ENTRY 11343 20190329 144911343 0 1 SUBENT 11343001 20190329 144911343 1 1 BIB 6 11 11343 1 2 TITLE Low Energy Neutron Resonance Scattering and Absorption 11343 1 3 AUTHOR (S.P.Harris,C.O.Muehlhause,G.E.Thomas) 11343 1 4 REFERENCE (J,PR,79,11,1950) 11343 1 5 #doi:10.1103/PhysRev.79.11 11343 1 6 INSTITUTE (1USAANL) 11343 1 7 FACILITY (REAC,1USAANL) Argonne heavy water reactor. 11343 1 8 HISTORY (19770602C) 11343 1 9 (19820324A) Converted to reaction formalism 11343 1 10 (20190329A) BP: Updated to new date formats,lower 11343 1 11 case. Corrections according last EXFOR rules and 11343 1 12 Dict. Added sample information, subs. 37-65. 11343 1 13 ENDBIB 11 0 11343 1 14 NOCOMMON 0 0 11343 1 15 ENDSUBENT 14 0 11343 199999 SUBENT 11343002 20190329 144911343 2 1 BIB 6 10 11343 2 2 REACTION (11-NA-23(N,G)11-NA-24,,RI) 11343 2 3 SAMPLE NaF. 11343 2 4 DETECTOR (GEMUC,IOCH) 11343 2 5 METHOD (ACTIV) Sample activities were either measured on 11343 2 6 a Geiger counter or in a no-window air ionization 11343 2 7 chamber. 11343 2 8 Gold thermal capture cross section was taken to be 93b.11343 2 9 MONITOR ((MONIT1)79-AU-197(N,G)79-AU-198,,RI) 11343 2 10 ((MONIT2)11-NA-23(N,G)11-NA-24,,SIG) 11343 2 11 STATUS (TABLE) Table III, page 13. 11343 2 12 ENDBIB 10 0 11343 2 13 COMMON 2 3 11343 2 14 EN-NRM2 MONIT2 11343 2 15 EV B 11343 2 16 0.0253 0.52 11343 2 17 ENDCOMMON 3 0 11343 2 18 DATA 3 1 11343 2 19 EN-MIN DATA-APRX MONIT1 11343 2 20 EV B B 11343 2 21 0.5 0.21 1337.0 11343 2 22 ENDDATA 3 0 11343 2 23 ENDSUBENT 22 0 11343 299999 SUBENT 11343003 20190329 144911343 3 1 BIB 6 10 11343 3 2 REACTION (13-AL-27(N,G)13-AL-28,,RI) 11343 3 3 SAMPLE Al. 11343 3 4 DETECTOR (GEMUC,IOCH) 11343 3 5 METHOD (ACTIV) Sample activities were either measured on 11343 3 6 a Geiger counter or in a no-window air ionization 11343 3 7 chamber. 11343 3 8 Gold thermal capture cross section was taken to be 93b.11343 3 9 MONITOR ((MONIT1)79-AU-197(N,G)79-AU-198,,RI) 11343 3 10 ((MONIT2)13-AL-27(N,G)13-AL-28,,SIG) 11343 3 11 STATUS (TABLE) Table III, page 13. 11343 3 12 ENDBIB 10 0 11343 3 13 COMMON 2 3 11343 3 14 EN-NRM2 MONIT2 11343 3 15 EV B 11343 3 16 0.0253 0.22 11343 3 17 ENDCOMMON 3 0 11343 3 18 DATA 3 1 11343 3 19 EN-MIN DATA-APRX MONIT1 11343 3 20 EV B B 11343 3 21 0.5 0.14 1337.0 11343 3 22 ENDDATA 3 0 11343 3 23 ENDSUBENT 22 0 11343 399999 SUBENT 11343004 20190329 144911343 4 1 BIB 6 10 11343 4 2 REACTION (15-P-31(N,G)15-P-32,,RI) 11343 4 3 SAMPLE P. 11343 4 4 DETECTOR (GEMUC,IOCH) 11343 4 5 METHOD (ACTIV) Sample activities were either measured on 11343 4 6 a Geiger counter or in a no-window air ionization 11343 4 7 chamber. 11343 4 8 Gold thermal capture cross section was taken to be 93b.11343 4 9 MONITOR ((MONIT1)79-AU-197(N,G)79-AU-198,,RI) 11343 4 10 ((MONIT2)15-P-31(N,G)15-P-32,,SIG) 11343 4 11 STATUS (TABLE) Table III, page 13. 11343 4 12 ENDBIB 10 0 11343 4 13 COMMON 2 3 11343 4 14 EN-NRM2 MONIT2 11343 4 15 EV B 11343 4 16 0.0253 0.23 11343 4 17 ENDCOMMON 3 0 11343 4 18 DATA 3 1 11343 4 19 EN-MIN DATA-APRX MONIT1 11343 4 20 EV B B 11343 4 21 0.5 0.10 1337.0 11343 4 22 ENDDATA 3 0 11343 4 23 ENDSUBENT 22 0 11343 499999 SUBENT 11343005 20190329 144911343 5 1 BIB 6 10 11343 5 2 REACTION (21-SC-45(N,G)21-SC-46,,RI) 11343 5 3 SAMPLE Sc2O3. 11343 5 4 DETECTOR (GEMUC,IOCH) 11343 5 5 METHOD (ACTIV) Sample activities were either measured on 11343 5 6 a Geiger counter or in a no-window air ionization 11343 5 7 chamber. 11343 5 8 Gold thermal capture cross section was taken to be 93b.11343 5 9 MONITOR ((MONIT1)79-AU-197(N,G)79-AU-198,,RI) 11343 5 10 ((MONIT2)21-SC-45(N,G)21-SC-46,,SIG) 11343 5 11 STATUS (TABLE) Table III, page 13. 11343 5 12 ENDBIB 10 0 11343 5 13 COMMON 2 3 11343 5 14 EN-NRM2 MONIT2 11343 5 15 EV B 11343 5 16 0.0253 31.6 11343 5 17 ENDCOMMON 3 0 11343 5 18 DATA 3 1 11343 5 19 EN-MIN DATA-APRX MONIT1 11343 5 20 EV B B 11343 5 21 0.5 12.6 1337.0 11343 5 22 ENDDATA 3 0 11343 5 23 ENDSUBENT 22 0 11343 599999 SUBENT 11343006 20190329 144911343 6 1 BIB 6 10 11343 6 2 REACTION (23-V-51(N,G)23-V-52,,RI) 11343 6 3 SAMPLE V2O5. 11343 6 4 DETECTOR (GEMUC,IOCH) 11343 6 5 METHOD (ACTIV) Sample activities were either measured on 11343 6 6 a Geiger counter or in a no-window air ionization 11343 6 7 chamber. 11343 6 8 Gold thermal capture cross section was taken to be 93b.11343 6 9 MONITOR ((MONIT1)79-AU-197(N,G)79-AU-198,,RI) 11343 6 10 ((MONIT2)23-V-51(N,G)23-V-52,,SIG) 11343 6 11 STATUS (TABLE) Table III, page 13. 11343 6 12 ENDBIB 10 0 11343 6 13 COMMON 2 3 11343 6 14 EN-NRM2 MONIT2 11343 6 15 EV B 11343 6 16 0.0253 4.93 11343 6 17 ENDCOMMON 3 0 11343 6 18 DATA 3 1 11343 6 19 EN-MIN DATA-APRX MONIT1 11343 6 20 EV B B 11343 6 21 0.5 2.0 1337.0 11343 6 22 ENDDATA 3 0 11343 6 23 ENDSUBENT 22 0 11343 699999 SUBENT 11343007 20190329 144911343 7 1 BIB 6 10 11343 7 2 REACTION (25-MN-55(N,G)25-MN-56,,RI) 11343 7 3 SAMPLE Mn. 11343 7 4 DETECTOR (GEMUC,IOCH) 11343 7 5 METHOD (ACTIV) Sample activities were either measured on 11343 7 6 a Geiger counter or in a no-window air ionization 11343 7 7 chamber. 11343 7 8 Gold thermal capture cross section was taken to be 93b.11343 7 9 MONITOR ((MONIT1)79-AU-197(N,G)79-AU-198,,RI) 11343 7 10 ((MONIT2)25-MN-55(N,G)25-MN-56,,SIG) 11343 7 11 STATUS (TABLE) Table III, page 13. 11343 7 12 ENDBIB 10 0 11343 7 13 COMMON 2 3 11343 7 14 EN-NRM2 MONIT2 11343 7 15 EV B 11343 7 16 0.0253 12.1 11343 7 17 ENDCOMMON 3 0 11343 7 18 DATA 3 1 11343 7 19 EN-MIN DATA-APRX MONIT1 11343 7 20 EV B B 11343 7 21 0.5 9.8 1337.0 11343 7 22 ENDDATA 3 0 11343 7 23 ENDSUBENT 22 0 11343 799999 SUBENT 11343008 20190329 144911343 8 1 BIB 6 10 11343 8 2 REACTION (27-CO-59(N,G)27-CO-60,,RI) 11343 8 3 SAMPLE Co. 11343 8 4 DETECTOR (GEMUC,IOCH) 11343 8 5 METHOD (ACTIV) Sample activities were either measured on 11343 8 6 a Geiger counter or in a no-window air ionization 11343 8 7 chamber. 