ENTRY 11343 20190329 14491134300000001 SUBENT 11343001 20190329 14491134300100001 BIB 6 11 1134300100002 TITLE Low Energy Neutron Resonance Scattering and Absorption 1134300100003 AUTHOR (S.P.Harris,C.O.Muehlhause,G.E.Thomas) 1134300100004 REFERENCE (J,PR,79,11,1950) 1134300100005 #doi:10.1103/PhysRev.79.11 1134300100006 INSTITUTE (1USAANL) 1134300100007 FACILITY (REAC,1USAANL) Argonne heavy water reactor. 1134300100008 HISTORY (19770602C) 1134300100009 (19820324A) Converted to reaction formalism 1134300100010 (20190329A) BP: Updated to new date formats,lower 1134300100011 case. Corrections according last EXFOR rules and 1134300100012 Dict. Added sample information, subs. 37-65. 1134300100013 ENDBIB 11 0 1134300100014 NOCOMMON 0 0 1134300100015 ENDSUBENT 14 0 1134300199999 SUBENT 11343002 20190329 14491134300200001 BIB 6 10 1134300200002 REACTION (11-NA-23(N,G)11-NA-24,,RI) 1134300200003 SAMPLE NaF. 1134300200004 DETECTOR (GEMUC,IOCH) 1134300200005 METHOD (ACTIV) Sample activities were either measured on 1134300200006 a Geiger counter or in a no-window air ionization 1134300200007 chamber. 1134300200008 Gold thermal capture cross section was taken to be 93b.1134300200009 MONITOR ((MONIT1)79-AU-197(N,G)79-AU-198,,RI) 1134300200010 ((MONIT2)11-NA-23(N,G)11-NA-24,,SIG) 1134300200011 STATUS (TABLE) Table III, page 13. 1134300200012 ENDBIB 10 0 1134300200013 COMMON 2 3 1134300200014 EN-NRM2 MONIT2 1134300200015 EV B 1134300200016 0.0253 0.52 1134300200017 ENDCOMMON 3 0 1134300200018 DATA 3 1 1134300200019 EN-MIN DATA-APRX MONIT1 1134300200020 EV B B 1134300200021 0.5 0.21 1337.0 1134300200022 ENDDATA 3 0 1134300200023 ENDSUBENT 22 0 1134300299999 SUBENT 11343003 20190329 14491134300300001 BIB 6 10 1134300300002 REACTION (13-AL-27(N,G)13-AL-28,,RI) 1134300300003 SAMPLE Al. 1134300300004 DETECTOR (GEMUC,IOCH) 1134300300005 METHOD (ACTIV) Sample activities were either measured on 1134300300006 a Geiger counter or in a no-window air ionization 1134300300007 chamber. 1134300300008 Gold thermal capture cross section was taken to be 93b.1134300300009 MONITOR ((MONIT1)79-AU-197(N,G)79-AU-198,,RI) 1134300300010 ((MONIT2)13-AL-27(N,G)13-AL-28,,SIG) 1134300300011 STATUS (TABLE) Table III, page 13. 1134300300012 ENDBIB 10 0 1134300300013 COMMON 2 3 1134300300014 EN-NRM2 MONIT2 1134300300015 EV B 1134300300016 0.0253 0.22 1134300300017 ENDCOMMON 3 0 1134300300018 DATA 3 1 1134300300019 EN-MIN DATA-APRX MONIT1 1134300300020 EV B B 1134300300021 0.5 0.14 1337.0 1134300300022 ENDDATA 3 0 1134300300023 ENDSUBENT 22 0 1134300399999 SUBENT 11343004 20190329 14491134300400001 BIB 6 10 1134300400002 REACTION (15-P-31(N,G)15-P-32,,RI) 1134300400003 SAMPLE P. 1134300400004 DETECTOR (GEMUC,IOCH) 1134300400005 METHOD (ACTIV) Sample activities were either measured on 1134300400006 a Geiger counter or in a no-window air ionization 1134300400007 chamber. 1134300400008 Gold thermal capture cross section was taken to be 93b.1134300400009 MONITOR ((MONIT1)79-AU-197(N,G)79-AU-198,,RI) 1134300400010 ((MONIT2)15-P-31(N,G)15-P-32,,SIG) 1134300400011 STATUS (TABLE) Table III, page 13. 1134300400012 ENDBIB 10 0 1134300400013 COMMON 2 3 1134300400014 EN-NRM2 MONIT2 1134300400015 EV B 1134300400016 0.0253 0.23 1134300400017 ENDCOMMON 3 0 1134300400018 DATA 3 1 1134300400019 EN-MIN DATA-APRX MONIT1 1134300400020 EV B B 1134300400021 0.5 0.10 1337.0 1134300400022 ENDDATA 3 0 1134300400023 ENDSUBENT 22 0 1134300499999 SUBENT 11343005 20190329 14491134300500001 BIB 6 10 1134300500002 REACTION (21-SC-45(N,G)21-SC-46,,RI) 1134300500003 SAMPLE Sc2O3. 1134300500004 DETECTOR (GEMUC,IOCH) 1134300500005 METHOD (ACTIV) Sample activities were either measured on 1134300500006 a Geiger counter or in a no-window air ionization 1134300500007 chamber. 1134300500008 Gold thermal capture cross section was taken to be 93b.1134300500009 MONITOR ((MONIT1)79-AU-197(N,G)79-AU-198,,RI) 1134300500010 ((MONIT2)21-SC-45(N,G)21-SC-46,,SIG) 1134300500011 STATUS (TABLE) Table III, page 13. 1134300500012 ENDBIB 10 0 1134300500013 COMMON 2 3 1134300500014 EN-NRM2 MONIT2 1134300500015 EV B 1134300500016 0.0253 31.6 1134300500017 ENDCOMMON 3 0 1134300500018 DATA 3 1 1134300500019 EN-MIN DATA-APRX MONIT1 1134300500020 EV B B 1134300500021 0.5 12.6 1337.0 1134300500022 ENDDATA 3 0 1134300500023 ENDSUBENT 22 0 1134300599999 SUBENT 11343006 20190329 14491134300600001 BIB 6 10 1134300600002 REACTION (23-V-51(N,G)23-V-52,,RI) 1134300600003 SAMPLE V2O5. 1134300600004 DETECTOR (GEMUC,IOCH) 1134300600005 METHOD (ACTIV) Sample activities were either measured on 1134300600006 a Geiger counter or in a no-window air ionization 1134300600007 chamber. 1134300600008 Gold thermal capture cross section was taken to be 93b.1134300600009 MONITOR ((MONIT1)79-AU-197(N,G)79-AU-198,,RI) 1134300600010 ((MONIT2)23-V-51(N,G)23-V-52,,SIG) 1134300600011 STATUS (TABLE) Table III, page 13. 1134300600012 ENDBIB 10 0 1134300600013 COMMON 2 3 1134300600014 EN-NRM2 MONIT2 1134300600015 EV B 1134300600016 0.0253 4.93 1134300600017 ENDCOMMON 3 0 1134300600018 DATA 3 1 1134300600019 EN-MIN DATA-APRX MONIT1 1134300600020 EV B B 1134300600021 0.5 2.0 1337.0 1134300600022 ENDDATA 3 0 1134300600023 ENDSUBENT 22 0 1134300699999 SUBENT 11343007 20190329 14491134300700001 BIB 6 10 1134300700002 REACTION (25-MN-55(N,G)25-MN-56,,RI) 1134300700003 SAMPLE Mn. 1134300700004 DETECTOR (GEMUC,IOCH) 1134300700005 METHOD (ACTIV) Sample activities were either measured on 1134300700006 a Geiger counter or in a no-window air ionization 1134300700007 chamber. 1134300700008 Gold thermal capture cross section was taken to be 93b.1134300700009 MONITOR ((MONIT1)79-AU-197(N,G)79-AU-198,,RI) 1134300700010 ((MONIT2)25-MN-55(N,G)25-MN-56,,SIG) 1134300700011 STATUS (TABLE) Table III, page 13. 1134300700012 ENDBIB 10 0 1134300700013 COMMON 2 3 1134300700014 EN-NRM2 MONIT2 1134300700015 EV B 1134300700016 0.0253 12.1 1134300700017 ENDCOMMON 3 0 1134300700018 DATA 3 1 1134300700019 EN-MIN DATA-APRX MONIT1 1134300700020 EV B B 1134300700021 0.5 9.8 1337.0 1134300700022 ENDDATA 3 0 1134300700023 ENDSUBENT 22 0 1134300799999 SUBENT 11343008 20190329 14491134300800001 BIB 6 10 1134300800002 REACTION (27-CO-59(N,G)27-CO-60,,RI) 1134300800003 SAMPLE Co. 1134300800004 DETECTOR (GEMUC,IOCH) 1134300800005 METHOD (ACTIV) Sample activities were either measured on 1134300800006 a Geiger counter or in a no-window air ionization 1134300800007 chamber. 1134300800008 Gold thermal capture cross section was taken to be 93b.1134300800009 MONITOR ((MONIT1)79-AU-197(N,G)79-AU-198,,RI) 1134300800010 ((MONIT2)27-CO-59(N,G)27-CO-60,,SIG) 1134300800011 STATUS (TABLE) Table III, page 13. 1134300800012 ENDBIB 10 0 1134300800013 COMMON 2 3 1134300800014 EN-NRM2 MONIT2 1134300800015 EV B 1134300800016 0.0253 34.3 1134300800017 ENDCOMMON 3 0 1134300800018 DATA 3 1 1134300800019 EN-MIN DATA MONIT1 1134300800020 EV B B 1134300800021 0.5 41.2 1337.0 1134300800022 ENDDATA 3 0 1134300800023 ENDSUBENT 22 0 1134300899999 SUBENT 11343009 20190329 14491134300900001 BIB 6 10 1134300900002 REACTION (29-CU-0(N,G),,RI) 1134300900003 SAMPLE Cu. 1134300900004 DETECTOR (GEMUC,IOCH) 1134300900005 METHOD (ACTIV) Sample activities were either measured on 1134300900006 a Geiger counter or in a no-window air ionization 1134300900007 chamber. 1134300900008 Gold thermal capture cross section was taken to be 93b.1134300900009 MONITOR ((MONIT1)79-AU-197(N,G)79-AU-198,,RI) 1134300900010 ((MONIT2)29-CU-0(N,G),,SIG) 1134300900011 STATUS (TABLE) Table III, page 13. 