 KEV MB MB MB MB MB 2238601400055 MB MB MB MB MB 2238601400056 10. 1951. 23. 43. 49. 340.22238601400057 34. 1611. 26. 0.0 2238601400058 12. 1732. 21. 32. 38. 241.92238601400059 24. 1490. 21. 0.0 2238601400060 20. 1280. 17. 15. 23. 91.32238601400061 9.1 1189. 12. 0.1 2238601400062 25. 1142. 15. 11. 19. 59.32238601400063 5.9 1082. 9.3 0.8 2238601400064 30. 1049. 14. 9.0 17. 41.62238601400065 4.2 1004. 8.0 3.0 0.1 2238601400066 40. 933.1 13. 7.0 15. 23.72238601400067 2.4 894.4 6.6 15.0 0.4 2238601400068 50. 864.4 12. 6.2 14. 15.32238601400069 1.5 811.1 5.9 38.0 1.1 2238601400070 52. 853.6 12. 6.1 13. 14.12238601400071 1.4 795.9 5.8 43.6 1.3 2238601400072 60. 818.0 11. 5.9 12. 10.62238601400073 1.1 738.8 5.4 68.6 2.2 2238601400074 70. 783.6 11. 6.2 13. 7.82238601400075 0.8 673.3 5.1 102.5 3.4 2238601400076 80. 756.3 11. 6.7 13. 6.02238601400077 0.6 613.8 4.7 136.5 4.8 2238601400078 90. 733.1 10. 7.6 13. 4.82238601400079 0.5 559.9 4.4 168.4 6.2 2238601400080 100. 712.3 10. 8.6 13. 3.92238601400081 0.4 511.3 4.1 197.1 7.6 2238601400082 ENDDATA 30 0 2238601400083 ENDSUBENT 82 0 2238601499999 SUBENT 22386015 20121217 22342238601500001 BIB 9 46 2238601500002 REACTION (64-GD-154(N,G)64-GD-155,,SIG,,MXW,DERIV) 2238601500003 Value given in data section is avg(sigma*V)/V-therm 2238601500004 MONITOR (79-AU-197(N,G)79-AU-198,,SIG) 2238601500005 ANALYSIS .Obtained by integrating cross-section from zero to 2238601500006 700 keV using different expressions for cross sect., 2238601500007 namely - contribution I-1 at low energies 0 - 3 keV 2238601500008 is calculated in three different ways - first, from 2238601500009 statistical model calculations fitted to present 2238601500010 results and resonance parameters data. Second, 2238601500011 cross-sections from joint evaluated file was 2238601500012 normalized to present data from 3 to 10 keV. Third, 2238601500013 cross-sections were calculated according to Uhl's 2238601500014 method. Contribution I-2 covers the range of present 2238601500015 experiment, for part I-3 above 225 keV this energy 2238601500016 range cross-sections were taken from joint evaluated 2238601500017 file. 2238601500018 SAMPLE (64-GD-154,ENR=0.5700) .Oxide powder disk enriched by 2238601500019 isotope in question placed in aluminium can 0.1830 gr.2238601500020 Sum of all isotopes thickness is 1.8 mm == 2.4185E-3 2238601500021 atoms/b, weight of Gd2-O3 oxide is 1.2677 gram. 2238601500022 Weight impurities content is less than 0.4% 2238601500023 Gd-152 content is 0.0%, Gd-154 content is 57.00%, 2238601500024 Gd-155 content is 32.70%, Gd-156 content is 5.30% 2238601500025 Gd-157 content is 2.10%, Gd-158 content is 1.90%, 2238601500026 Gd-160 content is 1.00% 2238601500027 MISC-COL (MISC1) I-1 2238601500028 (MISC2) I-2 2238601500029 (MISC3) I-3 2238601500030 REL-REF (R,,C.Nordborg+,C,91JUELIC,,782,1991) - JEF -file 2238601500031 (R,,S.F.Mughabghab+,B,NEUT.CS 1A,,1981) - resonance 2238601500032 (R,12987001,R.L.Macklin,J,NSE,95,304,1987) 2238601500033 parameters 2238601500034 STATUS (TABLE) Data taken from Table X of PR/C,52,(5),2762 2238601500035 and from Table 23 of FZKA-5510. 2238601500036 (DEP,22386009) 2238601500037 ERR-ANALYS (ERR-T) Total error 2238601500038 (ERR-S) Statistical uncertainty 2238601500039 (ERR-SYS) total systematic error of Maxwell. averaging 2238601500040 Systematic uncertainties are correspond to the 2238601500041 uncertainties of the cross section ratios. 2238601500042 The 1.5% uncertainty of the gold standard is not 2238601500043 included here, since it cancels out in most 2238601500044 applications of relevance for nuclear astrophysics 2238601500045 HISTORY (20121217A) SD: Col. EN-MEAN -> KT; values were changed2238601500046 Col. MISC1 - MISC3 were added. ERR-ANALYS update; 2238601500047 REL-REF added. SF9=DERIV was added to REACTION code. 2238601500048 ENDBIB 46 0 2238601500049 NOCOMMON 0 0 2238601500050 DATA 11 13 2238601500051 KT DATA ERR-SYS ERR-S ERR-T MISC1 2238601500052 MISC1-ERR MISC2 MISC2-ERR MISC3 MISC3-ERR 2238601500053 KEV MB MB MB MB MB 2238601500054 MB MB MB MB MB 2238601500055 10. 1863. 16. 34. 38. 303.52238601500056 30. 1559. 16. 0.0 2238601500057 12. 1668. 15. 26. 30. 216.22238601500058 22. 1452. 13. 0.0 2238601500059 20. 1258. 12. 11. 16. 81.92238601500060 8.2 1176. 7.3 0.1 2238601500061 25. 1124. 11. 7.9 14. 53.32238601500062 5.3 1070. 5.8 0.5 2238601500063 30. 1028. 10. 6.1 12. 37.42238601500064 3.7 989.0 4.9 1.9 0.1 2238601500065 40. 897.7 8.8 4.4 9.8 21.32238601500066 2.1 866.6 3.9 9.8 0.3 2238601500067 50. 809.5 8.0 3.7 8.8 13.72238601500068 1.4 770.8 3.3 25.0 0.7 2238601500069 52. 795.1 7.8 3.6 8.6 12.72238601500070 1.3 753.6 3.2 28.8 0.9 2238601500071 60. 744.5 7.3 3.4 8.1 9.62238601500072 1.0 689.5 2.9 45.4 1.4 2238601500073 70. 694.0 6.9 3.5 7.7 7.02238601500074 0.7 618.7 2.6 68.3 2.3 2238601500075 80. 