11343 8 8 Gold thermal capture cross section was taken to be 93b.11343 8 9 MONITOR ((MONIT1)79-AU-197(N,G)79-AU-198,,RI) 11343 8 10 ((MONIT2)27-CO-59(N,G)27-CO-60,,SIG) 11343 8 11 STATUS (TABLE) Table III, page 13. 11343 8 12 ENDBIB 10 0 11343 8 13 COMMON 2 3 11343 8 14 EN-NRM2 MONIT2 11343 8 15 EV B 11343 8 16 0.0253 34.3 11343 8 17 ENDCOMMON 3 0 11343 8 18 DATA 3 1 11343 8 19 EN-MIN DATA MONIT1 11343 8 20 EV B B 11343 8 21 0.5 41.2 1337.0 11343 8 22 ENDDATA 3 0 11343 8 23 ENDSUBENT 22 0 11343 899999 SUBENT 11343009 20190329 144911343 9 1 BIB 6 10 11343 9 2 REACTION (29-CU-0(N,G),,RI) 11343 9 3 SAMPLE Cu. 11343 9 4 DETECTOR (GEMUC,IOCH) 11343 9 5 METHOD (ACTIV) Sample activities were either measured on 11343 9 6 a Geiger counter or in a no-window air ionization 11343 9 7 chamber. 11343 9 8 Gold thermal capture cross section was taken to be 93b.11343 9 9 MONITOR ((MONIT1)79-AU-197(N,G)79-AU-198,,RI) 11343 9 10 ((MONIT2)29-CU-0(N,G),,SIG) 11343 9 11 STATUS (TABLE) Table III, page 13. 11343 9 12 ENDBIB 10 0 11343 9 13 COMMON 2 3 11343 9 14 EN-NRM2 MONIT2 11343 9 15 EV B 11343 9 16 0.0253 3.62 11343 9 17 ENDCOMMON 3 0 11343 9 18 DATA 3 1 11343 9 19 EN-MIN DATA MONIT1 11343 9 20 EV B B 11343 9 21 0.5 3.35 1337.0 11343 9 22 ENDDATA 3 0 11343 9 23 ENDSUBENT 22 0 11343 999999 SUBENT 11343010 20190329 144911343 10 1 BIB 6 10 11343 10 2 REACTION (31-GA-69(N,G)31-GA-70,,RI) 11343 10 3 SAMPLE Ga2O3. 11343 10 4 DETECTOR (GEMUC,IOCH) 11343 10 5 METHOD (ACTIV) Sample activities were either measured on 11343 10 6 a Geiger counter or in a no-window air ionization 11343 10 7 chamber. 11343 10 8 Gold thermal capture cross section was taken to be 93b.11343 10 9 MONITOR ((MONIT1)79-AU-197(N,G)79-AU-198,,RI) 11343 10 10 ((MONIT2)31-GA-69(N,G)31-GA-70,,SIG) 11343 10 11 STATUS (TABLE) Table III, page 13. 11343 10 12 ENDBIB 10 0 11343 10 13 COMMON 2 3 11343 10 14 EN-NRM2 MONIT2 11343 10 15 EV B 11343 10 16 0.0253 1.40 11343 10 17 ENDCOMMON 3 0 11343 10 18 DATA 3 1 11343 10 19 EN-MIN DATA MONIT1 11343 10 20 EV B B 11343 10 21 0.5 8.01 1337.0 11343 10 22 ENDDATA 3 0 11343 10 23 ENDSUBENT 22 0 11343 1099999 SUBENT 11343011 20190329 144911343 11 1 BIB 6 10 11343 11 2 REACTION (31-GA-71(N,G)31-GA-72,,RI) 11343 11 3 SAMPLE Ga2O3. 11343 11 4 DETECTOR (GEMUC,IOCH) 11343 11 5 METHOD (ACTIV) Sample activities were either measured on 11343 11 6 a Geiger counter or in a no-window air ionization 11343 11 7 chamber. 11343 11 8 Gold thermal capture cross section was taken to be 93b.11343 11 9 MONITOR ((MONIT1)79-AU-197(N,G)79-AU-198,,RI) 11343 11 10 ((MONIT2)31-GA-71(N,G)31-GA-72,,SIG) 11343 11 11 STATUS (TABLE) Table III, page 13. 11343 11 12 ENDBIB 10 0 11343 11 13 COMMON 2 3 11343 11 14 EN-NRM2 MONIT2 11343 11 15 EV B 11343 11 16 0.0253 3.36 11343 11 17 ENDCOMMON 3 0 11343 11 18 DATA 3 1 11343 11 19 EN-MIN DATA MONIT1 11343 11 20 EV B B 11343 11 21 0.5 13.2 1337.0 11343 11 22 ENDDATA 3 0 11343 11 23 ENDSUBENT 22 0 11343 1199999 SUBENT 11343012 20190329 144911343 12 1 BIB 6 10 11343 12 2 REACTION (33-AS-75(N,G)33-AS-76,,RI) 11343 12 3 MONITOR ((MONIT1)79-AU-197(N,G)79-AU-198,,RI) 11343 12 4 ((MONIT2)33-AS-75(N,G)33-AS-76,,SIG) 11343 12 5 SAMPLE As. 11343 12 6 DETECTOR (GEMUC,IOCH) 11343 12 7 METHOD (ACTIV) Sample activities were either measured on 11343 12 8 a Geiger counter or in a no-window air ionization 11343 12 9 chamber. 11343 12 10 Gold thermal capture cross section was taken to be 93b.11343 12 11 STATUS (TABLE) Table III, page 13. 11343 12 12 ENDBIB 10 0 11343 12 13 COMMON 2 3 11343 12 14 EN-NRM2 MONIT2 11343 12 15 EV B 11343 12 16 0.0253 3.87 11343 12 17 ENDCOMMON 3 0 11343 12 18 DATA 3 1 11343 12 19 EN-MIN DATA MONIT1 11343 12 20 EV B B 11343 12 21 0.5 31.5 1337.0 11343 12 22 ENDDATA 3 0 11343 12 23 ENDSUBENT 22 0 11343 1299999 SUBENT 11343013 20190329 144911343 13 1 BIB 6 10 11343 13 2 REACTION (35-BR-79(N,G)35-BR-80,,RI) 11343 13 3 SAMPLE PbBr2. 11343 13 4 DETECTOR (GEMUC,IOCH) 11343 13 5 METHOD (ACTIV) Sample activities were either measured on 11343 13 6 a Geiger counter or in a no-window air ionization 11343 13 7 chamber. 11343 13 8 Gold thermal capture cross section was taken to be 93b.11343 13 9 MONITOR ((MONIT1)79-AU-197(N,G)79-AU-198,,RI) 11343 13 10 ((MONIT2)35-BR-79(N,G)35-BR-80,,SIG) 11343 13 11 STATUS (TABLE) Table III, page 13. 11343 13 12 ENDBIB 10 0 11343 13 13 COMMON 2 3 11343 13 14 EN-NRM2 MONIT2 11343 13 15 EV B 11343 13 16 0.0253 3.87 11343 13 17 ENDCOMMON 3 0 11343 13 18 DATA 3 1 11343 13 19 EN-MIN DATA MONIT1 11343 13 20 EV B B 11343 13 21 0.5 133. 1337.0 11343 13 22 ENDDATA 3 0 11343 13 23 ENDSUBENT 22 0 11343 1399999 SUBENT 11343014 20190329 144911343 14 1 BIB 6 10 11343 14 2 REACTION (39-Y-89(N,G)39-Y-90,,RI) 11343 14 3 SAMPLE Y2O3. 11343 14 4 DETECTOR (GEMUC,IOCH) 11343 14 5 METHOD (ACTIV) Sample activities were either measured on 11343 14 6 a Geiger counter or in a no-window air ionization 11343 14 7 chamber. 11343 14 8 Gold thermal capture cross section was taken to be 93b.11343 14 9 MONITOR ((MONIT1)79-AU-197(N,G)79-AU-198,,RI) 11343 14 10 ((MONIT2)39-Y-89(N,G)39-Y-90,,SIG) 11343 14 11 STATUS (TABLE) Table III, page 13. 11343 14 12 ENDBIB 10 0 11343 14 13 COMMON 2 3 11343 14 14 EN-NRM2 MONIT2 11343 14 15 EV B 11343 14 16 0.0253 1.24 11343 14 17 ENDCOMMON 3 0 11343 14 18 DATA 3 1 11343 14 19 EN-MIN DATA MONIT1 11343 14 20 EV B B 11343 14 21 0.5 0.72 1337.0 11343 14 22 ENDDATA 3 0 11343 14 23 ENDSUBENT 22 0 11343 1499999 SUBENT 11343015 20190329 144911343 15 1 BIB 6 10 11343 15 2 REACTION (41-NB-93(N,G)41-NB-94,,RI) 11343 15 3 SAMPLE Nb2O5. 