1134300900012 ENDBIB 10 0 1134300900013 COMMON 2 3 1134300900014 EN-NRM2 MONIT2 1134300900015 EV B 1134300900016 0.0253 3.62 1134300900017 ENDCOMMON 3 0 1134300900018 DATA 3 1 1134300900019 EN-MIN DATA MONIT1 1134300900020 EV B B 1134300900021 0.5 3.35 1337.0 1134300900022 ENDDATA 3 0 1134300900023 ENDSUBENT 22 0 1134300999999 SUBENT 11343010 20190329 14491134301000001 BIB 6 10 1134301000002 REACTION (31-GA-69(N,G)31-GA-70,,RI) 1134301000003 SAMPLE Ga2O3. 1134301000004 DETECTOR (GEMUC,IOCH) 1134301000005 METHOD (ACTIV) Sample activities were either measured on 1134301000006 a Geiger counter or in a no-window air ionization 1134301000007 chamber. 1134301000008 Gold thermal capture cross section was taken to be 93b.1134301000009 MONITOR ((MONIT1)79-AU-197(N,G)79-AU-198,,RI) 1134301000010 ((MONIT2)31-GA-69(N,G)31-GA-70,,SIG) 1134301000011 STATUS (TABLE) Table III, page 13. 1134301000012 ENDBIB 10 0 1134301000013 COMMON 2 3 1134301000014 EN-NRM2 MONIT2 1134301000015 EV B 1134301000016 0.0253 1.40 1134301000017 ENDCOMMON 3 0 1134301000018 DATA 3 1 1134301000019 EN-MIN DATA MONIT1 1134301000020 EV B B 1134301000021 0.5 8.01 1337.0 1134301000022 ENDDATA 3 0 1134301000023 ENDSUBENT 22 0 1134301099999 SUBENT 11343011 20190329 14491134301100001 BIB 6 10 1134301100002 REACTION (31-GA-71(N,G)31-GA-72,,RI) 1134301100003 SAMPLE Ga2O3. 1134301100004 DETECTOR (GEMUC,IOCH) 1134301100005 METHOD (ACTIV) Sample activities were either measured on 1134301100006 a Geiger counter or in a no-window air ionization 1134301100007 chamber. 1134301100008 Gold thermal capture cross section was taken to be 93b.1134301100009 MONITOR ((MONIT1)79-AU-197(N,G)79-AU-198,,RI) 1134301100010 ((MONIT2)31-GA-71(N,G)31-GA-72,,SIG) 1134301100011 STATUS (TABLE) Table III, page 13. 1134301100012 ENDBIB 10 0 1134301100013 COMMON 2 3 1134301100014 EN-NRM2 MONIT2 1134301100015 EV B 1134301100016 0.0253 3.36 1134301100017 ENDCOMMON 3 0 1134301100018 DATA 3 1 1134301100019 EN-MIN DATA MONIT1 1134301100020 EV B B 1134301100021 0.5 13.2 1337.0 1134301100022 ENDDATA 3 0 1134301100023 ENDSUBENT 22 0 1134301199999 SUBENT 11343012 20190329 14491134301200001 BIB 6 10 1134301200002 REACTION (33-AS-75(N,G)33-AS-76,,RI) 1134301200003 MONITOR ((MONIT1)79-AU-197(N,G)79-AU-198,,RI) 1134301200004 ((MONIT2)33-AS-75(N,G)33-AS-76,,SIG) 1134301200005 SAMPLE As. 1134301200006 DETECTOR (GEMUC,IOCH) 1134301200007 METHOD (ACTIV) Sample activities were either measured on 1134301200008 a Geiger counter or in a no-window air ionization 1134301200009 chamber. 1134301200010 Gold thermal capture cross section was taken to be 93b.1134301200011 STATUS (TABLE) Table III, page 13. 1134301200012 ENDBIB 10 0 1134301200013 COMMON 2 3 1134301200014 EN-NRM2 MONIT2 1134301200015 EV B 1134301200016 0.0253 3.87 1134301200017 ENDCOMMON 3 0 1134301200018 DATA 3 1 1134301200019 EN-MIN DATA MONIT1 1134301200020 EV B B 1134301200021 0.5 31.5 1337.0 1134301200022 ENDDATA 3 0 1134301200023 ENDSUBENT 22 0 1134301299999 SUBENT 11343013 20190329 14491134301300001 BIB 6 10 1134301300002 REACTION (35-BR-79(N,G)35-BR-80,,RI) 1134301300003 SAMPLE PbBr2. 1134301300004 DETECTOR (GEMUC,IOCH) 1134301300005 METHOD (ACTIV) Sample activities were either measured on 1134301300006 a Geiger counter or in a no-window air ionization 1134301300007 chamber. 1134301300008 Gold thermal capture cross section was taken to be 93b.1134301300009 MONITOR ((MONIT1)79-AU-197(N,G)79-AU-198,,RI) 1134301300010 ((MONIT2)35-BR-79(N,G)35-BR-80,,SIG) 1134301300011 STATUS (TABLE) Table III, page 13. 1134301300012 ENDBIB 10 0 1134301300013 COMMON 2 3 1134301300014 EN-NRM2 MONIT2 1134301300015 EV B 1134301300016 0.0253 3.87 1134301300017 ENDCOMMON 3 0 1134301300018 DATA 3 1 1134301300019 EN-MIN DATA MONIT1 1134301300020 EV B B 1134301300021 0.5 133. 1337.0 1134301300022 ENDDATA 3 0 1134301300023 ENDSUBENT 22 0 1134301399999 SUBENT 11343014 20190329 14491134301400001 BIB 6 10 1134301400002 REACTION (39-Y-89(N,G)39-Y-90,,RI) 1134301400003 SAMPLE Y2O3. 1134301400004 DETECTOR (GEMUC,IOCH) 1134301400005 METHOD (ACTIV) Sample activities were either measured on 1134301400006 a Geiger counter or in a no-window air ionization 1134301400007 chamber. 1134301400008 Gold thermal capture cross section was taken to be 93b.1134301400009 MONITOR ((MONIT1)79-AU-197(N,G)79-AU-198,,RI) 1134301400010 ((MONIT2)39-Y-89(N,G)39-Y-90,,SIG) 1134301400011 STATUS (TABLE) Table III, page 13. 1134301400012 ENDBIB 10 0 1134301400013 COMMON 2 3 1134301400014 EN-NRM2 MONIT2 1134301400015 EV B 1134301400016 0.0253 1.24 1134301400017 ENDCOMMON 3 0 1134301400018 DATA 3 1 1134301400019 EN-MIN DATA MONIT1 1134301400020 EV B B 1134301400021 0.5 0.72 1337.0 1134301400022 ENDDATA 3 0 1134301400023 ENDSUBENT 22 0 1134301499999 SUBENT 11343015 20190329 14491134301500001 BIB 6 10 1134301500002 REACTION (41-NB-93(N,G)41-NB-94,,RI) 1134301500003 SAMPLE Nb2O5. 1134301500004 DETECTOR (GEMUC,IOCH) 1134301500005 METHOD (ACTIV) Sample activities were either measured on 1134301500006 a Geiger counter or in a no-window air ionization 1134301500007 chamber. 1134301500008 Gold thermal capture cross section was taken to be 93b.1134301500009 MONITOR ((MONIT1)79-AU-197(N,G)79-AU-198,,RI) 1134301500010 ((MONIT2)41-NB-93(N,G)41-NB-94,,SIG) 1134301500011 STATUS (TABLE) Table III, page 13. 1134301500012 ENDBIB 10 0 1134301500013 COMMON 2 3 1134301500014 EN-NRM2 MONIT2 1134301500015 EV B 1134301500016 0.0253 1.31 1134301500017 ENDCOMMON 3 0 1134301500018 DATA 3 1 1134301500019 EN-MIN DATA MONIT1 1134301500020 EV B B 1134301500021 0.5 4.19 1337.0 1134301500022 ENDDATA 3 0 1134301500023 ENDSUBENT 22 0 1134301599999 SUBENT 11343016 20190329 14491134301600001 BIB 6 10 1134301600002 REACTION (45-RH-103(N,G)45-RH-104,,RI) 1134301600003 SAMPLE Rh. 1134301600004 DETECTOR (GEMUC,IOCH) 1134301600005 METHOD (ACTIV) Sample activities were either measured on 1134301600006 a Geiger counter or in a no-window air ionization 1134301600007 chamber. 1134301600008 Gold thermal capture cross section was taken to be 93b.1134301600009 MONITOR ((MONIT1)79-AU-197(N,G)79-AU-198,,RI) 1134301600010 ((MONIT2)45-RH-103(N,G)45-RH-104,,SIG) 1134301600011 STATUS (TABLE) Table III, page 13. 1134301600012 ENDBIB 10 0 1134301600013 COMMON 2 3 1134301600014 EN-NRM2 MONIT2 1134301600015 EV B 1134301600016 0.0253 149.0 1134301600017 ENDCOMMON 3 0 1134301600018 DATA 3 1 1134301600019 EN-MIN DATA MONIT1 1134301600020 EV B B 1134301600021 0.5 589. 1337.0 1134301600022 ENDDATA 3 0 1134301600023 ENDSUBENT 22 0 1134301699999 SUBENT 11343017 20190329 14491134301700001 BIB 6 10 1134301700002 REACTION (47-AG-107(N,G)47-AG-108,,RI) 1134301700003 SAMPLE Ag. 1134301700004 DETECTOR (GEMUC,IOCH) 1134301700005 METHOD (ACTIV) Sample activities were either measured on 1134301700006 a Geiger counter or in a no-window air ionization 1134301700007 chamber. 1134301700008 Gold thermal capture cross section was taken to be 93b.1134301700009 MONITOR ((MONIT1)79-AU-197(N,G)79-AU-198,,RI) 1134301700010 ((MONIT2)47-AG-107(N,G)47-AG-108,,SIG) 1134301700011 STATUS (TABLE) Table III, page 13. 1134301700012 ENDBIB 10 0 1134301700013 COMMON 2 3 1134301700014 EN-NRM2 MONIT2 1134301700015 EV B 1134301700016 0.0253 44.3 1134301700017 ENDCOMMON 3 0 1134301700018 DATA 3 1 1134301700019 EN-MIN DATA MONIT1 1134301700020 EV B B 1134301700021 0.5 98.3 1337.0 1134301700022 ENDDATA 3 0 1134301700023 ENDSUBENT 22 0 1134301799999 SUBENT 11343018 20190329 14491134301800001 BIB 6 10 1134301800002 REACTION (47-AG-109(N,G)47-AG-110,,RI) 1134301800003 SAMPLE Ag. 1134301800004 DETECTOR (GEMUC,IOCH) 1134301800005 METHOD (ACTIV) Sample activities were either measured on 1134301800006 a Geiger counter or in a no-window air ionization 1134301800007 chamber. 