653.4 6.5 4.1 7.7 5.42238601500076 0.5 556.6 2.4 91.4 3.3 2238601500077 90. 620.0 6.2 4.8 7.8 4.32238601500078 0.4 502.2 2.2 113.5 4.3 2238601500079 100. 591.4 5.9 5.7 8.2 3.52238601500080 0.4 454.3 2.0 133.6 5.3 2238601500081 ENDDATA 30 0 2238601500082 ENDSUBENT 81 0 2238601599999 SUBENT 22386016 20121217 22342238601600001 BIB 9 46 2238601600002 REACTION (64-GD-155(N,G)64-GD-156,,SIG,,MXW,DERIV) 2238601600003 Value given in data section is avg(sigma*V)/V-therm 2238601600004 MONITOR (79-AU-197(N,G)79-AU-198,,SIG) 2238601600005 ANALYSIS .Obtained by integrating cross-section from zero to 2238601600006 700 keV using different expressions for cross sect., 2238601600007 namely - contribution I-1 at low energies 0 - 3 keV 2238601600008 is calculated in three different ways - first, from 2238601600009 statistical model calculations fitted to present 2238601600010 results and resonance parameters data. Second, 2238601600011 cross-sections from joint evaluated file was 2238601600012 normalized to present data from 3 to 10 keV. Third, 2238601600013 cross-sections were calculated according to Uhl's 2238601600014 method. Contribution I-2 covers the range of present 2238601600015 experiment, for part I-3 above 225 keV this energy 2238601600016 range cross-sections were taken from joint evaluated 2238601600017 file. 2238601600018 SAMPLE (64-GD-155,ENR=0.9160) .Oxide powder disk enriched by 2238601600019 isotope in question placed in aluminium can 0.1830 gr.2238601600020 Sum of all isotopes thickness is 0.9 mm == 1.3086E-3 2238601600021 atoms/b, weight of Gd2-O3 oxide is 0.6878 gram. 2238601600022 Weight impurities content is less than 0.1% 2238601600023 Gd-152 content is less than 0.01%, 2238601600024 Gd-154 content is 0.22%, Gd-155 content is 91.60% 2238601600025 Gd-156 content is 6.34%, Gd-157 content is 0.78%, 2238601600026 Gd-158 content is 0.73%, Gd-160 content is 0.33% 2238601600027 MISC-COL (MISC1) I-1 2238601600028 (MISC2) I-2 2238601600029 (MISC3) I-3 2238601600030 REL-REF (R,,C.Nordborg+,C,91JUELIC,,782,1991) - JEF -file 2238601600031 (R,,S.F.Mughabghab+,B,NEUT.CS 1A,,1981) - resonance 2238601600032 (R,12987001,R.L.Macklin,J,NSE,95,304,1987) 2238601600033 parameters 2238601600034 STATUS (TABLE) Data taken from Table X of PR/C,52,(5),2762 2238601600035 and from Table 23 of FZKA-5510. 2238601600036 (DEP,22386010) 2238601600037 ERR-ANALYS (ERR-T) Total error 2238601600038 (ERR-S) Statistical uncertainty 2238601600039 (ERR-SYS) total systematic error of Maxwell. averaging 2238601600040 Systematic uncertainties are correspond to the 2238601600041 uncertainties of the cross section ratios. 2238601600042 The 1.5% uncertainty of the gold standard is not 2238601600043 included here, since it cancels out in most 2238601600044 applications of relevance for nuclear astrophysics 2238601600045 HISTORY (20121217A) SD: Col. EN-MEAN -> KT; values were changed2238601600046 Col. MISC1 - MISC3 were added. ERR-ANALYS update; 2238601600047 REL-REF added. SF9=DERIV was added to REACTION code. 2238601600048 ENDBIB 46 0 2238601600049 NOCOMMON 0 0 2238601600050 DATA 11 13 2238601600051 KT DATA ERR-SYS ERR-S ERR-T MISC1 2238601600052 MISC1-ERR MISC2 MISC2-ERR MISC3 MISC3-ERR 2238601600053 KEV MB MB MB MB MB 2238601600054 MB MB MB MB MB 2238601600055 10. 5030. 43. 83. 93. 723.02238601600056 72. 4307. 41. 0.0 2238601600057 12. 4507. 40. 62. 74. 515.62238601600058 52. 3991. 33. 0.0 2238601600059 20. 3347. 32. 27. 42. 195.92238601600060 20. 3151. 18. 0.1 2238601600061 25. 2943. 28. 19. 34. 127.42238601600062 13. 2815. 14. 0.9 2238601600063 30. 2648. 26. 15. 30. 89.42238601600064 8.9 2555. 12. 3.4 0.1 2238601600065 40. 2233. 22. 10. 24. 51.02238601600066 5.1 2165. 9.0 17.0 0.5 2238601600067 50. 1948. 19. 8.4 21. 32.92238601600068 3.3 1873. 7.6 42.1 1.2 2238601600069 52. 1902. 19. 8.0 21. 30.42238601600070 3.0 1823. 7.3 48.2 1.4 2238601600071 60. 1738. 17. 7.4 19. 23.02238601600072 2.3 1640. 6.6 74.6 2.3 2238601600073 70. 1574. 16. 7.1 18. 16.92238601600074 1.7 1448. 5.9 109.4 3.5 2238601600075 80. 1441. 14. 7.3 16. 13.02238601600076 1.3 1285. 5.3 143.1 4.8 2238601600077 90. 1332. 13. 7.7 15. 10.32238601600078 1.0 1148. 4.8 173.5 6.0 2238601600079 100. 1238. 12. 8.5 15. 8.42238601600080 0.8 1030. 