11343 15 4 DETECTOR (GEMUC,IOCH) 11343 15 5 METHOD (ACTIV) Sample activities were either measured on 11343 15 6 a Geiger counter or in a no-window air ionization 11343 15 7 chamber. 11343 15 8 Gold thermal capture cross section was taken to be 93b.11343 15 9 MONITOR ((MONIT1)79-AU-197(N,G)79-AU-198,,RI) 11343 15 10 ((MONIT2)41-NB-93(N,G)41-NB-94,,SIG) 11343 15 11 STATUS (TABLE) Table III, page 13. 11343 15 12 ENDBIB 10 0 11343 15 13 COMMON 2 3 11343 15 14 EN-NRM2 MONIT2 11343 15 15 EV B 11343 15 16 0.0253 1.31 11343 15 17 ENDCOMMON 3 0 11343 15 18 DATA 3 1 11343 15 19 EN-MIN DATA MONIT1 11343 15 20 EV B B 11343 15 21 0.5 4.19 1337.0 11343 15 22 ENDDATA 3 0 11343 15 23 ENDSUBENT 22 0 11343 1599999 SUBENT 11343016 20190329 144911343 16 1 BIB 6 10 11343 16 2 REACTION (45-RH-103(N,G)45-RH-104,,RI) 11343 16 3 SAMPLE Rh. 11343 16 4 DETECTOR (GEMUC,IOCH) 11343 16 5 METHOD (ACTIV) Sample activities were either measured on 11343 16 6 a Geiger counter or in a no-window air ionization 11343 16 7 chamber. 11343 16 8 Gold thermal capture cross section was taken to be 93b.11343 16 9 MONITOR ((MONIT1)79-AU-197(N,G)79-AU-198,,RI) 11343 16 10 ((MONIT2)45-RH-103(N,G)45-RH-104,,SIG) 11343 16 11 STATUS (TABLE) Table III, page 13. 11343 16 12 ENDBIB 10 0 11343 16 13 COMMON 2 3 11343 16 14 EN-NRM2 MONIT2 11343 16 15 EV B 11343 16 16 0.0253 149.0 11343 16 17 ENDCOMMON 3 0 11343 16 18 DATA 3 1 11343 16 19 EN-MIN DATA MONIT1 11343 16 20 EV B B 11343 16 21 0.5 589. 1337.0 11343 16 22 ENDDATA 3 0 11343 16 23 ENDSUBENT 22 0 11343 1699999 SUBENT 11343017 20190329 144911343 17 1 BIB 6 10 11343 17 2 REACTION (47-AG-107(N,G)47-AG-108,,RI) 11343 17 3 SAMPLE Ag. 11343 17 4 DETECTOR (GEMUC,IOCH) 11343 17 5 METHOD (ACTIV) Sample activities were either measured on 11343 17 6 a Geiger counter or in a no-window air ionization 11343 17 7 chamber. 11343 17 8 Gold thermal capture cross section was taken to be 93b.11343 17 9 MONITOR ((MONIT1)79-AU-197(N,G)79-AU-198,,RI) 11343 17 10 ((MONIT2)47-AG-107(N,G)47-AG-108,,SIG) 11343 17 11 STATUS (TABLE) Table III, page 13. 11343 17 12 ENDBIB 10 0 11343 17 13 COMMON 2 3 11343 17 14 EN-NRM2 MONIT2 11343 17 15 EV B 11343 17 16 0.0253 44.3 11343 17 17 ENDCOMMON 3 0 11343 17 18 DATA 3 1 11343 17 19 EN-MIN DATA MONIT1 11343 17 20 EV B B 11343 17 21 0.5 98.3 1337.0 11343 17 22 ENDDATA 3 0 11343 17 23 ENDSUBENT 22 0 11343 1799999 SUBENT 11343018 20190329 144911343 18 1 BIB 6 10 11343 18 2 REACTION (47-AG-109(N,G)47-AG-110,,RI) 11343 18 3 SAMPLE Ag. 11343 18 4 DETECTOR (GEMUC,IOCH) 11343 18 5 METHOD (ACTIV) Sample activities were either measured on 11343 18 6 a Geiger counter or in a no-window air ionization 11343 18 7 chamber. 11343 18 8 Gold thermal capture cross section was taken to be 93b.11343 18 9 MONITOR ((MONIT1)79-AU-197(N,G)79-AU-198,,RI) 11343 18 10 ((MONIT2)47-AG-109(N,G)47-AG-110,,SIG) 11343 18 11 STATUS (TABLE) Table III, page 13. 11343 18 12 ENDBIB 10 0 11343 18 13 COMMON 2 3 11343 18 14 EN-NRM2 MONIT2 11343 18 15 EV B 11343 18 16 0.0253 97.0 11343 18 17 ENDCOMMON 3 0 11343 18 18 DATA 3 1 11343 18 19 EN-MIN DATA MONIT1 11343 18 20 EV B B 11343 18 21 0.5 1213. 1337.0 11343 18 22 ENDDATA 3 0 11343 18 23 ENDSUBENT 22 0 11343 1899999 SUBENT 11343019 20190329 144911343 19 1 BIB 6 10 11343 19 2 REACTION (49-IN-113(N,G)49-IN-114,,RI) 11343 19 3 SAMPLE In. 11343 19 4 DETECTOR (GEMUC,IOCH) 11343 19 5 METHOD (ACTIV) Sample activities were either measured on 11343 19 6 a Geiger counter or in a no-window air ionization 11343 19 7 chamber. 11343 19 8 Gold thermal capture cross section was taken to be 93b.11343 19 9 MONITOR ((MONIT1)79-AU-197(N,G)79-AU-198,,RI) 11343 19 10 ((MONIT2)49-IN-113(N,G)49-IN-114,,SIG) 11343 19 11 STATUS (TABLE) Table III, page 13. 11343 19 12 ENDBIB 10 0 11343 19 13 COMMON 2 3 11343 19 14 EN-NRM2 MONIT2 11343 19 15 EV B 11343 19 16 0.0253 56.0 11343 19 17 ENDCOMMON 3 0 11343 19 18 DATA 3 1 11343 19 19 EN-MIN DATA MONIT1 11343 19 20 EV B B 11343 19 21 0.5 913. 1337.0 11343 19 22 ENDDATA 3 0 11343 19 23 ENDSUBENT 22 0 11343 1999999 SUBENT 11343020 20190329 144911343 20 1 BIB 6 10 11343 20 2 REACTION (49-IN-115(N,G)49-IN-116,,RI) 11343 20 3 SAMPLE In. 11343 20 4 DETECTOR (GEMUC,IOCH) 11343 20 5 METHOD (ACTIV) Sample activities were either measured on 11343 20 6 a Geiger counter or in a no-window air ionization 11343 20 7 chamber. 11343 20 8 Gold thermal capture cross section was taken to be 93b.11343 20 9 MONITOR ((MONIT1)79-AU-197(N,G)79-AU-198,,RI) 11343 20 10 ((MONIT2)49-IN-115(N,G)49-IN-116,,SIG) 11343 20 11 STATUS (TABLE) Table III, page 13. 11343 20 12 ENDBIB 10 0 11343 20 13 COMMON 2 3 11343 20 14 EN-NRM2 MONIT2 11343 20 15 EV B 11343 20 16 0.0253 196.0 11343 20 17 ENDCOMMON 3 0 11343 20 18 DATA 3 1 11343 20 19 EN-MIN DATA MONIT1 11343 20 20 EV B B 11343 20 21 0.5 2372. 1337.0 11343 20 22 ENDDATA 3 0 11343 20 23 ENDSUBENT 22 0 11343 2099999 SUBENT 11343021 20190329 144911343 21 1 BIB 6 10 11343 21 2 REACTION (51-SB-121(N,G)51-SB-122,,RI) 11343 21 3 SAMPLE Sb. 11343 21 4 DETECTOR (GEMUC,IOCH) 11343 21 5 METHOD (ACTIV) Sample activities were either measured on 11343 21 6 a Geiger counter or in a no-window air ionization 11343 21 7 chamber. 11343 21 8 Gold thermal capture cross section was taken to be 93b.11343 21 9 MONITOR ((MONIT1)79-AU-197(N,G)79-AU-198,,RI) 11343 21 10 ((MONIT2)51-SB-121(N,G)51-SB-122,,SIG) 11343 21 11 STATUS (TABLE) Table III, page 13. 11343 21 12 ENDBIB 10 0 11343 21 13 COMMON 2 3 11343 21 14 EN-NRM2 MONIT2 11343 21 15 EV B 11343 21 16 0.0253 6.8 11343 21 17 ENDCOMMON 3 0 11343 21 18 DATA 3 1 11343 21 19 EN-MIN DATA MONIT1 11343 21 20 EV B B 11343 21 21 0.5 147. 