1134301800008 Gold thermal capture cross section was taken to be 93b.1134301800009 MONITOR ((MONIT1)79-AU-197(N,G)79-AU-198,,RI) 1134301800010 ((MONIT2)47-AG-109(N,G)47-AG-110,,SIG) 1134301800011 STATUS (TABLE) Table III, page 13. 1134301800012 ENDBIB 10 0 1134301800013 COMMON 2 3 1134301800014 EN-NRM2 MONIT2 1134301800015 EV B 1134301800016 0.0253 97.0 1134301800017 ENDCOMMON 3 0 1134301800018 DATA 3 1 1134301800019 EN-MIN DATA MONIT1 1134301800020 EV B B 1134301800021 0.5 1213. 1337.0 1134301800022 ENDDATA 3 0 1134301800023 ENDSUBENT 22 0 1134301899999 SUBENT 11343019 20190329 14491134301900001 BIB 6 10 1134301900002 REACTION (49-IN-113(N,G)49-IN-114,,RI) 1134301900003 SAMPLE In. 1134301900004 DETECTOR (GEMUC,IOCH) 1134301900005 METHOD (ACTIV) Sample activities were either measured on 1134301900006 a Geiger counter or in a no-window air ionization 1134301900007 chamber. 1134301900008 Gold thermal capture cross section was taken to be 93b.1134301900009 MONITOR ((MONIT1)79-AU-197(N,G)79-AU-198,,RI) 1134301900010 ((MONIT2)49-IN-113(N,G)49-IN-114,,SIG) 1134301900011 STATUS (TABLE) Table III, page 13. 1134301900012 ENDBIB 10 0 1134301900013 COMMON 2 3 1134301900014 EN-NRM2 MONIT2 1134301900015 EV B 1134301900016 0.0253 56.0 1134301900017 ENDCOMMON 3 0 1134301900018 DATA 3 1 1134301900019 EN-MIN DATA MONIT1 1134301900020 EV B B 1134301900021 0.5 913. 1337.0 1134301900022 ENDDATA 3 0 1134301900023 ENDSUBENT 22 0 1134301999999 SUBENT 11343020 20190329 14491134302000001 BIB 6 10 1134302000002 REACTION (49-IN-115(N,G)49-IN-116,,RI) 1134302000003 SAMPLE In. 1134302000004 DETECTOR (GEMUC,IOCH) 1134302000005 METHOD (ACTIV) Sample activities were either measured on 1134302000006 a Geiger counter or in a no-window air ionization 1134302000007 chamber. 1134302000008 Gold thermal capture cross section was taken to be 93b.1134302000009 MONITOR ((MONIT1)79-AU-197(N,G)79-AU-198,,RI) 1134302000010 ((MONIT2)49-IN-115(N,G)49-IN-116,,SIG) 1134302000011 STATUS (TABLE) Table III, page 13. 1134302000012 ENDBIB 10 0 1134302000013 COMMON 2 3 1134302000014 EN-NRM2 MONIT2 1134302000015 EV B 1134302000016 0.0253 196.0 1134302000017 ENDCOMMON 3 0 1134302000018 DATA 3 1 1134302000019 EN-MIN DATA MONIT1 1134302000020 EV B B 1134302000021 0.5 2372. 1337.0 1134302000022 ENDDATA 3 0 1134302000023 ENDSUBENT 22 0 1134302099999 SUBENT 11343021 20190329 14491134302100001 BIB 6 10 1134302100002 REACTION (51-SB-121(N,G)51-SB-122,,RI) 1134302100003 SAMPLE Sb. 1134302100004 DETECTOR (GEMUC,IOCH) 1134302100005 METHOD (ACTIV) Sample activities were either measured on 1134302100006 a Geiger counter or in a no-window air ionization 1134302100007 chamber. 1134302100008 Gold thermal capture cross section was taken to be 93b.1134302100009 MONITOR ((MONIT1)79-AU-197(N,G)79-AU-198,,RI) 1134302100010 ((MONIT2)51-SB-121(N,G)51-SB-122,,SIG) 1134302100011 STATUS (TABLE) Table III, page 13. 1134302100012 ENDBIB 10 0 1134302100013 COMMON 2 3 1134302100014 EN-NRM2 MONIT2 1134302100015 EV B 1134302100016 0.0253 6.8 1134302100017 ENDCOMMON 3 0 1134302100018 DATA 3 1 1134302100019 EN-MIN DATA MONIT1 1134302100020 EV B B 1134302100021 0.5 147. 1337.0 1134302100022 ENDDATA 3 0 1134302100023 ENDSUBENT 22 0 1134302199999 SUBENT 11343022 20190329 14491134302200001 BIB 6 10 1134302200002 REACTION (51-SB-123(N,G)51-SB-124,,RI) 1134302200003 SAMPLE Sb. 1134302200004 DETECTOR (GEMUC,IOCH) 1134302200005 METHOD (ACTIV) Sample activities were either measured on 1134302200006 a Geiger counter or in a no-window air ionization 1134302200007 chamber. 1134302200008 Gold thermal capture cross section was taken to be 93b.1134302200009 MONITOR ((MONIT1)79-AU-197(N,G)79-AU-198,,RI) 1134302200010 ((MONIT2)51-SB-123(N,G)51-SB-124,,SIG) 1134302200011 STATUS (TABLE) Table III, page 13. 1134302200012 ENDBIB 10 0 1134302200013 COMMON 2 3 1134302200014 EN-NRM2 MONIT2 1134302200015 EV B 1134302200016 0.0253 2.5 1134302200017 ENDCOMMON 3 0 1134302200018 DATA 3 1 1134302200019 EN-MIN DATA-APRX MONIT1 1134302200020 EV B B 1134302200021 0.5 125. 1337.0 1134302200022 ENDDATA 3 0 1134302200023 ENDSUBENT 22 0 1134302299999 SUBENT 11343023 20190329 14491134302300001 BIB 6 10 1134302300002 REACTION (53-I-127(N,G)53-I-128,,RI) 1134302300003 SAMPLE PbI2. 1134302300004 DETECTOR (GEMUC,IOCH) 1134302300005 METHOD (ACTIV) Sample activities were either measured on 1134302300006 a Geiger counter or in a no-window air ionization 1134302300007 chamber. 1134302300008 Gold thermal capture cross section was taken to be 93b.1134302300009 MONITOR ((MONIT1)79-AU-197(N,G)79-AU-198,,RI) 1134302300010 ((MONIT2)53-I-127(N,G)53-I-128,,SIG) 1134302300011 STATUS (TABLE) Table III, page 13. 1134302300012 ENDBIB 10 0 1134302300013 COMMON 2 3 1134302300014 EN-NRM2 MONIT2 1134302300015 EV B 1134302300016 0.0253 6.25 1134302300017 ENDCOMMON 3 0 1134302300018 DATA 3 1 1134302300019 EN-MIN DATA MONIT1 1134302300020 EV B B 1134302300021 0.5 119. 1337.0 1134302300022 ENDDATA 3 0 1134302300023 ENDSUBENT 22 0 1134302399999 SUBENT 11343024 20190329 14491134302400001 BIB 6 10 1134302400002 REACTION (59-PR-141(N,G)59-PR-142,,RI) 1134302400003 SAMPLE PrO2. 1134302400004 DETECTOR (GEMUC,IOCH) 1134302400005 METHOD (ACTIV) Sample activities were either measured on 1134302400006 a Geiger counter or in a no-window air ionization 1134302400007 chamber. 1134302400008 Gold thermal capture cross section was taken to be 93b.1134302400009 MONITOR ((MONIT1)79-AU-197(N,G)79-AU-198,,RI) 1134302400010 ((MONIT2)59-PR-141(N,G)59-PR-142,,SIG) 1134302400011 STATUS (TABLE) Table III, page 13. 1134302400012 ENDBIB 10 0 1134302400013 COMMON 2 3 1134302400014 EN-NRM2 MONIT2 1134302400015 EV B 1134302400016 0.0253 10.1 1134302400017 ENDCOMMON 3 0 1134302400018 DATA 3 1 1134302400019 EN-MIN DATA MONIT1 1134302400020 EV B B 1134302400021 0.5 9.3 1337.0 1134302400022 ENDDATA 3 0 1134302400023 ENDSUBENT 22 0 1134302499999 SUBENT 11343025 20190329 14491134302500001 BIB 6 10 1134302500002 REACTION (62-SM-152(N,G)62-SM-153,,RI) 1134302500003 SAMPLE Sm2O3. 1134302500004 DETECTOR (GEMUC,IOCH) 1134302500005 METHOD (ACTIV) Sample activities were either measured on 1134302500006 a Geiger counter or in a no-window air ionization 1134302500007 chamber. 1134302500008 Gold thermal capture cross section was taken to be 93b.1134302500009 MONITOR ((MONIT1)79-AU-197(N,G)79-AU-198,,RI) 1134302500010 ((MONIT2)62-SM-152(N,G)62-SM-153,,SIG) 1134302500011 STATUS (TABLE) Table III, page 13. 1134302500012 ENDBIB 10 0 1134302500013 COMMON 2 3 1134302500014 EN-NRM2 MONIT2 1134302500015 EV B 1134302500016 0.0253 138.0 1134302500017 ENDCOMMON 3 0 1134302500018 DATA 3 1 1134302500019 EN-MIN DATA MONIT1 1134302500020 EV B B 1134302500021 0.5 1559. 1337.0 1134302500022 ENDDATA 3 0 1134302500023 ENDSUBENT 22 0 1134302599999 SUBENT 11343026 20190329 14491134302600001 BIB 6 10 1134302600002 REACTION (63-EU-151(N,G)63-EU-152,,RI) 1134302600003 SAMPLE Eu2O3. 1134302600004 DETECTOR (GEMUC,IOCH) 1134302600005 METHOD (ACTIV) Sample activities were either measured on 1134302600006 a Geiger counter or in a no-window air ionization 1134302600007 chamber. 1134302600008 Gold thermal capture cross section was taken to be 93b.1134302600009 MONITOR ((MONIT1)79-AU-197(N,G)79-AU-198,,RI) 1134302600010 ((MONIT2)63-EU-151(N,G)63-EU-152,,SIG) 1134302600011 STATUS (TABLE) Table III, page 13. 1134302600012 ENDBIB 10 0 1134302600013 COMMON 2 3 1134302600014 EN-NRM2 MONIT2 1134302600015 EV B 1134302600016 0.0253 1380.0 1134302600017 ENDCOMMON 3 0 1134302600018 DATA 3 1 1134302600019 EN-MIN DATA MONIT1 1134302600020 EV B B 1134302600021 0.5 842. 