4.4 199.9 7.2 2238601600081 ENDDATA 30 0 2238601600082 ENDSUBENT 81 0 2238601699999 SUBENT 22386017 20121217 22342238601700001 BIB 9 46 2238601700002 REACTION (64-GD-156(N,G)64-GD-157,,SIG,,MXW,DERIV) 2238601700003 Value given in data section is avg(sigma*V)/V-therm 2238601700004 MONITOR (79-AU-197(N,G)79-AU-198,,SIG) 2238601700005 ANALYSIS .Obtained by integrating cross-section from zero to 2238601700006 700 keV using different expressions for cross sect., 2238601700007 namely - contribution I-1 at low energies 0 - 3 keV 2238601700008 is calculated in three different ways - first, from 2238601700009 statistical model calculations fitted to present 2238601700010 results and resonance parameters data. Second, 2238601700011 cross-sections from joint evaluated file was 2238601700012 normalized to present data from 3 to 10 keV. Third, 2238601700013 cross-sections were calculated according to Uhl's 2238601700014 method. Contribution I-2 covers the range of present 2238601700015 experiment, for part I-3 above 225 keV this energy 2238601700016 range cross-sections were taken from joint evaluated 2238601700017 file. 2238601700018 SAMPLE (64-GD-156,ENR=0.9350) .Oxide powder disk enriched by 2238601700019 isotope in question placed in aluminium can 0.2138 gr.2238601700020 Sum of all isotopes thickness is 2.3 mm == 3.1241E-3 2238601700021 atoms/b, weight of Gd2-O3 oxide is 1.6507 gram. 2238601700022 Weight impurities content is less than 0.2% 2238601700023 Gd-152 content is less than 0.1%, 2238601700024 Gd-154 content is 0.20%, Gd-155 content is 1.30%, 2238601700025 Gd-156 content is 93.50%, Gd-157 content is 3.30% 2238601700026 Gd-158 content is 1.30%, Gd-160 content is 0.40% 2238601700027 MISC-COL (MISC1) I-1 2238601700028 (MISC2) I-2 2238601700029 (MISC3) I-3 2238601700030 REL-REF (R,,C.Nordborg+,C,91JUELIC,,782,1991) - JEF -file 2238601700031 (R,,S.F.Mughabghab+,B,NEUT.CS 1A,,1981) - resonance 2238601700032 (R,12987001,R.L.Macklin,J,NSE,95,304,1987) 2238601700033 parameters 2238601700034 STATUS (TABLE) Data taken from Table X of PR/C,52,(5),2762 2238601700035 and from Table 23 of FZKA-5510. 2238601700036 (DEP,22386011) 2238601700037 ERR-ANALYS (ERR-T) Total error 2238601700038 (ERR-S) Statistical uncertainty 2238601700039 (ERR-SYS) total systematic error of Maxwell. averaging 2238601700040 Systematic uncertainties are correspond to the 2238601700041 uncertainties of the cross section ratios. 2238601700042 The 1.5% uncertainty of the gold standard is not 2238601700043 included here, since it cancels out in most 2238601700044 applications of relevance for nuclear astrophysics 2238601700045 HISTORY (20121217A) SD: Col. EN-MEAN -> KT; values were changed2238601700046 Col. MISC1 - MISC3 were added. ERR-ANALYS update; 2238601700047 REL-REF added. SF9=DERIV was added to REACTION code. 2238601700048 ENDBIB 46 0 2238601700049 NOCOMMON 0 0 2238601700050 DATA 11 13 2238601700051 KT DATA ERR-SYS ERR-S ERR-T MISC1 2238601700052 MISC1-ERR MISC2 MISC2-ERR MISC3 MISC3-ERR 2238601700053 KEV MB MB MB MB MB 2238601700054 MB MB MB MB MB 2238601700055 10. 1117. 5.7 19. 20. 173.62238601700056 17. 943.5 9.4 0.0 2238601700057 12. 1004. 5.3 14. 15. 123.62238601700058 12. 880.3 7.5 0.0 2238601700059 20. 760.4 4.3 6.3 7.6 46.92238601700060 4.7 713.5 4.2 0.0 2238601700061 25. 676.8 3.9 4.6 6.0 30.52238601700062 3.1 646.0 3.4 0.3 2238601700063 30. 615.2 3.6 3.6 5.1 21.42238601700064 2.1 592.8 2.9 1.0 2238601700065 40. 528.0 3.1 2.6 4.0 12.22238601700066 1.2 510.7 2.3 5.1 0.1 2238601700067 50. 468.0 2.8 2.2 3.6 7.82238601700068 0.8 447.1 2.0 13.1 0.4 2238601700069 52. 458.2 2.7 2.1 3.4 7.32238601700070 0.7 435.8 1.9 15.1 0.5 2238601700071 60. 424.1 2.5 2.0 3.2 5.52238601700072 0.6 394.7 1.7 23.9 0.8 2238601700073 70. 390.3 2.3 2.0 3.0 4.02238601700074 0.4 350.3 1.6 36.0 1.2 2238601700075 80. 363.9 2.2 2.2 3.1 3.12238601700076 0.3 312.5 1.4 48.3 1.7 2238601700077 90. 342.5 2.0 2.7 3.4 2.52238601700078 0.3 279.9 1.3 60.1 2.3 2238601700079 100. 324.5 1.9 3.1 3.6 2.02238601700080 0.2 251.8 1.2 70.7 2.8 2238601700081 ENDDATA 30 0 2238601700082 ENDSUBENT 81 0 2238601799999 SUBENT 22386018 20121217 22342238601800001 BIB 9 46 2238601800002 REACTION (64-GD-157(N,G)64-GD-158,,SIG,,MXW,DERIV) 2238601800003 Value given in data section is avg(sigma*V)/V-therm 2238601800004 MONITOR (79-AU-197(N,G)79-AU-198,,SIG) 2238601800005 ANALYSIS .Obtained by integrating cross-section from zero to 2238601800006 700 keV using different expressions for cross sect., 2238601800007 namely - contribution I-1 at low energies 0 - 3 keV 2238601800008 is calculated in three different ways - first, from 2238601800009 statistical model calculations fitted to present 2238601800010 results and resonance parameters data. Second, 2238601800011 cross-sections from joint evaluated file was 2238601800012 normalized to present data from 3 to 10 keV. Third, 2238601800013 cross-sections were calculated according to Uhl's 2238601800014 method. Contribution I-2 covers the range of present 2238601800015 experiment, for part I-3 above 225 keV this energy 2238601800016 range cross-sections were taken from joint evaluated 2238601800017 file. 2238601800018 SAMPLE (64-GD-157,ENR=0.8960) .Oxide powder disk enriched by 2238601800019 isotope in question placed in aluminium can 0.1805 gr.2238601800020 Sum of all isotopes thickness is 1.7 mm == 2.3882E-3 2238601800021 