1337.0 11343 21 22 ENDDATA 3 0 11343 21 23 ENDSUBENT 22 0 11343 2199999 SUBENT 11343022 20190329 144911343 22 1 BIB 6 10 11343 22 2 REACTION (51-SB-123(N,G)51-SB-124,,RI) 11343 22 3 SAMPLE Sb. 11343 22 4 DETECTOR (GEMUC,IOCH) 11343 22 5 METHOD (ACTIV) Sample activities were either measured on 11343 22 6 a Geiger counter or in a no-window air ionization 11343 22 7 chamber. 11343 22 8 Gold thermal capture cross section was taken to be 93b.11343 22 9 MONITOR ((MONIT1)79-AU-197(N,G)79-AU-198,,RI) 11343 22 10 ((MONIT2)51-SB-123(N,G)51-SB-124,,SIG) 11343 22 11 STATUS (TABLE) Table III, page 13. 11343 22 12 ENDBIB 10 0 11343 22 13 COMMON 2 3 11343 22 14 EN-NRM2 MONIT2 11343 22 15 EV B 11343 22 16 0.0253 2.5 11343 22 17 ENDCOMMON 3 0 11343 22 18 DATA 3 1 11343 22 19 EN-MIN DATA-APRX MONIT1 11343 22 20 EV B B 11343 22 21 0.5 125. 1337.0 11343 22 22 ENDDATA 3 0 11343 22 23 ENDSUBENT 22 0 11343 2299999 SUBENT 11343023 20190329 144911343 23 1 BIB 6 10 11343 23 2 REACTION (53-I-127(N,G)53-I-128,,RI) 11343 23 3 SAMPLE PbI2. 11343 23 4 DETECTOR (GEMUC,IOCH) 11343 23 5 METHOD (ACTIV) Sample activities were either measured on 11343 23 6 a Geiger counter or in a no-window air ionization 11343 23 7 chamber. 11343 23 8 Gold thermal capture cross section was taken to be 93b.11343 23 9 MONITOR ((MONIT1)79-AU-197(N,G)79-AU-198,,RI) 11343 23 10 ((MONIT2)53-I-127(N,G)53-I-128,,SIG) 11343 23 11 STATUS (TABLE) Table III, page 13. 11343 23 12 ENDBIB 10 0 11343 23 13 COMMON 2 3 11343 23 14 EN-NRM2 MONIT2 11343 23 15 EV B 11343 23 16 0.0253 6.25 11343 23 17 ENDCOMMON 3 0 11343 23 18 DATA 3 1 11343 23 19 EN-MIN DATA MONIT1 11343 23 20 EV B B 11343 23 21 0.5 119. 1337.0 11343 23 22 ENDDATA 3 0 11343 23 23 ENDSUBENT 22 0 11343 2399999 SUBENT 11343024 20190329 144911343 24 1 BIB 6 10 11343 24 2 REACTION (59-PR-141(N,G)59-PR-142,,RI) 11343 24 3 SAMPLE PrO2. 11343 24 4 DETECTOR (GEMUC,IOCH) 11343 24 5 METHOD (ACTIV) Sample activities were either measured on 11343 24 6 a Geiger counter or in a no-window air ionization 11343 24 7 chamber. 11343 24 8 Gold thermal capture cross section was taken to be 93b.11343 24 9 MONITOR ((MONIT1)79-AU-197(N,G)79-AU-198,,RI) 11343 24 10 ((MONIT2)59-PR-141(N,G)59-PR-142,,SIG) 11343 24 11 STATUS (TABLE) Table III, page 13. 11343 24 12 ENDBIB 10 0 11343 24 13 COMMON 2 3 11343 24 14 EN-NRM2 MONIT2 11343 24 15 EV B 11343 24 16 0.0253 10.1 11343 24 17 ENDCOMMON 3 0 11343 24 18 DATA 3 1 11343 24 19 EN-MIN DATA MONIT1 11343 24 20 EV B B 11343 24 21 0.5 9.3 1337.0 11343 24 22 ENDDATA 3 0 11343 24 23 ENDSUBENT 22 0 11343 2499999 SUBENT 11343025 20190329 144911343 25 1 BIB 6 10 11343 25 2 REACTION (62-SM-152(N,G)62-SM-153,,RI) 11343 25 3 SAMPLE Sm2O3. 11343 25 4 DETECTOR (GEMUC,IOCH) 11343 25 5 METHOD (ACTIV) Sample activities were either measured on 11343 25 6 a Geiger counter or in a no-window air ionization 11343 25 7 chamber. 11343 25 8 Gold thermal capture cross section was taken to be 93b.11343 25 9 MONITOR ((MONIT1)79-AU-197(N,G)79-AU-198,,RI) 11343 25 10 ((MONIT2)62-SM-152(N,G)62-SM-153,,SIG) 11343 25 11 STATUS (TABLE) Table III, page 13. 11343 25 12 ENDBIB 10 0 11343 25 13 COMMON 2 3 11343 25 14 EN-NRM2 MONIT2 11343 25 15 EV B 11343 25 16 0.0253 138.0 11343 25 17 ENDCOMMON 3 0 11343 25 18 DATA 3 1 11343 25 19 EN-MIN DATA MONIT1 11343 25 20 EV B B 11343 25 21 0.5 1559. 1337.0 11343 25 22 ENDDATA 3 0 11343 25 23 ENDSUBENT 22 0 11343 2599999 SUBENT 11343026 20190329 144911343 26 1 BIB 6 10 11343 26 2 REACTION (63-EU-151(N,G)63-EU-152,,RI) 11343 26 3 SAMPLE Eu2O3. 11343 26 4 DETECTOR (GEMUC,IOCH) 11343 26 5 METHOD (ACTIV) Sample activities were either measured on 11343 26 6 a Geiger counter or in a no-window air ionization 11343 26 7 chamber. 11343 26 8 Gold thermal capture cross section was taken to be 93b.11343 26 9 MONITOR ((MONIT1)79-AU-197(N,G)79-AU-198,,RI) 11343 26 10 ((MONIT2)63-EU-151(N,G)63-EU-152,,SIG) 11343 26 11 STATUS (TABLE) Table III, page 13. 11343 26 12 ENDBIB 10 0 11343 26 13 COMMON 2 3 11343 26 14 EN-NRM2 MONIT2 11343 26 15 EV B 11343 26 16 0.0253 1380.0 11343 26 17 ENDCOMMON 3 0 11343 26 18 DATA 3 1 11343 26 19 EN-MIN DATA MONIT1 11343 26 20 EV B B 11343 26 21 0.5 842. 1337.0 11343 26 22 ENDDATA 3 0 11343 26 23 ENDSUBENT 22 0 11343 2699999 SUBENT 11343027 20190329 144911343 27 1 BIB 6 10 11343 27 2 REACTION (72-HF-180(N,G)72-HF-181,,RI) 11343 27 3 SAMPLE HfO2. 11343 27 4 DETECTOR (GEMUC,IOCH) 11343 27 5 METHOD (ACTIV) Sample activities were either measured on 11343 27 6 a Geiger counter or in a no-window air ionization 11343 27 7 chamber. 11343 27 8 Gold thermal capture cross section was taken to be 93b.11343 27 9 MONITOR ((MONIT1)79-AU-197(N,G)79-AU-198,,RI) 11343 27 10 ((MONIT2)72-HF-180(N,G)72-HF-181,,SIG) 11343 27 11 STATUS (TABLE) Table III, page 13. 11343 27 12 ENDBIB 10 0 11343 27 13 COMMON 2 3 11343 27 14 EN-NRM2 MONIT2 11343 27 15 EV B 11343 27 16 0.0253 10.0 11343 27 17 ENDCOMMON 3 0 11343 27 18 DATA 3 1 11343 27 19 EN-MIN DATA MONIT1 11343 27 20 EV B B 11343 27 21 0.5 19.7 1337.0 11343 27 22 ENDDATA 3 0 11343 27 23 ENDSUBENT 22 0 11343 2799999 SUBENT 11343028 20190329 144911343 28 1 BIB 6 10 11343 28 2 REACTION (72-HF-0(N,G),,RI) 11343 28 3 SAMPLE HfO2. 11343 28 4 DETECTOR (GEMUC,IOCH) 11343 28 5 METHOD (ACTIV) Sample activities were either measured on 11343 28 6 a Geiger counter or in a no-window air ionization 11343 28 7 chamber. 11343 28 8 Gold thermal capture cross section was taken to be 93b.11343 28 9 MONITOR ((MONIT1)79-AU-197(N,G)79-AU-198,,RI) 11343 28 10 ((MONIT2)72-HF-0(N,G),,SIG) 11343 28 11 STATUS (TABLE) Table III, page 13. 