1337.0 1134302600022 ENDDATA 3 0 1134302600023 ENDSUBENT 22 0 1134302699999 SUBENT 11343027 20190329 14491134302700001 BIB 6 10 1134302700002 REACTION (72-HF-180(N,G)72-HF-181,,RI) 1134302700003 SAMPLE HfO2. 1134302700004 DETECTOR (GEMUC,IOCH) 1134302700005 METHOD (ACTIV) Sample activities were either measured on 1134302700006 a Geiger counter or in a no-window air ionization 1134302700007 chamber. 1134302700008 Gold thermal capture cross section was taken to be 93b.1134302700009 MONITOR ((MONIT1)79-AU-197(N,G)79-AU-198,,RI) 1134302700010 ((MONIT2)72-HF-180(N,G)72-HF-181,,SIG) 1134302700011 STATUS (TABLE) Table III, page 13. 1134302700012 ENDBIB 10 0 1134302700013 COMMON 2 3 1134302700014 EN-NRM2 MONIT2 1134302700015 EV B 1134302700016 0.0253 10.0 1134302700017 ENDCOMMON 3 0 1134302700018 DATA 3 1 1134302700019 EN-MIN DATA MONIT1 1134302700020 EV B B 1134302700021 0.5 19.7 1337.0 1134302700022 ENDDATA 3 0 1134302700023 ENDSUBENT 22 0 1134302799999 SUBENT 11343028 20190329 14491134302800001 BIB 6 10 1134302800002 REACTION (72-HF-0(N,G),,RI) 1134302800003 SAMPLE HfO2. 1134302800004 DETECTOR (GEMUC,IOCH) 1134302800005 METHOD (ACTIV) Sample activities were either measured on 1134302800006 a Geiger counter or in a no-window air ionization 1134302800007 chamber. 1134302800008 Gold thermal capture cross section was taken to be 93b.1134302800009 MONITOR ((MONIT1)79-AU-197(N,G)79-AU-198,,RI) 1134302800010 ((MONIT2)72-HF-0(N,G),,SIG) 1134302800011 STATUS (TABLE) Table III, page 13. 1134302800012 ENDBIB 10 0 1134302800013 COMMON 2 3 1134302800014 EN-NRM2 MONIT2 1134302800015 EV B 1134302800016 0.0253 100.0 1134302800017 ENDCOMMON 3 0 1134302800018 DATA 3 1 1134302800019 EN-MIN DATA MONIT1 1134302800020 EV B B 1134302800021 0.5 1400. 1337.0 1134302800022 ENDDATA 3 0 1134302800023 ENDSUBENT 22 0 1134302899999 SUBENT 11343029 20190329 14491134302900001 BIB 6 10 1134302900002 REACTION (73-TA-181(N,G)73-TA-182,,RI) 1134302900003 SAMPLE Ta. 1134302900004 DETECTOR (GEMUC,IOCH) 1134302900005 METHOD (ACTIV) Sample activities were either measured on 1134302900006 a Geiger counter or in a no-window air ionization 1134302900007 chamber. 1134302900008 Gold thermal capture cross section was taken to be 93b.1134302900009 MONITOR ((MONIT1)79-AU-197(N,G)79-AU-198,,RI) 1134302900010 ((MONIT2)73-TA-181(N,G)73-TA-182,,SIG) 1134302900011 STATUS (TABLE) Table III, page 13. 1134302900012 ENDBIB 10 0 1134302900013 COMMON 2 3 1134302900014 EN-NRM2 MONIT2 1134302900015 EV B 1134302900016 0.0253 20.6 1134302900017 ENDCOMMON 3 0 1134302900018 DATA 3 1 1134302900019 EN-MIN DATA MONIT1 1134302900020 EV B B 1134302900021 0.5 517. 1337.0 1134302900022 ENDDATA 3 0 1134302900023 ENDSUBENT 22 0 1134302999999 SUBENT 11343030 20190329 14491134303000001 BIB 6 10 1134303000002 REACTION (74-W-186(N,G)74-W-187,,RI) 1134303000003 SAMPLE W. 1134303000004 DETECTOR (GEMUC,IOCH) 1134303000005 METHOD (ACTIV) Sample activities were either measured on 1134303000006 a Geiger counter or in a no-window air ionization 1134303000007 chamber. 1134303000008 Gold thermal capture cross section was taken to be 93b.1134303000009 MONITOR ((MONIT1)79-AU-197(N,G)79-AU-198,,RI) 1134303000010 ((MONIT2)74-W-186(N,G)74-W-187,,SIG) 1134303000011 STATUS (TABLE) Table III, page 13. 1134303000012 ENDBIB 10 0 1134303000013 COMMON 2 3 1134303000014 EN-NRM2 MONIT2 1134303000015 EV B 1134303000016 0.0253 34.2 1134303000017 ENDCOMMON 3 0 1134303000018 DATA 3 1 1134303000019 EN-MIN DATA MONIT1 1134303000020 EV B B 1134303000021 0.5 320. 1337.0 1134303000022 ENDDATA 3 0 1134303000023 ENDSUBENT 22 0 1134303099999 SUBENT 11343031 20190329 14491134303100001 BIB 6 10 1134303100002 REACTION (75-RE-185(N,G)75-RE-186,,RI) 1134303100003 SAMPLE Re. 1134303100004 DETECTOR (GEMUC,IOCH) 1134303100005 METHOD (ACTIV) Sample activities were either measured on 1134303100006 a Geiger counter or in a no-window air ionization 1134303100007 chamber. 1134303100008 Gold thermal capture cross section was taken to be 93b.1134303100009 MONITOR ((MONIT1)79-AU-197(N,G)79-AU-198,,RI) 1134303100010 ((MONIT2)75-RE-185(N,G)75-RE-186,,SIG) 1134303100011 STATUS (TABLE) Table III, page 13. 1134303100012 ENDBIB 10 0 1134303100013 COMMON 2 3 1134303100014 EN-NRM2 MONIT2 1134303100015 EV B 1134303100016 0.0253 101.0 1134303100017 ENDCOMMON 3 0 1134303100018 DATA 3 1 1134303100019 EN-MIN DATA MONIT1 1134303100020 EV B B 1134303100021 0.5 1061. 1337.0 1134303100022 ENDDATA 3 0 1134303100023 ENDSUBENT 22 0 1134303199999 SUBENT 11343032 20190329 14491134303200001 BIB 6 10 1134303200002 REACTION (75-RE-187(N,G)75-RE-188,,RI) 1134303200003 SAMPLE Re. 1134303200004 DETECTOR (GEMUC,IOCH) 1134303200005 METHOD (ACTIV) Sample activities were either measured on 1134303200006 a Geiger counter or in a no-window air ionization 1134303200007 chamber. 1134303200008 Gold thermal capture cross section was taken to be 93b.1134303200009 MONITOR ((MONIT1)79-AU-197(N,G)79-AU-198,,RI) 1134303200010 ((MONIT2)75-RE-187(N,G)75-RE-188,,SIG) 1134303200011 STATUS (TABLE) Table III, page 13. 1134303200012 ENDBIB 10 0 1134303200013 COMMON 2 3 1134303200014 EN-NRM2 MONIT2 1134303200015 EV B 1134303200016 0.0253 75.3 1134303200017 ENDCOMMON 3 0 1134303200018 DATA 3 1 1134303200019 EN-MIN DATA MONIT1 1134303200020 EV B B 1134303200021 0.5 275. 1337.0 1134303200022 ENDDATA 3 0 1134303200023 ENDSUBENT 22 0 1134303299999 SUBENT 11343033 20190329 14491134303300001 BIB 6 10 1134303300002 REACTION (77-IR-191(N,G)77-IR-192,,RI) 1134303300003 SAMPLE Ir. 1134303300004 DETECTOR (GEMUC,IOCH) 1134303300005 METHOD (ACTIV) Sample activities were either measured on 1134303300006 a Geiger counter or in a no-window air ionization 1134303300007 chamber. 1134303300008 Gold thermal capture cross section was taken to be 93b.1134303300009 MONITOR ((MONIT1)79-AU-197(N,G)79-AU-198,,RI) 1134303300010 ((MONIT2)77-IR-191(N,G)77-IR-192,,SIG) 1134303300011 STATUS (TABLE) Table III, page 13. 1134303300012 ENDBIB 10 0 1134303300013 COMMON 2 3 1134303300014 EN-NRM2 MONIT2 1134303300015 EV B 1134303300016 0.0253 1000.0 1134303300017 ENDCOMMON 3 0 1134303300018 DATA 3 1 1134303300019 EN-MIN DATA MONIT1 1134303300020 EV B B 1134303300021 0.5 3270. 1337.0 1134303300022 ENDDATA 3 0 1134303300023 ENDSUBENT 22 0 1134303399999 SUBENT 11343034 20190329 14491134303400001 BIB 6 10 1134303400002 REACTION (77-IR-193(N,G)77-IR-194,,RI) 1134303400003 SAMPLE Ir. 1134303400004 DETECTOR (GEMUC,IOCH) 1134303400005 METHOD (ACTIV) Sample activities were either measured on 1134303400006 a Geiger counter or in a no-window air ionization 1134303400007 chamber. 1134303400008 Gold thermal capture cross section was taken to be 93b.1134303400009 MONITOR ((MONIT1)79-AU-197(N,G)79-AU-198,,RI) 1134303400010 ((MONIT2)77-IR-193(N,G)77-IR-194,,SIG) 1134303400011 STATUS (TABLE) Table III, page 13. 1134303400012 ENDBIB 10 0 1134303400013 COMMON 2 3 1134303400014 EN-NRM2 MONIT2 1134303400015 EV B 1134303400016 0.0253 128.0 1134303400017 ENDCOMMON 3 0 1134303400018 DATA 3 1 1134303400019 EN-MIN DATA MONIT1 1134303400020 EV B B 1134303400021 0.5 1213. 1337.0 1134303400022 ENDDATA 3 0 1134303400023 ENDSUBENT 22 0 1134303499999 SUBENT 11343035 20190329 14491134303500001 BIB 6 10 1134303500002 REACTION (81-TL-203(N,G)81-TL-204,,RI) 1134303500003 SAMPLE Tl. 1134303500004 DETECTOR (GEMUC,IOCH) 1134303500005 METHOD (ACTIV) Sample activities were either measured on 1134303500006 a Geiger counter or in a no-window air ionization 1134303500007 chamber. 1134303500008 Gold thermal capture cross section was taken to be 93b.1134303500009 MONITOR ((MONIT1)79-AU-197(N,G)79-AU-198,,RI) 1134303500010 ((MONIT2)81-TL-203(N,G)81-TL-204,,SIG) 1134303500011 STATUS (TABLE) Table III, page 13. 