atoms/b, weight of Gd2-O3 oxide is 1.2689 gram. 2238601800022 Weight impurities content is less than 0.2% 2238601800023 Gd-152 content is less than 0.04%, 2238601800024 Gd-154 content is 0.05%, Gd-155 content is 0.30%, 2238601800025 Gd-156 content is 1.71%, Gd-157 content is 89.60% 2238601800026 Gd-158 content is 7.78%, Gd-160 content is 0.56% 2238601800027 MISC-COL (MISC1) I-1 2238601800028 (MISC2) I-2 2238601800029 (MISC3) I-3 2238601800030 REL-REF (R,,C.Nordborg+,C,91JUELIC,,782,1991) - JEF -file 2238601800031 (R,,S.F.Mughabghab+,B,NEUT.CS 1A,,1981) - resonance 2238601800032 (R,12987001,R.L.Macklin,J,NSE,95,304,1987) 2238601800033 parameters 2238601800034 STATUS (TABLE) Data taken from Table X of PR/C,52,(5),2762 2238601800035 and from Table 23 of FZKA-5510. 2238601800036 (DEP,22386012) 2238601800037 ERR-ANALYS (ERR-T) Total error 2238601800038 (ERR-S) Statistical uncertainty 2238601800039 (ERR-SYS) total systematic error of Maxwell. averaging 2238601800040 Systematic uncertainties are correspond to the 2238601800041 uncertainties of the cross section ratios. 2238601800042 The 1.5% uncertainty of the gold standard is not 2238601800043 included here, since it cancels out in most 2238601800044 applications of relevance for nuclear astrophysics 2238601800045 HISTORY (20121217A) SD: Col. EN-MEAN -> KT; values were changed2238601800046 Col. MISC1 - MISC3 were added. ERR-ANALYS update; 2238601800047 REL-REF added. SF9=DERIV was added to REACTION code. 2238601800048 ENDBIB 46 0 2238601800049 NOCOMMON 0 0 2238601800050 DATA 11 13 2238601800051 KT DATA ERR-SYS ERR-S ERR-T MISC1 2238601800052 MISC1-ERR MISC2 MISC2-ERR MISC3 MISC3-ERR 2238601800053 KEV MB MB MB MB MB 2238601800054 MB MB MB MB MB 2238601800055 10. 2803. 21. 52. 56. 467.72238601800056 47. 2335. 22. 0.0 2238601800057 12. 2487. 19. 38. 42. 333.02238601800058 33. 2154. 18. 0.0 2238601800059 20. 1791. 15. 16. 22. 126.12238601800060 13. 1665. 9.5 0.0 2238601800061 25. 1547. 13. 11. 17. 81.92238601800062 8.2 1465. 7.5 0.4 2238601800063 30. 1369. 12. 8.5 15. 57.52238601800064 5.8 1310. 6.2 1.5 2238601800065 40. 1123. 9.8 5.7 11. 32.82238601800066 3.3 1083. 4.7 7.4 0.2 2238601800067 50. 958.8 8.4 4.5 9.5 21.12238601800068 2.1 919.2 3.9 18.5 0.5 2238601800069 52. 932.3 8.2 4.3 9.3 19.52238601800070 2.0 891.5 3.8 21.3 0.6 2238601800071 60. 841.1 7.4 3.8 8.3 14.82238601800072 1.5 793.1 3.3 33.2 1.0 2238601800073 70. 752.3 6.7 3.5 7.6 10.92238601800074 1.1 692.0 2.9 49.4 1.6 2238601800075 80. 682.7 6.1 3.6 7.1 8.42238601800076 0.8 609.0 2.6 65.3 2.3 2238601800077 90. 626.6 5.6 3.8 6.8 6.62238601800078 0.7 539.8 2.4 80.2 2.9 2238601800079 100. 580.3 5.2 4.1 6.6 5.42238601800080 0.5 481.6 2.1 93.3 3.5 2238601800081 ENDDATA 30 0 2238601800082 ENDSUBENT 81 0 2238601899999 SUBENT 22386019 20121217 22342238601900001 BIB 9 49 2238601900002 REACTION (64-GD-158(N,G)64-GD-159,,SIG,,MXW,DERIV) 2238601900003 Value given in data section is avg(sigma*V)/V-therm 2238601900004 MONITOR (79-AU-197(N,G)79-AU-198,,SIG) 2238601900005 ANALYSIS .Obtained by integrating cross-section from zero to 2238601900006 700 keV using different expressions for cross sect., 2238601900007 namely - contribution I-1 at low energies 0 - 3 keV 2238601900008 is calculated in three different ways - first, from 2238601900009 statistical model calculations fitted to present 2238601900010 results and resonance parameters data. Second, 2238601900011 cross-sections from Joint Evaluated File was 2238601900012 normalized to present data from 3 to 10 keV. Third, 2238601900013 cross-sections were calculated according to Uhl's 2238601900014 method. Contribution I-2 covers the range of present 2238601900015 experiment, for part I-3 above 225 keV this energy 2238601900016 range cross-sections were taken from joint evaluated 2238601900017 file. 2238601900018 SAMPLE (64-GD-158,ENR=0.9730) .Oxide powder disk enriched by 2238601900019 isotope in question placed in aluminium can 0.3459 gr.2238601900020 Sum of all isotopes thickness is 5.8 mm == 8.6244E-3 2238601900021 atoms/b, weight of Gd2-O3 oxide is 4.6062 gram. 2238601900022 Weight impurities content is less than 0.3% 2238601900023 Isotopic composition is 2238601900024 Gd-152 content is less then 0.08%, 2238601900025 Gd-154 content is less then 0.08%, 2238601900026 Gd-155 content is 0.17%, Gd-156 content is 0.33%, 2238601900027 Gd-157 content is 0.78 pc, Gd-158 content is 97.30% 2238601900028 Gd-160 content is 1.42% 2238601900029 REL-REF (R,,C.Nordborg+,C,91JUELIC,,782,1991) - JEF -file 2238601900030 (R,,S.F.Mughabghab+,B,NEUT.CS 1A,,1981) - resonance 2238601900031 (R,12987001,R.L.Macklin,J,NSE,95,304,1987) 2238601900032 parameters 2238601900033 MISC-COL (MISC1) I-1 2238601900034 (MISC2) I-2 2238601900035 (MISC3) I-3 2238601900036 STATUS (TABLE) Data taken from Table X of PR/C,52,(5),2762 2238601900037 and from Table 23 of FZKA-5510. 