11343 28 12 ENDBIB 10 0 11343 28 13 COMMON 2 3 11343 28 14 EN-NRM2 MONIT2 11343 28 15 EV B 11343 28 16 0.0253 100.0 11343 28 17 ENDCOMMON 3 0 11343 28 18 DATA 3 1 11343 28 19 EN-MIN DATA MONIT1 11343 28 20 EV B B 11343 28 21 0.5 1400. 1337.0 11343 28 22 ENDDATA 3 0 11343 28 23 ENDSUBENT 22 0 11343 2899999 SUBENT 11343029 20190329 144911343 29 1 BIB 6 10 11343 29 2 REACTION (73-TA-181(N,G)73-TA-182,,RI) 11343 29 3 SAMPLE Ta. 11343 29 4 DETECTOR (GEMUC,IOCH) 11343 29 5 METHOD (ACTIV) Sample activities were either measured on 11343 29 6 a Geiger counter or in a no-window air ionization 11343 29 7 chamber. 11343 29 8 Gold thermal capture cross section was taken to be 93b.11343 29 9 MONITOR ((MONIT1)79-AU-197(N,G)79-AU-198,,RI) 11343 29 10 ((MONIT2)73-TA-181(N,G)73-TA-182,,SIG) 11343 29 11 STATUS (TABLE) Table III, page 13. 11343 29 12 ENDBIB 10 0 11343 29 13 COMMON 2 3 11343 29 14 EN-NRM2 MONIT2 11343 29 15 EV B 11343 29 16 0.0253 20.6 11343 29 17 ENDCOMMON 3 0 11343 29 18 DATA 3 1 11343 29 19 EN-MIN DATA MONIT1 11343 29 20 EV B B 11343 29 21 0.5 517. 1337.0 11343 29 22 ENDDATA 3 0 11343 29 23 ENDSUBENT 22 0 11343 2999999 SUBENT 11343030 20190329 144911343 30 1 BIB 6 10 11343 30 2 REACTION (74-W-186(N,G)74-W-187,,RI) 11343 30 3 SAMPLE W. 11343 30 4 DETECTOR (GEMUC,IOCH) 11343 30 5 METHOD (ACTIV) Sample activities were either measured on 11343 30 6 a Geiger counter or in a no-window air ionization 11343 30 7 chamber. 11343 30 8 Gold thermal capture cross section was taken to be 93b.11343 30 9 MONITOR ((MONIT1)79-AU-197(N,G)79-AU-198,,RI) 11343 30 10 ((MONIT2)74-W-186(N,G)74-W-187,,SIG) 11343 30 11 STATUS (TABLE) Table III, page 13. 11343 30 12 ENDBIB 10 0 11343 30 13 COMMON 2 3 11343 30 14 EN-NRM2 MONIT2 11343 30 15 EV B 11343 30 16 0.0253 34.2 11343 30 17 ENDCOMMON 3 0 11343 30 18 DATA 3 1 11343 30 19 EN-MIN DATA MONIT1 11343 30 20 EV B B 11343 30 21 0.5 320. 1337.0 11343 30 22 ENDDATA 3 0 11343 30 23 ENDSUBENT 22 0 11343 3099999 SUBENT 11343031 20190329 144911343 31 1 BIB 6 10 11343 31 2 REACTION (75-RE-185(N,G)75-RE-186,,RI) 11343 31 3 SAMPLE Re. 11343 31 4 DETECTOR (GEMUC,IOCH) 11343 31 5 METHOD (ACTIV) Sample activities were either measured on 11343 31 6 a Geiger counter or in a no-window air ionization 11343 31 7 chamber. 11343 31 8 Gold thermal capture cross section was taken to be 93b.11343 31 9 MONITOR ((MONIT1)79-AU-197(N,G)79-AU-198,,RI) 11343 31 10 ((MONIT2)75-RE-185(N,G)75-RE-186,,SIG) 11343 31 11 STATUS (TABLE) Table III, page 13. 11343 31 12 ENDBIB 10 0 11343 31 13 COMMON 2 3 11343 31 14 EN-NRM2 MONIT2 11343 31 15 EV B 11343 31 16 0.0253 101.0 11343 31 17 ENDCOMMON 3 0 11343 31 18 DATA 3 1 11343 31 19 EN-MIN DATA MONIT1 11343 31 20 EV B B 11343 31 21 0.5 1061. 1337.0 11343 31 22 ENDDATA 3 0 11343 31 23 ENDSUBENT 22 0 11343 3199999 SUBENT 11343032 20190329 144911343 32 1 BIB 6 10 11343 32 2 REACTION (75-RE-187(N,G)75-RE-188,,RI) 11343 32 3 SAMPLE Re. 11343 32 4 DETECTOR (GEMUC,IOCH) 11343 32 5 METHOD (ACTIV) Sample activities were either measured on 11343 32 6 a Geiger counter or in a no-window air ionization 11343 32 7 chamber. 11343 32 8 Gold thermal capture cross section was taken to be 93b.11343 32 9 MONITOR ((MONIT1)79-AU-197(N,G)79-AU-198,,RI) 11343 32 10 ((MONIT2)75-RE-187(N,G)75-RE-188,,SIG) 11343 32 11 STATUS (TABLE) Table III, page 13. 11343 32 12 ENDBIB 10 0 11343 32 13 COMMON 2 3 11343 32 14 EN-NRM2 MONIT2 11343 32 15 EV B 11343 32 16 0.0253 75.3 11343 32 17 ENDCOMMON 3 0 11343 32 18 DATA 3 1 11343 32 19 EN-MIN DATA MONIT1 11343 32 20 EV B B 11343 32 21 0.5 275. 1337.0 11343 32 22 ENDDATA 3 0 11343 32 23 ENDSUBENT 22 0 11343 3299999 SUBENT 11343033 20190329 144911343 33 1 BIB 6 10 11343 33 2 REACTION (77-IR-191(N,G)77-IR-192,,RI) 11343 33 3 SAMPLE Ir. 11343 33 4 DETECTOR (GEMUC,IOCH) 11343 33 5 METHOD (ACTIV) Sample activities were either measured on 11343 33 6 a Geiger counter or in a no-window air ionization 11343 33 7 chamber. 11343 33 8 Gold thermal capture cross section was taken to be 93b.11343 33 9 MONITOR ((MONIT1)79-AU-197(N,G)79-AU-198,,RI) 11343 33 10 ((MONIT2)77-IR-191(N,G)77-IR-192,,SIG) 11343 33 11 STATUS (TABLE) Table III, page 13. 11343 33 12 ENDBIB 10 0 11343 33 13 COMMON 2 3 11343 33 14 EN-NRM2 MONIT2 11343 33 15 EV B 11343 33 16 0.0253 1000.0 11343 33 17 ENDCOMMON 3 0 11343 33 18 DATA 3 1 11343 33 19 EN-MIN DATA MONIT1 11343 33 20 EV B B 11343 33 21 0.5 3270. 1337.0 11343 33 22 ENDDATA 3 0 11343 33 23 ENDSUBENT 22 0 11343 3399999 SUBENT 11343034 20190329 144911343 34 1 BIB 6 10 11343 34 2 REACTION (77-IR-193(N,G)77-IR-194,,RI) 11343 34 3 SAMPLE Ir. 11343 34 4 DETECTOR (GEMUC,IOCH) 11343 34 5 METHOD (ACTIV) Sample activities were either measured on 11343 34 6 a Geiger counter or in a no-window air ionization 11343 34 7 chamber. 11343 34 8 Gold thermal capture cross section was taken to be 93b.11343 34 9 MONITOR ((MONIT1)79-AU-197(N,G)79-AU-198,,RI) 11343 34 10 ((MONIT2)77-IR-193(N,G)77-IR-194,,SIG) 11343 34 11 STATUS (TABLE) Table III, page 13. 11343 34 12 ENDBIB 10 0 11343 34 13 COMMON 2 3 11343 34 14 EN-NRM2 MONIT2 11343 34 15 EV B 11343 34 16 0.0253 128.0 11343 34 17 ENDCOMMON 3 0 11343 34 18 DATA 3 1 11343 34 19 EN-MIN DATA MONIT1 11343 34 20 EV B B 11343 34 21 0.5 1213. 1337.0 11343 34 22 ENDDATA 3 0 11343 34 23 ENDSUBENT 22 0 11343 3499999 SUBENT 11343035 20190329 144911343 35 1 BIB 6 10 11343 35 2 REACTION (81-TL-203(N,G)81-TL-204,,RI) 11343 35 3 SAMPLE Tl. 11343 35 4 DETECTOR (GEMUC,IOCH) 11343 35 5 METHOD (ACTIV) Sample activities were either measured on 11343 35 6 a Geiger counter or in a no-window air ionization 11343 35 7 chamber. 11343 35 8 Gold thermal capture cross section was taken to be 93b.11343 35 9 MONITOR ((MONIT1)79-AU-197(N,G)79-AU-198,,RI) 11343 35 10 ((MONIT2)81-TL-203(N,G)81-TL-204,,SIG) 11343 35 11 STATUS (TABLE) Table III, page 13. 