1134303500012 ENDBIB 10 0 1134303500013 COMMON 2 3 1134303500014 EN-NRM2 MONIT2 1134303500015 EV B 1134303500016 0.0253 12.0 1134303500017 ENDCOMMON 3 0 1134303500018 DATA 3 1 1134303500019 EN-MIN DATA MONIT1 1134303500020 EV B B 1134303500021 0.5 127. 1337.0 1134303500022 ENDDATA 3 0 1134303500023 ENDSUBENT 22 0 1134303599999 SUBENT 11343036 20190329 14491134303600001 BIB 6 10 1134303600002 REACTION (81-TL-205(N,G)81-TL-206,,RI) 1134303600003 MONITOR ((MONIT1)79-AU-197(N,G)79-AU-198,,RI) 1134303600004 ((MONIT2)81-TL-205(N,G)81-TL-206,,SIG) 1134303600005 SAMPLE Tl. 1134303600006 DETECTOR (GEMUC,IOCH) 1134303600007 METHOD (ACTIV) Sample activities were either measured on 1134303600008 a Geiger counter or in a no-window air ionization 1134303600009 chamber. 1134303600010 Gold thermal capture cross section was taken to be 93b.1134303600011 STATUS (TABLE) Table III, page 13. 1134303600012 ENDBIB 10 0 1134303600013 COMMON 2 3 1134303600014 EN-NRM2 MONIT2 1134303600015 EV B 1134303600016 0.0253 0.17 1134303600017 ENDCOMMON 3 0 1134303600018 DATA 3 1 1134303600019 EN-MIN DATA MONIT1 1134303600020 EV B B 1134303600021 0.5 0.76 1337.0 1134303600022 ENDDATA 3 0 1134303600023 ENDSUBENT 22 0 1134303699999 SUBENT 11343037 20190329 14491134303700001 BIB 6 13 1134303700002 REACTION (11-NA-23(N,SCT)11-NA-23,,RI) 1134303700003 DETECTOR (PROPC) 4pi-annular proportional neutron counter 1134303700004 filled with enriched BF3 and surrounded by a paraffin 1134303700005 reflector-moderator and shield. 1134303700006 SAMPLE NaF. 1134303700007 METHOD An evacuated hole through the center of the counter 1134303700008 conducts a collimated beam of cadmium-filtered 1134303700009 neutrons from the Argonne water reactor. These 1134303700010 neutrons give rise to a counting rate only when a 1134303700011 scattering foil(termed the detector) is placed in the 1134303700012 of this tube transverse to the neutron beam. 1134303700013 STATUS (TABLE) Table IV, page 14. 1134303700014 HISTORY (20190329C) BP 1134303700015 ENDBIB 13 0 1134303700016 NOCOMMON 0 0 1134303700017 DATA 2 1 1134303700018 EN-MIN DATA 1134303700019 EV B 1134303700020 0.5 27.0 1134303700021 ENDDATA 3 0 1134303700022 ENDSUBENT 21 0 1134303799999 SUBENT 11343038 20190329 14491134303800001 BIB 6 13 1134303800002 REACTION (13-AL-27(N,SCT)13-AL-27,,RI) 1134303800003 DETECTOR (PROPC) 4pi-annular proportional neutron counter 1134303800004 filled with enriched BF3 and surrounded by a paraffin 1134303800005 reflector-moderator and shield. 1134303800006 SAMPLE Al. 1134303800007 METHOD An evacuated hole through the center of the counter 1134303800008 conducts a collimated beam of cadmium-filtered 1134303800009 neutrons from the Argonne water reactor. These 1134303800010 neutrons give rise to a counting rate only when a 1134303800011 scattering foil(termed the detector) is placed in the 1134303800012 of this tube transverse to the neutron beam. 1134303800013 STATUS (TABLE) Table IV, page 14. 1134303800014 HISTORY (20190329C) BP 1134303800015 ENDBIB 13 0 1134303800016 NOCOMMON 0 0 1134303800017 DATA 2 1 1134303800018 EN-MIN DATA 1134303800019 EV B 1134303800020 0.5 2.9 1134303800021 ENDDATA 3 0 1134303800022 ENDSUBENT 21 0 1134303899999 SUBENT 11343039 20190329 14491134303900001 BIB 6 13 1134303900002 REACTION (21-SC-45(N,SCT)21-SC-45,,RI) 1134303900003 DETECTOR (PROPC) 4pi-annular proportional neutron counter 1134303900004 filled with enriched BF3 and surrounded by a paraffin 1134303900005 reflector-moderator and shield. 1134303900006 SAMPLE Sc2O3. 1134303900007 METHOD An evacuated hole through the center of the counter 1134303900008 conducts a collimated beam of cadmium-filtered 1134303900009 neutrons from the Argonne water reactor. These 1134303900010 neutrons give rise to a counting rate only when a 1134303900011 scattering foil(termed the detector) is placed in the 1134303900012 of this tube transverse to the neutron beam. 1134303900013 STATUS (TABLE) Table IV, page 14. 1134303900014 HISTORY (20190329C) BP 1134303900015 ENDBIB 13 0 1134303900016 NOCOMMON 0 0 1134303900017 DATA 2 1 1134303900018 EN-MIN DATA 1134303900019 EV B 1134303900020 0.5 27.0 1134303900021 ENDDATA 3 0 1134303900022 ENDSUBENT 21 0 1134303999999 SUBENT 11343040 20190329 14491134304000001 BIB 6 13 1134304000002 REACTION (23-V-51(N,SCT)23-V-51,,RI) 1134304000003 DETECTOR (PROPC) 4pi-annular proportional neutron counter 1134304000004 filled with enriched BF3 and surrounded by a paraffin 1134304000005 reflector-moderator and shield. 1134304000006 SAMPLE V. 1134304000007 METHOD An evacuated hole through the center of the counter 1134304000008 conducts a collimated beam of cadmium-filtered 1134304000009 neutrons from the Argonne water reactor. These 1134304000010 neutrons give rise to a counting rate only when a 1134304000011 scattering foil(termed the detector) is placed in the 1134304000012 of this tube transverse to the neutron beam. 1134304000013 STATUS (TABLE) Table IV, page 14. 1134304000014 HISTORY (20190329C) BP 1134304000015 ENDBIB 13 0 1134304000016 NOCOMMON 0 0 1134304000017 DATA 2 1 1134304000018 EN-MIN DATA 1134304000019 EV B 1134304000020 0.5 94.0 1134304000021 ENDDATA 3 0 1134304000022 ENDSUBENT 21 0 1134304099999 SUBENT 11343041 20190329 14491134304100001 BIB 6 13 1134304100002 REACTION (24-CR-53(N,SCT)24-CR-53,,RI) 1134304100003 DETECTOR (PROPC) 4pi-annular proportional neutron counter 1134304100004 filled with enriched BF3 and surrounded by a paraffin 1134304100005 reflector-moderator and shield. 1134304100006 SAMPLE Cr253o3. 1134304100007 METHOD An evacuated hole through the center of the counter 1134304100008 conducts a collimated beam of cadmium-filtered 1134304100009 neutrons from the Argonne water reactor. These 1134304100010 neutrons give rise to a counting rate only when a 1134304100011 scattering foil(termed the detector) is placed in the 1134304100012 of this tube transverse to the neutron beam. 1134304100013 STATUS (TABLE) Table IV, page 14. 1134304100014 HISTORY (20190329C) BP 1134304100015 ENDBIB 13 0 1134304100016 NOCOMMON 0 0 1134304100017 DATA 2 1 1134304100018 EN-MIN DATA 1134304100019 EV B 1134304100020 0.5 78.0 1134304100021 ENDDATA 3 0 1134304100022 ENDSUBENT 21 0 1134304199999 SUBENT 11343042 20190329 14491134304200001 BIB 6 13 1134304200002 REACTION (25-MN-55(N,SCT)25-MN-55,,RI) 1134304200003 DETECTOR (PROPC) 4pi-annular proportional neutron counter 1134304200004 filled with enriched BF3 and surrounded by a paraffin 1134304200005 reflector-moderator and shield. 1134304200006 SAMPLE Mn. 1134304200007 METHOD An evacuated hole through the center of the counter 1134304200008 conducts a collimated beam of cadmium-filtered 1134304200009 neutrons from the Argonne water reactor. These 1134304200010 neutrons give rise to a counting rate only when a 1134304200011 scattering foil(termed the detector) is placed in the 1134304200012 of this tube transverse to the neutron beam. 1134304200013 STATUS (TABLE) Table IV, page 14. 1134304200014 HISTORY (20190329C) BP 1134304200015 ENDBIB 13 0 1134304200016 NOCOMMON 0 0 1134304200017 DATA 2 1 1134304200018 EN-MIN DATA 1134304200019 EV B 1134304200020 0.5 265.0 1134304200021 ENDDATA 3 0 1134304200022 ENDSUBENT 21 0 1134304299999 SUBENT 11343043 20190329 14491134304300001 BIB 6 13 1134304300002 REACTION (27-CO-59(N,SCT)27-CO-59,,RI) 1134304300003 DETECTOR (PROPC) 4pi-annular proportional neutron counter 1134304300004 filled with enriched BF3 and surrounded by a paraffin 1134304300005 reflector-moderator and shield. 