2238601900038 (DEP,22386013) 2238601900039 ERR-ANALYS (ERR-T) Total error 2238601900040 (ERR-S) Statistical uncertainty 2238601900041 (ERR-SYS) total systematic error of Maxwell. averaging 2238601900042 Systematic uncertainties are correspond to the 2238601900043 uncertainties of the cross section ratios. 2238601900044 The 1.5% uncertainty of the gold standard is not 2238601900045 included here, since it cancels out in most 2238601900046 applications of relevance for nuclear astrophysics 2238601900047 HISTORY (20121217A) SD: Col. EN-MEAN -> KT; values were changed2238601900048 Col. MISC1 - MISC3 were added. ERR-ANALYS update; 2238601900049 REL-REF added. MONITOR deleted. SF9=DERIV was added 2238601900050 to REACTION code. 2238601900051 ENDBIB 49 0 2238601900052 NOCOMMON 0 0 2238601900053 DATA 11 13 2238601900054 KT DATA ERR-SYS ERR-S ERR-T MISC1 2238601900055 MISC1-ERR MISC2 MISC2-ERR MISC3 MISC3-ERR 2238601900056 KEV MB MB MB MB MB 2238601900057 MB MB MB MB MB 2238601900058 10. 595.4 3.0 11. 11. 90.02238601900059 9.0 505.4 5.9 0.0 2238601900060 12. 538.2 2.8 7.9 8.4 64.22238601900061 6.4 474.0 4.7 0.0 2238601900062 20. 407.6 2.3 3.5 4.2 24.32238601900063 2.4 383.3 2.6 0.0 2238601900064 25. 359.8 2.1 2.6 3.3 15.82238601900065 1.6 343.9 2.1 0.1 2238601900066 30. 323.6 1.9 2.0 2.8 11.12238601900067 1.1 312.1 1.7 0.4 2238601900068 40. 271.5 1.6 1.4 2.1 6.42238601900069 0.6 262.9 1.3 2.2 0.1 2238601900070 50. 235.5 1.4 1.2 1.8 4.12238601900071 0.4 225.8 1.1 5.6 0.2 2238601900072 52. 229.7 1.4 1.2 1.8 3.82238601900073 0.4 219.4 1.1 6.5 0.2 2238601900074 60. 209.3 1.2 1.1 1.6 2.82238601900075 0.3 196.3 1.0 10.2 0.3 2238601900076 70. 189.5 1.1 1.0 1.5 2.12238601900077 0.2 172.1 0.9 15.3 0.5 2238601900078 80. 174.2 1.0 1.1 1.5 1.62238601900079 0.2 152.1 0.8 20.5 0.7 2238601900080 90. 161.8 1.0 1.2 1.6 1.22238601900081 0.1 135.2 0.7 25.4 1.0 2238601900082 100. 151.6 0.9 1.3 1.6 1.02238601900083 0.1 120.8 0.6 29.8 1.2 2238601900084 ENDDATA 30 0 2238601900085 ENDSUBENT 84 0 2238601999999 SUBENT 22386020 20121217 22342238602000001 BIB 9 29 2238602000002 REACTION (64-GD-152(N,TOT),,SIG,,AV) Averaged over energy 2238602000003 interval given in data section 2238602000004 METHOD (TOF,TRN) Flight path is 260 m 2238602000005 DETECTOR (GLASD) .Li-6 glass detector 2238602000006 SAMPLE (64-GD-152,ENR=0.3250) .Oxide powder disk enriched by 2238602000007 isotope in question placed in aluminium can 0.1890 gr.2238602000008 Sum of all isotopes thickness is 1.6 mm == 2.1742E-3 2238602000009 atoms/b, weight of Gd2-O3 oxide is 1.1427 gram. 2238602000010 Weight impurities content is less than 0.1% 2238602000011 Isotopic composition is 2238602000012 Gd-152 content is 32.50%, Gd-154 content is 5.45% 2238602000013 Gd-155 content is 16.68%, Gd-156 content is 15.56% 2238602000014 Gd-157 content is 9.03%, Gd-158 content is 12.13% 2238602000015 Gd-160 content is 8.65% 2238602000016 MONITOR (8-O-16(N,TOT),,SIG) 2238602000017 MONIT-REF (,C.Nordborg+,C,91JUELIC,,782,1991) 2238602000018 Cross sections were calculated using the total cross 2238602000019 section for oxygen from the JEF (Joint Evaluated 2238602000020 File) evaluation. 2238602000021 STATUS (TABLE) Data taken from Table III of PR/C,52,(5),2762 2238602000022 ERR-ANALYS (ERR-SYS) Systematic uncertainties are quoted 2238602000023 assuming that they are inversely proportional to the 2238602000024 fraction of neutrons interacting in the sample, A=1-T,2238602000025 where T is transmission. Compared to that effect, 2238602000026 statistical uncertainties can be neglected. 2238602000027 The oxygen cross section was adopted from the JEF 2238602000028 evaluation and its uncertainty was neglected. 2238602000029 HISTORY (20121219A) SD: MONITOR, MONIT-REF,REL-REF were added; 2238602000030 ERR-ANALYS update. 2238602000031 ENDBIB 29 0 2238602000032 COMMON 1 3 2238602000033 ERR-SYS 2238602000034 PER-CENT 2238602000035 20. 2238602000036 ENDCOMMON 3 0 2238602000037 DATA 3 9 2238602000038 EN-MIN EN-MAX DATA 2238602000039 KEV KEV B 2238602000040 10. 15. 15.5 2238602000041 15. 20. 20.3 2238602000042 20. 30. 18.2 2238602000043 30. 40. 15.5 2238602000044 40. 60. 13.6 2238602000045 60. 80. 13.7 2238602000046 80. 100. 13.0 2238602000047 100. 150. 13.9 2238602000048 150. 200. 