11343 35 12 ENDBIB 10 0 11343 35 13 COMMON 2 3 11343 35 14 EN-NRM2 MONIT2 11343 35 15 EV B 11343 35 16 0.0253 12.0 11343 35 17 ENDCOMMON 3 0 11343 35 18 DATA 3 1 11343 35 19 EN-MIN DATA MONIT1 11343 35 20 EV B B 11343 35 21 0.5 127. 1337.0 11343 35 22 ENDDATA 3 0 11343 35 23 ENDSUBENT 22 0 11343 3599999 SUBENT 11343036 20190329 144911343 36 1 BIB 6 10 11343 36 2 REACTION (81-TL-205(N,G)81-TL-206,,RI) 11343 36 3 MONITOR ((MONIT1)79-AU-197(N,G)79-AU-198,,RI) 11343 36 4 ((MONIT2)81-TL-205(N,G)81-TL-206,,SIG) 11343 36 5 SAMPLE Tl. 11343 36 6 DETECTOR (GEMUC,IOCH) 11343 36 7 METHOD (ACTIV) Sample activities were either measured on 11343 36 8 a Geiger counter or in a no-window air ionization 11343 36 9 chamber. 11343 36 10 Gold thermal capture cross section was taken to be 93b.11343 36 11 STATUS (TABLE) Table III, page 13. 11343 36 12 ENDBIB 10 0 11343 36 13 COMMON 2 3 11343 36 14 EN-NRM2 MONIT2 11343 36 15 EV B 11343 36 16 0.0253 0.17 11343 36 17 ENDCOMMON 3 0 11343 36 18 DATA 3 1 11343 36 19 EN-MIN DATA MONIT1 11343 36 20 EV B B 11343 36 21 0.5 0.76 1337.0 11343 36 22 ENDDATA 3 0 11343 36 23 ENDSUBENT 22 0 11343 3699999 SUBENT 11343037 20190329 144911343 37 1 BIB 6 13 11343 37 2 REACTION (11-NA-23(N,SCT)11-NA-23,,RI) 11343 37 3 DETECTOR (PROPC) 4pi-annular proportional neutron counter 11343 37 4 filled with enriched BF3 and surrounded by a paraffin 11343 37 5 reflector-moderator and shield. 11343 37 6 SAMPLE NaF. 11343 37 7 METHOD An evacuated hole through the center of the counter 11343 37 8 conducts a collimated beam of cadmium-filtered 11343 37 9 neutrons from the Argonne water reactor. These 11343 37 10 neutrons give rise to a counting rate only when a 11343 37 11 scattering foil(termed the detector) is placed in the 11343 37 12 of this tube transverse to the neutron beam. 11343 37 13 STATUS (TABLE) Table IV, page 14. 11343 37 14 HISTORY (20190329C) BP 11343 37 15 ENDBIB 13 0 11343 37 16 NOCOMMON 0 0 11343 37 17 DATA 2 1 11343 37 18 EN-MIN DATA 11343 37 19 EV B 11343 37 20 0.5 27.0 11343 37 21 ENDDATA 3 0 11343 37 22 ENDSUBENT 21 0 11343 3799999 SUBENT 11343038 20190329 144911343 38 1 BIB 6 13 11343 38 2 REACTION (13-AL-27(N,SCT)13-AL-27,,RI) 11343 38 3 DETECTOR (PROPC) 4pi-annular proportional neutron counter 11343 38 4 filled with enriched BF3 and surrounded by a paraffin 11343 38 5 reflector-moderator and shield. 11343 38 6 SAMPLE Al. 11343 38 7 METHOD An evacuated hole through the center of the counter 11343 38 8 conducts a collimated beam of cadmium-filtered 11343 38 9 neutrons from the Argonne water reactor. These 11343 38 10 neutrons give rise to a counting rate only when a 11343 38 11 scattering foil(termed the detector) is placed in the 11343 38 12 of this tube transverse to the neutron beam. 11343 38 13 STATUS (TABLE) Table IV, page 14. 11343 38 14 HISTORY (20190329C) BP 11343 38 15 ENDBIB 13 0 11343 38 16 NOCOMMON 0 0 11343 38 17 DATA 2 1 11343 38 18 EN-MIN DATA 11343 38 19 EV B 11343 38 20 0.5 2.9 11343 38 21 ENDDATA 3 0 11343 38 22 ENDSUBENT 21 0 11343 3899999 SUBENT 11343039 20190329 144911343 39 1 BIB 6 13 11343 39 2 REACTION (21-SC-45(N,SCT)21-SC-45,,RI) 11343 39 3 DETECTOR (PROPC) 4pi-annular proportional neutron counter 11343 39 4 filled with enriched BF3 and surrounded by a paraffin 11343 39 5 reflector-moderator and shield. 11343 39 6 SAMPLE Sc2O3. 11343 39 7 METHOD An evacuated hole through the center of the counter 11343 39 8 conducts a collimated beam of cadmium-filtered 11343 39 9 neutrons from the Argonne water reactor. These 11343 39 10 neutrons give rise to a counting rate only when a 11343 39 11 scattering foil(termed the detector) is placed in the 11343 39 12 of this tube transverse to the neutron beam. 11343 39 13 STATUS (TABLE) Table IV, page 14. 11343 39 14 HISTORY (20190329C) BP 11343 39 15 ENDBIB 13 0 11343 39 16 NOCOMMON 0 0 11343 39 17 DATA 2 1 11343 39 18 EN-MIN DATA 11343 39 19 EV B 11343 39 20 0.5 27.0 11343 39 21 ENDDATA 3 0 11343 39 22 ENDSUBENT 21 0 11343 3999999 SUBENT 11343040 20190329 144911343 40 1 BIB 6 13 11343 40 2 REACTION (23-V-51(N,SCT)23-V-51,,RI) 11343 40 3 DETECTOR (PROPC) 4pi-annular proportional neutron counter 11343 40 4 filled with enriched BF3 and surrounded by a paraffin 11343 40 5 reflector-moderator and shield. 11343 40 6 SAMPLE V. 11343 40 7 METHOD An evacuated hole through the center of the counter 11343 40 8 conducts a collimated beam of cadmium-filtered 11343 40 9 neutrons from the Argonne water reactor. These 11343 40 10 neutrons give rise to a counting rate only when a 11343 40 11 scattering foil(termed the detector) is placed in the 11343 40 12 of this tube transverse to the neutron beam. 11343 40 13 STATUS (TABLE) Table IV, page 14. 11343 40 14 HISTORY (20190329C) BP 11343 40 15 ENDBIB 13 0 11343 40 16 NOCOMMON 0 0 11343 40 17 DATA 2 1 11343 40 18 EN-MIN DATA 11343 40 19 EV B 11343 40 20 0.5 94.0 11343 40 21 ENDDATA 3 0 11343 40 22 ENDSUBENT 21 0 11343 4099999 SUBENT 11343041 20190329 144911343 41 1 BIB 6 13 11343 41 2 REACTION (24-CR-53(N,SCT)24-CR-53,,RI) 11343 41 3 DETECTOR (PROPC) 4pi-annular proportional neutron counter 11343 41 4 filled with enriched BF3 and surrounded by a paraffin 11343 41 5 reflector-moderator and shield. 11343 41 6 SAMPLE Cr253o3. 11343 41 7 METHOD An evacuated hole through the center of the counter 11343 41 8 conducts a collimated beam of cadmium-filtered 11343 41 9 neutrons from the Argonne water reactor. These 11343 41 10 neutrons give rise to a counting rate only when a 11343 41 11 scattering foil(termed the detector) is placed in the 11343 41 12 of this tube transverse to the neutron beam. 11343 41 13 STATUS (TABLE) Table IV, page 14. 