1134304300006 SAMPLE Co. 1134304300007 METHOD An evacuated hole through the center of the counter 1134304300008 conducts a collimated beam of cadmium-filtered 1134304300009 neutrons from the Argonne water reactor. These 1134304300010 neutrons give rise to a counting rate only when a 1134304300011 scattering foil(termed the detector) is placed in the 1134304300012 of this tube transverse to the neutron beam. 1134304300013 STATUS (TABLE) Table IV, page 14. 1134304300014 HISTORY (20190329C) BP 1134304300015 ENDBIB 13 0 1134304300016 NOCOMMON 0 0 1134304300017 DATA 2 1 1134304300018 EN-MIN DATA 1134304300019 EV B 1134304300020 0.5 296.0 1134304300021 ENDDATA 3 0 1134304300022 ENDSUBENT 21 0 1134304399999 SUBENT 11343044 20190329 14491134304400001 BIB 6 13 1134304400002 REACTION (29-CU-0(N,SCT)29-CU-0,,RI) 1134304400003 DETECTOR (PROPC) 4pi-annular proportional neutron counter 1134304400004 filled with enriched BF3 and surrounded by a paraffin 1134304400005 reflector-moderator and shield. 1134304400006 SAMPLE Cu. 1134304400007 METHOD An evacuated hole through the center of the counter 1134304400008 conducts a collimated beam of cadmium-filtered 1134304400009 neutrons from the Argonne water reactor. These 1134304400010 neutrons give rise to a counting rate only when a 1134304400011 scattering foil(termed the detector) is placed in the 1134304400012 of this tube transverse to the neutron beam. 1134304400013 STATUS (TABLE) Table IV, page 14. 1134304400014 HISTORY (20190329C) BP 1134304400015 ENDBIB 13 0 1134304400016 NOCOMMON 0 0 1134304400017 DATA 2 1 1134304400018 EN-MIN DATA 1134304400019 EV B 1134304400020 0.5 20.0 1134304400021 ENDDATA 3 0 1134304400022 ENDSUBENT 21 0 1134304499999 SUBENT 11343045 20190329 14491134304500001 BIB 6 13 1134304500002 REACTION (30-ZN-67(N,SCT)30-ZN-67,,RI) 1134304500003 DETECTOR (PROPC) 4pi-annular proportional neutron counter 1134304500004 filled with enriched BF3 and surrounded by a paraffin 1134304500005 reflector-moderator and shield. 1134304500006 SAMPLE Zn67O. 1134304500007 METHOD An evacuated hole through the center of the counter 1134304500008 conducts a collimated beam of cadmium-filtered 1134304500009 neutrons from the Argonne water reactor. These 1134304500010 neutrons give rise to a counting rate only when a 1134304500011 scattering foil(termed the detector) is placed in the 1134304500012 of this tube transverse to the neutron beam. 1134304500013 STATUS (TABLE) Table IV, page 14. 1134304500014 HISTORY (20190329C) BP 1134304500015 ENDBIB 13 0 1134304500016 NOCOMMON 0 0 1134304500017 DATA 2 1 1134304500018 EN-MIN DATA 1134304500019 EV B 1134304500020 0.5 244.0 1134304500021 ENDDATA 3 0 1134304500022 ENDSUBENT 21 0 1134304599999 SUBENT 11343046 20190329 14491134304600001 BIB 6 13 1134304600002 REACTION (31-GA-0(N,SCT)31-GA-0,,RI) 1134304600003 DETECTOR (PROPC) 4pi-annular proportional neutron counter 1134304600004 filled with enriched BF3 and surrounded by a paraffin 1134304600005 reflector-moderator and shield. 1134304600006 SAMPLE Ga. 1134304600007 METHOD An evacuated hole through the center of the counter 1134304600008 conducts a collimated beam of cadmium-filtered 1134304600009 neutrons from the Argonne water reactor. These 1134304600010 neutrons give rise to a counting rate only when a 1134304600011 scattering foil(termed the detector) is placed in the 1134304600012 of this tube transverse to the neutron beam. 1134304600013 STATUS (TABLE) Table IV, page 14. 1134304600014 HISTORY (20190329C) BP 1134304600015 ENDBIB 13 0 1134304600016 NOCOMMON 0 0 1134304600017 DATA 2 1 1134304600018 EN-MIN DATA 1134304600019 EV B 1134304600020 0.5 75.0 1134304600021 ENDDATA 3 0 1134304600022 ENDSUBENT 21 0 1134304699999 SUBENT 11343047 20190329 14491134304700001 BIB 6 13 1134304700002 REACTION (33-AS-75(N,SCT)33-AS-75,,RI) 1134304700003 DETECTOR (PROPC) 4pi-annular proportional neutron counter 1134304700004 filled with enriched BF3 and surrounded by a paraffin 1134304700005 reflector-moderator and shield. 1134304700006 SAMPLE As. 1134304700007 METHOD An evacuated hole through the center of the counter 1134304700008 conducts a collimated beam of cadmium-filtered 1134304700009 neutrons from the Argonne water reactor. These 1134304700010 neutrons give rise to a counting rate only when a 1134304700011 scattering foil(termed the detector) is placed in the 1134304700012 of this tube transverse to the neutron beam. 1134304700013 STATUS (TABLE) Table IV, page 14. 1134304700014 HISTORY (20190329C) BP 1134304700015 ENDBIB 13 0 1134304700016 NOCOMMON 0 0 1134304700017 DATA 2 1 1134304700018 EN-MIN DATA 1134304700019 EV B 1134304700020 0.5 45.0 1134304700021 ENDDATA 3 0 1134304700022 ENDSUBENT 21 0 1134304799999 SUBENT 11343048 20190329 14491134304800001 BIB 6 13 1134304800002 REACTION (35-BR-0(N,SCT)35-BR-0,,RI) 1134304800003 DETECTOR (PROPC) 4pi-annular proportional neutron counter 1134304800004 filled with enriched BF3 and surrounded by a paraffin 1134304800005 reflector-moderator and shield. 1134304800006 SAMPLE CBr4. 1134304800007 METHOD An evacuated hole through the center of the counter 1134304800008 conducts a collimated beam of cadmium-filtered 1134304800009 neutrons from the Argonne water reactor. These 1134304800010 neutrons give rise to a counting rate only when a 1134304800011 scattering foil(termed the detector) is placed in the 1134304800012 of this tube transverse to the neutron beam. 1134304800013 STATUS (TABLE) Table IV, page 14. 1134304800014 HISTORY (20190329C) BP 1134304800015 ENDBIB 13 0 1134304800016 NOCOMMON 0 0 1134304800017 DATA 2 1 1134304800018 EN-MIN DATA 1134304800019 EV B 1134304800020 0.5 7.6 1134304800021 ENDDATA 3 0 1134304800022 ENDSUBENT 21 0 1134304899999 SUBENT 11343049 20190329 14491134304900001 BIB 6 13 1134304900002 REACTION (39-Y-89(N,SCT)39-Y-89,,RI) 1134304900003 DETECTOR (PROPC) 4pi-annular proportional neutron counter 1134304900004 filled with enriched BF3 and surrounded by a paraffin 1134304900005 reflector-moderator and shield. 1134304900006 SAMPLE Y2O3. 1134304900007 METHOD An evacuated hole through the center of the counter 1134304900008 conducts a collimated beam of cadmium-filtered 1134304900009 neutrons from the Argonne water reactor. These 1134304900010 neutrons give rise to a counting rate only when a 1134304900011 scattering foil(termed the detector) is placed in the 1134304900012 of this tube transverse to the neutron beam. 1134304900013 STATUS (TABLE) Table IV, page 14. 1134304900014 HISTORY (20190329C) BP 1134304900015 ENDBIB 13 0 1134304900016 NOCOMMON 0 0 1134304900017 DATA 2 1 1134304900018 EN-MIN DATA 1134304900019 EV B 1134304900020 0.5 9.2 1134304900021 ENDDATA 3 0 1134304900022 ENDSUBENT 21 0 1134304999999 SUBENT 11343050 20190329 14491134305000001 BIB 6 13 1134305000002 REACTION (41-NB-93(N,SCT)41-NB-93,,RI) 1134305000003 DETECTOR (PROPC) 4pi-annular proportional neutron counter 1134305000004 filled with enriched BF3 and surrounded by a paraffin 1134305000005 reflector-moderator and shield. 1134305000006 SAMPLE Nb. 1134305000007 METHOD An evacuated hole through the center of the counter 1134305000008 conducts a collimated beam of cadmium-filtered 1134305000009 neutrons from the Argonne water reactor. These 1134305000010 neutrons give rise to a counting rate only when a 1134305000011 scattering foil(termed the detector) is placed in the 1134305000012 of this tube transverse to the neutron beam. 1134305000013 STATUS (TABLE) Table IV, page 14. 