9.6 2238602000049 ENDDATA 11 0 2238602000050 ENDSUBENT 49 0 2238602099999 SUBENT 22386021 20121217 22342238602100001 BIB 9 28 2238602100002 REACTION (64-GD-154(N,TOT),,SIG,,AV) Averaged over energy 2238602100003 interval given in data section 2238602100004 METHOD (TOF,TRN) Flight path is 260 m 2238602100005 DETECTOR (GLASD) .Li-6 glass detector 2238602100006 SAMPLE (64-GD-154,ENR=0.5700) .Oxide powder disk enriched by 2238602100007 isotope in question placed in aluminium can 0.1830 gr.2238602100008 Sum of all isotopes thickness is 1.8 mm == 2.4185E-3 2238602100009 atoms/b, weight of Gd2-O3 oxide is 1.2677 gram. 2238602100010 Weight impurities content is less than 0.4% 2238602100011 Gd-152 content is 0.0%, Gd-154 content is 57.00%, 2238602100012 Gd-155 content is 32.70%, Gd-156 content is 5.30% 2238602100013 Gd-157 content is 2.10%, Gd-158 content is 1.90%, 2238602100014 Gd-160 content is 1.00% 2238602100015 MONITOR (8-O-16(N,TOT),,SIG) 2238602100016 MONIT-REF (,C.Nordborg+,C,91JUELIC,,782,1991) 2238602100017 Cross sections were calculated using the total cross 2238602100018 section for oxygen from the JEF (Joint Evaluated 2238602100019 File) evaluation. 2238602100020 STATUS (TABLE) Data taken from Table III of PR/C,52,(5),2762 2238602100021 ERR-ANALYS (ERR-SYS) Systematic uncertainties are quoted 2238602100022 assuming that they are inversely proportional to the 2238602100023 fraction of neutrons interacting in the sample, A=1-T,2238602100024 where T is transmission. Compared to that effect, 2238602100025 statistical uncertainties can be neglected. 2238602100026 The oxygen cross section was adopted from the JEF 2238602100027 evaluation and its uncertainty was neglected. 2238602100028 HISTORY (20121219A) SD: MONITOR, MONIT-REF,REL-REF were added; 2238602100029 ERR-ANALYS update. 2238602100030 ENDBIB 28 0 2238602100031 COMMON 1 3 2238602100032 ERR-SYS 2238602100033 PER-CENT 2238602100034 15. 2238602100035 ENDCOMMON 3 0 2238602100036 DATA 3 9 2238602100037 EN-MIN EN-MAX DATA 2238602100038 KEV KEV B 2238602100039 10. 15. 18.4 2238602100040 15. 20. 14.5 2238602100041 20. 30. 14.3 2238602100042 30. 40. 12.7 2238602100043 40. 60. 11.4 2238602100044 60. 80. 12.0 2238602100045 80. 100. 10.7 2238602100046 100. 150. 12.1 2238602100047 150. 200. 11.2 2238602100048 ENDDATA 11 0 2238602100049 ENDSUBENT 48 0 2238602199999 SUBENT 22386022 20121217 22342238602200001 BIB 9 28 2238602200002 REACTION (64-GD-155(N,TOT),,SIG,,AV) Averaged over energy 2238602200003 interval given in data section 2238602200004 METHOD (TOF,TRN) Flight path is 260 m 2238602200005 DETECTOR (GLASD) .Li-6 glass detector 2238602200006 SAMPLE (64-GD-155,ENR=0.9160) .Oxide powder disk enriched by 2238602200007 isotope in question placed in aluminium can 0.1830 gr.2238602200008 Sum of all isotopes thickness is 0.9 mm == 1.3086E-3 2238602200009 atoms/b, weight of Gd2-O3 oxide is 0.6878 gram. 2238602200010 Weight impurities content is less than 0.1% 2238602200011 Gd-152 content is less than 0.01%, 2238602200012 Gd-154 content is 0.22%, Gd-155 content is 91.60% 2238602200013 Gd-156 content is 6.34%, Gd-157 content is 0.78%, 2238602200014 Gd-158 content is 0.73%, Gd-160 content is 0.33% 2238602200015 MONITOR (8-O-16(N,TOT),,SIG) 2238602200016 MONIT-REF (,C.Nordborg+,C,91JUELIC,,782,1991) 2238602200017 Cross sections were calculated using the total cross 2238602200018 section for oxygen from the JEF (Joint Evaluated 2238602200019 File) evaluation. 2238602200020 STATUS (TABLE) Data taken from Table III of PR/C,52,(5),2762 2238602200021 ERR-ANALYS (ERR-SYS) Systematic uncertainties are quoted 2238602200022 assuming that they are inversely proportional to the 2238602200023 fraction of neutrons interacting in the sample, A=1-T,2238602200024 where T is transmission. Compared to that effect, 2238602200025 statistical uncertainties can be neglected. 2238602200026 The oxygen cross section was adopted from the JEF 2238602200027 evaluation and its uncertainty was neglected. 2238602200028 HISTORY (20121219A) SD: MONITOR, MONIT-REF,REL-REF were added; 2238602200029 ERR-ANALYS update. 2238602200030 ENDBIB 28 0 2238602200031 COMMON 1 3 2238602200032 ERR-SYS 2238602200033 PER-CENT 2238602200034 24.9 2238602200035 ENDCOMMON 3 0 2238602200036 DATA 3 9 2238602200037 EN-MIN EN-MAX DATA 2238602200038 KEV KEV B 2238602200039 10. 15. 13.3 2238602200040 15. 20. 13.5 2238602200041 20. 30. 8.8 2238602200042 30. 40. 11.8 2238602200043 40. 60. 12.0 2238602200044 60. 80. 12.3 2238602200045 80. 100. 8.3 2238602200046 100. 150. 11.0 2238602200047 150. 200. 10.4 2238602200048 ENDDATA 11 0 2238602200049 ENDSUBENT 48 0 2238602299999 SUBENT 22386023 20121217 22342238602300001 BIB 9 28 2238602300002 REACTION (64-GD-156(N,TOT),,SIG,,AV) Averaged over energy 2238602300003 interval given in data section 2238602300004 METHOD (TOF,TRN) Flight path is 260 m 2238602300005 DETECTOR (GLASD) .Li-6 glass detector 2238602300006 SAMPLE (64-GD-156,ENR=0.9350) .Oxide powder disk enriched by 2238602300007 isotope in question placed in aluminium can 0.2138 gr.2238602300008 Sum of all isotopes thickness is 2.3 mm == 3.1241E-3 2238602300009 atoms/b, weight of Gd2-O3 oxide is 1.6507 gram. 2238602300010 Weight impurities content is less than 0.2% 2238602300011 Gd-152 content is less than 0.1%, 2238602300012 Gd-154 content is 0.20%, Gd-155 content is 1.30%, 2238602300013 Gd-156 content is 93.50%, Gd-157 content is 3.30% 2238602300014 Gd-158 content is 1.30%, Gd-160 content is 0.40% 2238602300015 MONITOR (8-O-16(N,TOT),,SIG) 2238602300016 MONIT-REF (,C.Nordborg+,C,91JUELIC,,782,1991) 2238602300017 Cross sections were calculated using the total cross 2238602300018 section for oxygen from the JEF (Joint Evaluated 2238602300019 File) evaluation. 