11343 41 14 HISTORY (20190329C) BP 11343 41 15 ENDBIB 13 0 11343 41 16 NOCOMMON 0 0 11343 41 17 DATA 2 1 11343 41 18 EN-MIN DATA 11343 41 19 EV B 11343 41 20 0.5 78.0 11343 41 21 ENDDATA 3 0 11343 41 22 ENDSUBENT 21 0 11343 4199999 SUBENT 11343042 20190329 144911343 42 1 BIB 6 13 11343 42 2 REACTION (25-MN-55(N,SCT)25-MN-55,,RI) 11343 42 3 DETECTOR (PROPC) 4pi-annular proportional neutron counter 11343 42 4 filled with enriched BF3 and surrounded by a paraffin 11343 42 5 reflector-moderator and shield. 11343 42 6 SAMPLE Mn. 11343 42 7 METHOD An evacuated hole through the center of the counter 11343 42 8 conducts a collimated beam of cadmium-filtered 11343 42 9 neutrons from the Argonne water reactor. These 11343 42 10 neutrons give rise to a counting rate only when a 11343 42 11 scattering foil(termed the detector) is placed in the 11343 42 12 of this tube transverse to the neutron beam. 11343 42 13 STATUS (TABLE) Table IV, page 14. 11343 42 14 HISTORY (20190329C) BP 11343 42 15 ENDBIB 13 0 11343 42 16 NOCOMMON 0 0 11343 42 17 DATA 2 1 11343 42 18 EN-MIN DATA 11343 42 19 EV B 11343 42 20 0.5 265.0 11343 42 21 ENDDATA 3 0 11343 42 22 ENDSUBENT 21 0 11343 4299999 SUBENT 11343043 20190329 144911343 43 1 BIB 6 13 11343 43 2 REACTION (27-CO-59(N,SCT)27-CO-59,,RI) 11343 43 3 DETECTOR (PROPC) 4pi-annular proportional neutron counter 11343 43 4 filled with enriched BF3 and surrounded by a paraffin 11343 43 5 reflector-moderator and shield. 11343 43 6 SAMPLE Co. 11343 43 7 METHOD An evacuated hole through the center of the counter 11343 43 8 conducts a collimated beam of cadmium-filtered 11343 43 9 neutrons from the Argonne water reactor. These 11343 43 10 neutrons give rise to a counting rate only when a 11343 43 11 scattering foil(termed the detector) is placed in the 11343 43 12 of this tube transverse to the neutron beam. 11343 43 13 STATUS (TABLE) Table IV, page 14. 11343 43 14 HISTORY (20190329C) BP 11343 43 15 ENDBIB 13 0 11343 43 16 NOCOMMON 0 0 11343 43 17 DATA 2 1 11343 43 18 EN-MIN DATA 11343 43 19 EV B 11343 43 20 0.5 296.0 11343 43 21 ENDDATA 3 0 11343 43 22 ENDSUBENT 21 0 11343 4399999 SUBENT 11343044 20190329 144911343 44 1 BIB 6 13 11343 44 2 REACTION (29-CU-0(N,SCT)29-CU-0,,RI) 11343 44 3 DETECTOR (PROPC) 4pi-annular proportional neutron counter 11343 44 4 filled with enriched BF3 and surrounded by a paraffin 11343 44 5 reflector-moderator and shield. 11343 44 6 SAMPLE Cu. 11343 44 7 METHOD An evacuated hole through the center of the counter 11343 44 8 conducts a collimated beam of cadmium-filtered 11343 44 9 neutrons from the Argonne water reactor. These 11343 44 10 neutrons give rise to a counting rate only when a 11343 44 11 scattering foil(termed the detector) is placed in the 11343 44 12 of this tube transverse to the neutron beam. 11343 44 13 STATUS (TABLE) Table IV, page 14. 11343 44 14 HISTORY (20190329C) BP 11343 44 15 ENDBIB 13 0 11343 44 16 NOCOMMON 0 0 11343 44 17 DATA 2 1 11343 44 18 EN-MIN DATA 11343 44 19 EV B 11343 44 20 0.5 20.0 11343 44 21 ENDDATA 3 0 11343 44 22 ENDSUBENT 21 0 11343 4499999 SUBENT 11343045 20190329 144911343 45 1 BIB 6 13 11343 45 2 REACTION (30-ZN-67(N,SCT)30-ZN-67,,RI) 11343 45 3 DETECTOR (PROPC) 4pi-annular proportional neutron counter 11343 45 4 filled with enriched BF3 and surrounded by a paraffin 11343 45 5 reflector-moderator and shield. 11343 45 6 SAMPLE Zn67O. 11343 45 7 METHOD An evacuated hole through the center of the counter 11343 45 8 conducts a collimated beam of cadmium-filtered 11343 45 9 neutrons from the Argonne water reactor. These 11343 45 10 neutrons give rise to a counting rate only when a 11343 45 11 scattering foil(termed the detector) is placed in the 11343 45 12 of this tube transverse to the neutron beam. 11343 45 13 STATUS (TABLE) Table IV, page 14. 11343 45 14 HISTORY (20190329C) BP 11343 45 15 ENDBIB 13 0 11343 45 16 NOCOMMON 0 0 11343 45 17 DATA 2 1 11343 45 18 EN-MIN DATA 11343 45 19 EV B 11343 45 20 0.5 244.0 11343 45 21 ENDDATA 3 0 11343 45 22 ENDSUBENT 21 0 11343 4599999 SUBENT 11343046 20190329 144911343 46 1 BIB 6 13 11343 46 2 REACTION (31-GA-0(N,SCT)31-GA-0,,RI) 11343 46 3 DETECTOR (PROPC) 4pi-annular proportional neutron counter 11343 46 4 filled with enriched BF3 and surrounded by a paraffin 11343 46 5 reflector-moderator and shield. 11343 46 6 SAMPLE Ga. 11343 46 7 METHOD An evacuated hole through the center of the counter 11343 46 8 conducts a collimated beam of cadmium-filtered 11343 46 9 neutrons from the Argonne water reactor. These 11343 46 10 neutrons give rise to a counting rate only when a 11343 46 11 scattering foil(termed the detector) is placed in the 11343 46 12 of this tube transverse to the neutron beam. 11343 46 13 STATUS (TABLE) Table IV, page 14. 11343 46 14 HISTORY (20190329C) BP 11343 46 15 ENDBIB 13 0 11343 46 16 NOCOMMON 0 0 11343 46 17 DATA 2 1 11343 46 18 EN-MIN DATA 11343 46 19 EV B 11343 46 20 0.5 75.0 11343 46 21 ENDDATA 3 0 11343 46 22 ENDSUBENT 21 0 11343 4699999 SUBENT 11343047 20190329 144911343 47 1 BIB 6 13 11343 47 2 REACTION (33-AS-75(N,SCT)33-AS-75,,RI) 11343 47 3 DETECTOR (PROPC) 4pi-annular proportional neutron counter 11343 47 4 filled with enriched BF3 and surrounded by a paraffin 11343 47 5 reflector-moderator and shield. 11343 47 6 SAMPLE As. 11343 47 7 METHOD An evacuated hole through the center of the counter 11343 47 8 conducts a collimated beam of cadmium-filtered 11343 47 9 neutrons from the Argonne water reactor. These 11343 47 10 neutrons give rise to a counting rate only when a 11343 47 11 scattering foil(termed the detector) is placed in the 11343 47 12 of this tube transverse to the neutron beam. 11343 47 13 STATUS (TABLE) Table IV, page 14. 