1134305000014 HISTORY (20190329C) BP 1134305000015 ENDBIB 13 0 1134305000016 NOCOMMON 0 0 1134305000017 DATA 2 1 1134305000018 EN-MIN DATA 1134305000019 EV B 1134305000020 0.5 4.2 1134305000021 ENDDATA 3 0 1134305000022 ENDSUBENT 21 0 1134305099999 SUBENT 11343051 20190329 14491134305100001 BIB 6 13 1134305100002 REACTION (45-RH-103(N,SCT)45-RH-103,,RI) 1134305100003 DETECTOR (PROPC) 4pi-annular proportional neutron counter 1134305100004 filled with enriched BF3 and surrounded by a paraffin 1134305100005 reflector-moderator and shield. 1134305100006 SAMPLE Rh. 1134305100007 METHOD An evacuated hole through the center of the counter 1134305100008 conducts a collimated beam of cadmium-filtered 1134305100009 neutrons from the Argonne water reactor. These 1134305100010 neutrons give rise to a counting rate only when a 1134305100011 scattering foil(termed the detector) is placed in the 1134305100012 of this tube transverse to the neutron beam. 1134305100013 STATUS (TABLE) Table IV, page 14. 1134305100014 HISTORY (20190329C) BP 1134305100015 ENDBIB 13 0 1134305100016 NOCOMMON 0 0 1134305100017 DATA 2 1 1134305100018 EN-MIN DATA 1134305100019 EV B 1134305100020 0.5 23.0 1134305100021 ENDDATA 3 0 1134305100022 ENDSUBENT 21 0 1134305199999 SUBENT 11343052 20190329 14491134305200001 BIB 6 13 1134305200002 REACTION (47-AG-107(N,SCT)47-AG-107,,RI) 1134305200003 DETECTOR (PROPC) 4pi-annular proportional neutron counter 1134305200004 filled with enriched BF3 and surrounded by a paraffin 1134305200005 reflector-moderator and shield. 1134305200006 SAMPLE Ag107O. 1134305200007 METHOD An evacuated hole through the center of the counter 1134305200008 conducts a collimated beam of cadmium-filtered 1134305200009 neutrons from the Argonne water reactor. These 1134305200010 neutrons give rise to a counting rate only when a 1134305200011 scattering foil(termed the detector) is placed in the 1134305200012 of this tube transverse to the neutron beam. 1134305200013 STATUS (TABLE) Table IV, page 14. 1134305200014 HISTORY (20190329C) BP 1134305200015 ENDBIB 13 0 1134305200016 NOCOMMON 0 0 1134305200017 DATA 2 1 1134305200018 EN-MIN DATA 1134305200019 EV B 1134305200020 0.5 5.0 1134305200021 ENDDATA 3 0 1134305200022 ENDSUBENT 21 0 1134305299999 SUBENT 11343053 20190329 14491134305300001 BIB 6 13 1134305300002 REACTION (47-AG-109(N,SCT)47-AG-109,,RI) 1134305300003 DETECTOR (PROPC) 4pi-annular proportional neutron counter 1134305300004 filled with enriched BF3 and surrounded by a paraffin 1134305300005 reflector-moderator and shield. 1134305300006 SAMPLE Ag109O. 1134305300007 METHOD An evacuated hole through the center of the counter 1134305300008 conducts a collimated beam of cadmium-filtered 1134305300009 neutrons from the Argonne water reactor. These 1134305300010 neutrons give rise to a counting rate only when a 1134305300011 scattering foil(termed the detector) is placed in the 1134305300012 of this tube transverse to the neutron beam. 1134305300013 STATUS (TABLE) Table IV, page 14. 1134305300014 HISTORY (20190329C) BP 1134305300015 ENDBIB 13 0 1134305300016 NOCOMMON 0 0 1134305300017 DATA 2 1 1134305300018 EN-MIN DATA 1134305300019 EV B 1134305300020 0.5 39.5 1134305300021 ENDDATA 3 0 1134305300022 ENDSUBENT 21 0 1134305399999 SUBENT 11343054 20190329 14491134305400001 BIB 6 13 1134305400002 REACTION (51-SB-0(N,SCT)51-SB-0,,RI) 1134305400003 DETECTOR (PROPC) 4pi-annular proportional neutron counter 1134305400004 filled with enriched BF3 and surrounded by a paraffin 1134305400005 reflector-moderator and shield. 1134305400006 SAMPLE Sb. 1134305400007 METHOD An evacuated hole through the center of the counter 1134305400008 conducts a collimated beam of cadmium-filtered 1134305400009 neutrons from the Argonne water reactor. These 1134305400010 neutrons give rise to a counting rate only when a 1134305400011 scattering foil(termed the detector) is placed in the 1134305400012 of this tube transverse to the neutron beam. 1134305400013 STATUS (TABLE) Table IV, page 14. 1134305400014 HISTORY (20190329C) BP 1134305400015 ENDBIB 13 0 1134305400016 NOCOMMON 0 0 1134305400017 DATA 2 1 1134305400018 EN-MIN DATA 1134305400019 EV B 1134305400020 0.5 29.9 1134305400021 ENDDATA 3 0 1134305400022 ENDSUBENT 21 0 1134305499999 SUBENT 11343055 20190329 14491134305500001 BIB 6 13 1134305500002 REACTION (53-I-127(N,SCT)53-I-127,,RI) 1134305500003 DETECTOR (PROPC) 4pi-annular proportional neutron counter 1134305500004 filled with enriched BF3 and surrounded by a paraffin 1134305500005 reflector-moderator and shield. 1134305500006 SAMPLE PbI2. 1134305500007 METHOD An evacuated hole through the center of the counter 1134305500008 conducts a collimated beam of cadmium-filtered 1134305500009 neutrons from the Argonne water reactor. These 1134305500010 neutrons give rise to a counting rate only when a 1134305500011 scattering foil(termed the detector) is placed in the 1134305500012 of this tube transverse to the neutron beam. 1134305500013 STATUS (TABLE) Table IV, page 14. 1134305500014 HISTORY (20190329C) BP 1134305500015 ENDBIB 13 0 1134305500016 NOCOMMON 0 0 1134305500017 DATA 2 1 1134305500018 EN-MIN DATA 1134305500019 EV B 1134305500020 0.5 40.7 1134305500021 ENDDATA 3 0 1134305500022 ENDSUBENT 21 0 1134305599999 SUBENT 11343056 20190329 14491134305600001 BIB 6 13 1134305600002 REACTION (57-LA-139(N,SCT)57-LA-139,,RI) 1134305600003 DETECTOR (PROPC) 4pi-annular proportional neutron counter 1134305600004 filled with enriched BF3 and surrounded by a paraffin 1134305600005 reflector-moderator and shield. 1134305600006 SAMPLE La2O3. 1134305600007 METHOD An evacuated hole through the center of the counter 1134305600008 conducts a collimated beam of cadmium-filtered 1134305600009 neutrons from the Argonne water reactor. These 1134305600010 neutrons give rise to a counting rate only when a 1134305600011 scattering foil(termed the detector) is placed in the 1134305600012 of this tube transverse to the neutron beam. 1134305600013 STATUS (TABLE) Table IV, page 14. 1134305600014 HISTORY (20190329C) BP 1134305600015 ENDBIB 13 0 1134305600016 NOCOMMON 0 0 1134305600017 DATA 2 1 1134305600018 EN-MIN DATA 1134305600019 EV B 1134305600020 0.5 8.4 1134305600021 ENDDATA 3 0 1134305600022 ENDSUBENT 21 0 1134305699999 SUBENT 11343057 20190329 14491134305700001 BIB 6 13 1134305700002 REACTION (59-PR-141(N,SCT)59-PR-141,,RI) 1134305700003 DETECTOR (PROPC) 4pi-annular proportional neutron counter 1134305700004 filled with enriched BF3 and surrounded by a paraffin 1134305700005 reflector-moderator and shield. 1134305700006 SAMPLE PrO2. 1134305700007 METHOD An evacuated hole through the center of the counter 1134305700008 conducts a collimated beam of cadmium-filtered 1134305700009 neutrons from the Argonne water reactor. These 1134305700010 neutrons give rise to a counting rate only when a 1134305700011 scattering foil(termed the detector) is placed in the 1134305700012 of this tube transverse to the neutron beam. 1134305700013 STATUS (TABLE) Table IV, page 14. 1134305700014 HISTORY (20190329C) BP 1134305700015 ENDBIB 13 0 1134305700016 NOCOMMON 0 0 1134305700017 DATA 2 1 1134305700018 EN-MIN DATA 1134305700019 EV B 1134305700020 0.5 59.0 1134305700021 ENDDATA 3 0 1134305700022 ENDSUBENT 21 0 1134305799999 SUBENT 11343058 20190329 14491134305800001 BIB 6 13 1134305800002 REACTION (62-SM-0(N,SCT)62-SM-0,,RI) 1134305800003 DETECTOR (PROPC) 4pi-annular proportional neutron counter 1134305800004 filled with enriched BF3 and surrounded by a paraffin 1134305800005 reflector-moderator and shield. 1134305800006 SAMPLE Sm2O3. 