2238602300020 STATUS (TABLE) Data taken from Table III of PR/C,52,(5),2762 2238602300021 ERR-ANALYS (ERR-SYS) Systematic uncertainties are quoted 2238602300022 assuming that they are inversely proportional to the 2238602300023 fraction of neutrons interacting in the sample, A=1-T,2238602300024 where T is transmission. Compared to that effect, 2238602300025 statistical uncertainties can be neglected. 2238602300026 The oxygen cross section was adopted from the JEF 2238602300027 evaluation and its uncertainty was neglected. 2238602300028 HISTORY (20121219A) SD: MONITOR, MONIT-REF,REL-REF were added; 2238602300029 ERR-ANALYS update. 2238602300030 ENDBIB 28 0 2238602300031 COMMON 1 3 2238602300032 ERR-SYS 2238602300033 PER-CENT 2238602300034 9.5 2238602300035 ENDCOMMON 3 0 2238602300036 DATA 3 9 2238602300037 EN-MIN EN-MAX DATA 2238602300038 KEV KEV B 2238602300039 10. 15. 15.4 2238602300040 15. 20. 13.6 2238602300041 20. 30. 11.7 2238602300042 30. 40. 11.6 2238602300043 40. 60. 10.8 2238602300044 60. 80. 12.2 2238602300045 80. 100. 10.1 2238602300046 100. 150. 10.5 2238602300047 150. 200. 9.5 2238602300048 ENDDATA 11 0 2238602300049 ENDSUBENT 48 0 2238602399999 SUBENT 22386024 20121217 22342238602400001 BIB 9 28 2238602400002 REACTION (64-GD-157(N,TOT),,SIG,,AV) Averaged over energy 2238602400003 interval given in data section 2238602400004 METHOD (TOF,TRN) Flight path is 260 m 2238602400005 DETECTOR (GLASD) .Li-6 glass detector 2238602400006 SAMPLE (64-GD-157,ENR=0.8960) .Oxide powder disk enriched by 2238602400007 isotope in question placed in aluminium can 0.1805 gr.2238602400008 Sum of all isotopes thickness is 1.7 mm == 2.3882E-3 2238602400009 atoms/b, weight of Gd2-O3 oxide is 1.2689 gram. 2238602400010 Weight impurities content is less than 0.2% 2238602400011 Gd-152 content is less than 0.04%, 2238602400012 Gd-154 content is 0.05%, Gd-155 content is 0.30%, 2238602400013 Gd-156 content is 1.71%, Gd-157 content is 89.60% 2238602400014 Gd-158 content is 7.78%, Gd-160 content is 0.56% 2238602400015 MONITOR (8-O-16(N,TOT),,SIG) 2238602400016 MONIT-REF (,C.Nordborg+,C,91JUELIC,,782,1991) 2238602400017 Cross sections were calculated using the total cross 2238602400018 section for oxygen from the JEF (Joint Evaluated 2238602400019 File) evaluation. 2238602400020 STATUS (TABLE) Data taken from Table III of PR/C,52,(5),2762 2238602400021 ERR-ANALYS (ERR-SYS) Systematic uncertainties are quoted 2238602400022 assuming that they are inversely proportional to the 2238602400023 fraction of neutrons interacting in the sample, A=1-T,2238602400024 where T is transmission. Compared to that effect, 2238602400025 statistical uncertainties can be neglected. 2238602400026 The oxygen cross section was adopted from the JEF 2238602400027 evaluation and its uncertainty was neglected. 2238602400028 HISTORY (20121219A) SD: MONITOR, MONIT-REF,REL-REF were added; 2238602400029 ERR-ANALYS update. 2238602400030 ENDBIB 28 0 2238602400031 COMMON 1 3 2238602400032 ERR-SYS 2238602400033 PER-CENT 2238602400034 12.4 2238602400035 ENDCOMMON 3 0 2238602400036 DATA 3 9 2238602400037 EN-MIN EN-MAX DATA 2238602400038 KEV KEV B 2238602400039 10. 15. 15. 2238602400040 15. 20. 15. 2238602400041 20. 30. 11. 2238602400042 30. 40. 12. 2238602400043 40. 60. 11. 2238602400044 60. 80. 10. 2238602400045 80. 100. 8. 2238602400046 100. 150. 10. 2238602400047 150. 200. 9. 2238602400048 ENDDATA 11 0 2238602400049 ENDSUBENT 48 0 2238602499999 SUBENT 22386025 20121217 22342238602500001 BIB 9 30 2238602500002 REACTION (64-GD-158(N,TOT),,SIG,,AV) Averaged over energy 2238602500003 interval given in data section 2238602500004 METHOD (TOF,TRN) Flight path is 260 m 2238602500005 DETECTOR (GLASD) .Li-6 glass detector 2238602500006 SAMPLE (64-GD-158,ENR=0.9730) .Oxide powder disk enriched by 2238602500007 isotope in question placed in aluminium can 0.3459 gr.2238602500008 Sum of all isotopes thickness is 5.8 mm == 8.6244E-3 2238602500009 atoms/b, weight of Gd2-O3 oxide is 4.6062 gram. 2238602500010 Weight impurities content is less than 0.3% 2238602500011 Isotopic composition is 2238602500012 Gd-152 content is less then 0.08%, 2238602500013 Gd-154 content is less then 0.08%, 2238602500014 Gd-155 content is 0.17%, Gd-156 content is 0.33%, 2238602500015 Gd-157 content is 0.78%, Gd-158 content is 97.30% 2238602500016 Gd-160 content is 1.42% 2238602500017 MONITOR (8-O-16(N,TOT),,SIG) 2238602500018 MONIT-REF (,C.Nordborg+,C,91JUELIC,,782,1991) 2238602500019 Cross sections were calculated using the total cross 2238602500020 section for oxygen from the JEF (Joint Evaluated 2238602500021 File) evaluation. 2238602500022 STATUS (TABLE) Data taken from Table III of PR/C,52,(5),2762 2238602500023 ERR-ANALYS (ERR-SYS) Systematic uncertainties are quoted 2238602500024 assuming that they are inversely proportional to the 2238602500025 fraction of neutrons interacting in the sample, A=1-T,2238602500026 where T is transmission. Compared to that effect, 2238602500027 statistical uncertainties can be neglected. 2238602500028 The oxygen cross section was adopted from the JEF 2238602500029 evaluation and its uncertainty was neglected. 2238602500030 HISTORY (20121219A) SD: MONITOR, MONIT-REF,REL-REF were added; 2238602500031 ERR-ANALYS update. 2238602500032 ENDBIB 30 0 2238602500033 COMMON 1 3 2238602500034 ERR-SYS 2238602500035 PER-CENT 2238602500036 4.8 2238602500037 ENDCOMMON 3 0 2238602500038 DATA 3 9 2238602500039 EN-MIN EN-MAX DATA 2238602500040 KEV KEV B 2238602500041 10. 15. 10.3 2238602500042 15. 20. 12.4 2238602500043 20. 30. 10.3 2238602500044 30. 40. 10.4 2238602500045 40. 60. 9.7 2238602500046 60. 80. 9.8 2238602500047 80. 100. 9.2 2238602500048 100. 150. 9.1 2238602500049 150. 200. 9.1 2238602500050 ENDDATA 11 0 2238602500051 ENDSUBENT 50 0 2238602599999 SUBENT 22386026 20121217 22342238602600001 BIB 8 19 2238602600002 REACTION (6-C-12(N,TOT),,SIG,,AV) Averaged over energy 2238602600003 interval given in data section 2238602600004 METHOD (TOF,TRN) Flight path is 260 m 2238602600005 DETECTOR (GLASD) .Li-6 glass detector 2238602600006 MONITOR (8-O-16(N,TOT),,SIG) 2238602600007 MONIT-REF (,C.Nordborg+,C,91JUELIC,,782,1991) 2238602600008 Cross sections were calculated using the total cross 2238602600009 section for oxygen from the JEF (Joint Evaluated 2238602600010 File) evaluation. 2238602600011 STATUS (TABLE) Data taken from Table III of PR/C,52,(5),2762 2238602600012 ERR-ANALYS (ERR-SYS) Systematic uncertainties are quoted 2238602600013 assuming that they are inversely proportional to the 2238602600014 fraction of neutrons interacting in the sample, A=1-T,2238602600015 where T is transmission. Compared to that effect, 2238602600016 statistical uncertainties can be neglected. 2238602600017 The oxygen cross section was adopted from the JEF 2238602600018 evaluation and its uncertainty was neglected. 2238602600019 HISTORY (20121219A) SD: MONITOR, MONIT-REF,REL-REF were added; 2238602600020 ERR-ANALYS update. 2238602600021 ENDBIB 19 0 2238602600022 COMMON 1 3 2238602600023 ERR-SYS 2238602600024 PER-CENT 2238602600025 3.7 2238602600026 ENDCOMMON 3 0 2238602600027 DATA 3 9 2238602600028 EN-MIN EN-MAX DATA 2238602600029 KEV KEV B 2238602600030 10. 15. 4.92 2238602600031 15. 20. 4.56 2238602600032 20. 30. 4.26 2238602600033 30. 40. 4.26 2238602600034 40. 60. 4.37 2238602600035 60. 80. 4.43 2238602600036 80. 100. 4.11 2238602600037 100. 150. 4.21 2238602600038 150. 200. 4.13 2238602600039 ENDDATA 11 0 2238602600040 ENDSUBENT 39 0 2238602699999 SUBENT 22386027 20121217 22342238602700001 BIB 8 19 2238602700002 REACTION (79-AU-197(N,TOT),,SIG,,AV) Averaged over energy 2238602700003 interval given in data section 2238602700004 METHOD (TOF,TRN) Flight path is 260 m 2238602700005 DETECTOR (GLASD) .Li-6 glass detector 2238602700006 MONITOR (8-O-16(N,TOT),,SIG) 2238602700007 MONIT-REF (,C.Nordborg+,C,91JUELIC,,782,1991) 2238602700008 Cross sections were calculated using the total cross 2238602700009 section for oxygen from the JEF (Joint Evaluated 2238602700010 File) evaluation. 2238602700011 STATUS (TABLE) Data taken from Table III of PR/C,52,(5),2762 2238602700012 ERR-ANALYS (ERR-SYS) Systematic uncertainties are quoted 2238602700013 assuming that they are inversely proportional to the 2238602700014 fraction of neutrons interacting in the sample, A=1-T,2238602700015 where T is transmission. Compared to that effect, 2238602700016 statistical uncertainties can be neglected. 2238602700017 The oxygen cross section was adopted from the JEF 2238602700018 evaluation and its uncertainty was neglected. 2238602700019 HISTORY (20121219A) SD: MONITOR, MONIT-REF,REL-REF were added; 2238602700020 ERR-ANALYS update. 2238602700021 ENDBIB 19 0 2238602700022 COMMON 1 3 2238602700023 ERR-SYS 2238602700024 PER-CENT 2238602700025 11.1 2238602700026 ENDCOMMON 3 0 2238602700027 DATA 3 9 2238602700028 EN-MIN EN-MAX DATA 2238602700029 KEV KEV B 2238602700030 10. 15. 16.5 2238602700031 15. 20. 16.5 2238602700032 20. 30. 11.3 2238602700033 30. 40. 11.9 2238602700034 40. 60. 12.4 2238602700035 60. 80. 12.1 2238602700036 80. 100. 10.0 2238602700037 100. 150. 11.7 2238602700038 150. 200. 10.3 2238602700039 ENDDATA 11 0 2238602700040 ENDSUBENT 39 0 2238602799999 ENDENTRY 27 0 2238699999999