1134305800007 METHOD An evacuated hole through the center of the counter 1134305800008 conducts a collimated beam of cadmium-filtered 1134305800009 neutrons from the Argonne water reactor. These 1134305800010 neutrons give rise to a counting rate only when a 1134305800011 scattering foil(termed the detector) is placed in the 1134305800012 of this tube transverse to the neutron beam. 1134305800013 STATUS (TABLE) Table IV, page 14. 1134305800014 HISTORY (20190329C) BP 1134305800015 ENDBIB 13 0 1134305800016 NOCOMMON 0 0 1134305800017 DATA 2 1 1134305800018 EN-MIN DATA 1134305800019 EV B 1134305800020 0.5 664.0 1134305800021 ENDDATA 3 0 1134305800022 ENDSUBENT 21 0 1134305899999 SUBENT 11343059 20190329 14491134305900001 BIB 6 13 1134305900002 REACTION (63-EU-0(N,SCT)63-EU-0,,RI) 1134305900003 DETECTOR (PROPC) 4pi-annular proportional neutron counter 1134305900004 filled with enriched BF3 and surrounded by a paraffin 1134305900005 reflector-moderator and shield. 1134305900006 SAMPLE Eu2O3. 1134305900007 METHOD An evacuated hole through the center of the counter 1134305900008 conducts a collimated beam of cadmium-filtered 1134305900009 neutrons from the Argonne water reactor. These 1134305900010 neutrons give rise to a counting rate only when a 1134305900011 scattering foil(termed the detector) is placed in the 1134305900012 of this tube transverse to the neutron beam. 1134305900013 STATUS (TABLE) Table IV, page 14. 1134305900014 HISTORY (20190329C) BP 1134305900015 ENDBIB 13 0 1134305900016 NOCOMMON 0 0 1134305900017 DATA 2 1 1134305900018 EN-MIN DATA 1134305900019 EV B 1134305900020 0.5 34.0 1134305900021 ENDDATA 3 0 1134305900022 ENDSUBENT 21 0 1134305999999 SUBENT 11343060 20190329 14491134306000001 BIB 6 13 1134306000002 REACTION (72-HF-0(N,SCT)72-HF-0,,RI) 1134306000003 DETECTOR (PROPC) 4pi-annular proportional neutron counter 1134306000004 filled with enriched BF3 and surrounded by a paraffin 1134306000005 reflector-moderator and shield. 1134306000006 SAMPLE HfO2. 1134306000007 METHOD An evacuated hole through the center of the counter 1134306000008 conducts a collimated beam of cadmium-filtered 1134306000009 neutrons from the Argonne water reactor. These 1134306000010 neutrons give rise to a counting rate only when a 1134306000011 scattering foil(termed the detector) is placed in the 1134306000012 of this tube transverse to the neutron beam. 1134306000013 STATUS (TABLE) Table IV, page 14. 1134306000014 HISTORY (20190329C) BP 1134306000015 ENDBIB 13 0 1134306000016 NOCOMMON 0 0 1134306000017 DATA 2 1 1134306000018 EN-MIN DATA 1134306000019 EV B 1134306000020 0.5 234.0 1134306000021 ENDDATA 3 0 1134306000022 ENDSUBENT 21 0 1134306099999 SUBENT 11343061 20190329 14491134306100001 BIB 6 13 1134306100002 REACTION (73-TA-181(N,SCT)73-TA-181,,RI) 1134306100003 DETECTOR (PROPC) 4pi-annular proportional neutron counter 1134306100004 filled with enriched BF3 and surrounded by a paraffin 1134306100005 reflector-moderator and shield. 1134306100006 SAMPLE Ta. 1134306100007 METHOD An evacuated hole through the center of the counter 1134306100008 conducts a collimated beam of cadmium-filtered 1134306100009 neutrons from the Argonne water reactor. These 1134306100010 neutrons give rise to a counting rate only when a 1134306100011 scattering foil(termed the detector) is placed in the 1134306100012 of this tube transverse to the neutron beam. 1134306100013 STATUS (TABLE) Table IV, page 14. 1134306100014 HISTORY (20190329C) BP 1134306100015 ENDBIB 13 0 1134306100016 NOCOMMON 0 0 1134306100017 DATA 2 1 1134306100018 EN-MIN DATA 1134306100019 EV B 1134306100020 0.5 59.6 1134306100021 ENDDATA 3 0 1134306100022 ENDSUBENT 21 0 1134306199999 SUBENT 11343062 20190329 14491134306200001 BIB 6 13 1134306200002 REACTION (74-W-186(N,SCT)74-W-186,,RI) 1134306200003 DETECTOR (PROPC) 4pi-annular proportional neutron counter 1134306200004 filled with enriched BF3 and surrounded by a paraffin 1134306200005 reflector-moderator and shield. 1134306200006 SAMPLE W186O3. 1134306200007 METHOD An evacuated hole through the center of the counter 1134306200008 conducts a collimated beam of cadmium-filtered 1134306200009 neutrons from the Argonne water reactor. These 1134306200010 neutrons give rise to a counting rate only when a 1134306200011 scattering foil(termed the detector) is placed in the 1134306200012 of this tube transverse to the neutron beam. 1134306200013 STATUS (TABLE) Table IV, page 14. 1134306200014 HISTORY (20190329C) BP 1134306200015 ENDBIB 13 0 1134306200016 NOCOMMON 0 0 1134306200017 DATA 2 1 1134306200018 EN-MIN DATA 1134306200019 EV B 1134306200020 0.5 1058.0 1134306200021 ENDDATA 3 0 1134306200022 ENDSUBENT 21 0 1134306299999 SUBENT 11343063 20190329 14491134306300001 BIB 6 13 1134306300002 REACTION (75-RE-0(N,SCT)75-RE-0,,RI) 1134306300003 DETECTOR (PROPC) 4pi-annular proportional neutron counter 1134306300004 filled with enriched BF3 and surrounded by a paraffin 1134306300005 reflector-moderator and shield. 1134306300006 SAMPLE Re. 1134306300007 METHOD An evacuated hole through the center of the counter 1134306300008 conducts a collimated beam of cadmium-filtered 1134306300009 neutrons from the Argonne water reactor. These 1134306300010 neutrons give rise to a counting rate only when a 1134306300011 scattering foil(termed the detector) is placed in the 1134306300012 of this tube transverse to the neutron beam. 1134306300013 STATUS (TABLE) Table IV, page 14. 1134306300014 HISTORY (20190329C) BP 1134306300015 ENDBIB 13 0 1134306300016 NOCOMMON 0 0 1134306300017 DATA 2 1 1134306300018 EN-MIN DATA 1134306300019 EV B 1134306300020 0.5 58.8 1134306300021 ENDDATA 3 0 1134306300022 ENDSUBENT 21 0 1134306399999 SUBENT 11343064 20190329 14491134306400001 BIB 6 13 1134306400002 REACTION (79-AU-197(N,SCT)79-AU-197,,RI) 1134306400003 DETECTOR (PROPC) 4pi-annular proportional neutron counter 1134306400004 filled with enriched BF3 and surrounded by a paraffin 1134306400005 reflector-moderator and shield. 1134306400006 SAMPLE Au. 1134306400007 METHOD An evacuated hole through the center of the counter 1134306400008 conducts a collimated beam of cadmium-filtered 1134306400009 neutrons from the Argonne water reactor. These 1134306400010 neutrons give rise to a counting rate only when a 1134306400011 scattering foil(termed the detector) is placed in the 1134306400012 of this tube transverse to the neutron beam. 1134306400013 STATUS (TABLE) Table IV, page 14. 1134306400014 HISTORY (20190329C) BP 1134306400015 ENDBIB 13 0 1134306400016 NOCOMMON 0 0 1134306400017 DATA 2 1 1134306400018 EN-MIN DATA 1134306400019 EV B 1134306400020 0.5 158.0 1134306400021 ENDDATA 3 0 1134306400022 ENDSUBENT 21 0 1134306499999 SUBENT 11343065 20190329 14491134306500001 BIB 6 13 1134306500002 REACTION (81-TL-0(N,SCT)81-TL-0,,RI) 1134306500003 DETECTOR (PROPC) 4pi-annular proportional neutron counter 1134306500004 filled with enriched BF3 and surrounded by a paraffin 1134306500005 reflector-moderator and shield. 1134306500006 SAMPLE Tl. 1134306500007 METHOD An evacuated hole through the center of the counter 1134306500008 conducts a collimated beam of cadmium-filtered 1134306500009 neutrons from the Argonne water reactor. These 1134306500010 neutrons give rise to a counting rate only when a 1134306500011 scattering foil(termed the detector) is placed in the 1134306500012 of this tube transverse to the neutron beam. 1134306500013 STATUS (TABLE) Table IV, page 14. 1134306500014 HISTORY (20190329C) BP 1134306500015 ENDBIB 13 0 1134306500016 NOCOMMON 0 0 1134306500017 DATA 2 1 1134306500018 EN-MIN DATA 1134306500019 EV B 1134306500020 0.5 25.2 1134306500021 ENDDATA 3 0 1134306500022 ENDSUBENT 21 0 1134306599999 ENDENTRY 65 0 1134399999999