11343 47 14 HISTORY (20190329C) BP 11343 47 15 ENDBIB 13 0 11343 47 16 NOCOMMON 0 0 11343 47 17 DATA 2 1 11343 47 18 EN-MIN DATA 11343 47 19 EV B 11343 47 20 0.5 45.0 11343 47 21 ENDDATA 3 0 11343 47 22 ENDSUBENT 21 0 11343 4799999 SUBENT 11343048 20190329 144911343 48 1 BIB 6 13 11343 48 2 REACTION (35-BR-0(N,SCT)35-BR-0,,RI) 11343 48 3 DETECTOR (PROPC) 4pi-annular proportional neutron counter 11343 48 4 filled with enriched BF3 and surrounded by a paraffin 11343 48 5 reflector-moderator and shield. 11343 48 6 SAMPLE CBr4. 11343 48 7 METHOD An evacuated hole through the center of the counter 11343 48 8 conducts a collimated beam of cadmium-filtered 11343 48 9 neutrons from the Argonne water reactor. These 11343 48 10 neutrons give rise to a counting rate only when a 11343 48 11 scattering foil(termed the detector) is placed in the 11343 48 12 of this tube transverse to the neutron beam. 11343 48 13 STATUS (TABLE) Table IV, page 14. 11343 48 14 HISTORY (20190329C) BP 11343 48 15 ENDBIB 13 0 11343 48 16 NOCOMMON 0 0 11343 48 17 DATA 2 1 11343 48 18 EN-MIN DATA 11343 48 19 EV B 11343 48 20 0.5 7.6 11343 48 21 ENDDATA 3 0 11343 48 22 ENDSUBENT 21 0 11343 4899999 SUBENT 11343049 20190329 144911343 49 1 BIB 6 13 11343 49 2 REACTION (39-Y-89(N,SCT)39-Y-89,,RI) 11343 49 3 DETECTOR (PROPC) 4pi-annular proportional neutron counter 11343 49 4 filled with enriched BF3 and surrounded by a paraffin 11343 49 5 reflector-moderator and shield. 11343 49 6 SAMPLE Y2O3. 11343 49 7 METHOD An evacuated hole through the center of the counter 11343 49 8 conducts a collimated beam of cadmium-filtered 11343 49 9 neutrons from the Argonne water reactor. These 11343 49 10 neutrons give rise to a counting rate only when a 11343 49 11 scattering foil(termed the detector) is placed in the 11343 49 12 of this tube transverse to the neutron beam. 11343 49 13 STATUS (TABLE) Table IV, page 14. 11343 49 14 HISTORY (20190329C) BP 11343 49 15 ENDBIB 13 0 11343 49 16 NOCOMMON 0 0 11343 49 17 DATA 2 1 11343 49 18 EN-MIN DATA 11343 49 19 EV B 11343 49 20 0.5 9.2 11343 49 21 ENDDATA 3 0 11343 49 22 ENDSUBENT 21 0 11343 4999999 SUBENT 11343050 20190329 144911343 50 1 BIB 6 13 11343 50 2 REACTION (41-NB-93(N,SCT)41-NB-93,,RI) 11343 50 3 DETECTOR (PROPC) 4pi-annular proportional neutron counter 11343 50 4 filled with enriched BF3 and surrounded by a paraffin 11343 50 5 reflector-moderator and shield. 11343 50 6 SAMPLE Nb. 11343 50 7 METHOD An evacuated hole through the center of the counter 11343 50 8 conducts a collimated beam of cadmium-filtered 11343 50 9 neutrons from the Argonne water reactor. These 11343 50 10 neutrons give rise to a counting rate only when a 11343 50 11 scattering foil(termed the detector) is placed in the 11343 50 12 of this tube transverse to the neutron beam. 11343 50 13 STATUS (TABLE) Table IV, page 14. 11343 50 14 HISTORY (20190329C) BP 11343 50 15 ENDBIB 13 0 11343 50 16 NOCOMMON 0 0 11343 50 17 DATA 2 1 11343 50 18 EN-MIN DATA 11343 50 19 EV B 11343 50 20 0.5 4.2 11343 50 21 ENDDATA 3 0 11343 50 22 ENDSUBENT 21 0 11343 5099999 SUBENT 11343051 20190329 144911343 51 1 BIB 6 13 11343 51 2 REACTION (45-RH-103(N,SCT)45-RH-103,,RI) 11343 51 3 DETECTOR (PROPC) 4pi-annular proportional neutron counter 11343 51 4 filled with enriched BF3 and surrounded by a paraffin 11343 51 5 reflector-moderator and shield. 11343 51 6 SAMPLE Rh. 11343 51 7 METHOD An evacuated hole through the center of the counter 11343 51 8 conducts a collimated beam of cadmium-filtered 11343 51 9 neutrons from the Argonne water reactor. These 11343 51 10 neutrons give rise to a counting rate only when a 11343 51 11 scattering foil(termed the detector) is placed in the 11343 51 12 of this tube transverse to the neutron beam. 11343 51 13 STATUS (TABLE) Table IV, page 14. 11343 51 14 HISTORY (20190329C) BP 11343 51 15 ENDBIB 13 0 11343 51 16 NOCOMMON 0 0 11343 51 17 DATA 2 1 11343 51 18 EN-MIN DATA 11343 51 19 EV B 11343 51 20 0.5 23.0 11343 51 21 ENDDATA 3 0 11343 51 22 ENDSUBENT 21 0 11343 5199999 SUBENT 11343052 20190329 144911343 52 1 BIB 6 13 11343 52 2 REACTION (47-AG-107(N,SCT)47-AG-107,,RI) 11343 52 3 DETECTOR (PROPC) 4pi-annular proportional neutron counter 11343 52 4 filled with enriched BF3 and surrounded by a paraffin 11343 52 5 reflector-moderator and shield. 11343 52 6 SAMPLE Ag107O. 11343 52 7 METHOD An evacuated hole through the center of the counter 11343 52 8 conducts a collimated beam of cadmium-filtered 11343 52 9 neutrons from the Argonne water reactor. These 11343 52 10 neutrons give rise to a counting rate only when a 11343 52 11 scattering foil(termed the detector) is placed in the 11343 52 12 of this tube transverse to the neutron beam. 11343 52 13 STATUS (TABLE) Table IV, page 14. 11343 52 14 HISTORY (20190329C) BP 11343 52 15 ENDBIB 13 0 11343 52 16 NOCOMMON 0 0 11343 52 17 DATA 2 1 11343 52 18 EN-MIN DATA 11343 52 19 EV B 11343 52 20 0.5 5.0 11343 52 21 ENDDATA 3 0 11343 52 22 ENDSUBENT 21 0 11343 5299999 SUBENT 11343053 20190329 144911343 53 1 BIB 6 13 11343 53 2 REACTION (47-AG-109(N,SCT)47-AG-109,,RI) 11343 53 3 DETECTOR (PROPC) 4pi-annular proportional neutron counter 11343 53 4 filled with enriched BF3 and surrounded by a paraffin 11343 53 5 reflector-moderator and shield. 11343 53 6 SAMPLE Ag109O. 11343 53 7 METHOD An evacuated hole through the center of the counter 11343 53 8 conducts a collimated beam of cadmium-filtered 11343 53 9 neutrons from the Argonne water reactor. These 11343 53 10 neutrons give rise to a counting rate only when a 11343 53 11 scattering foil(termed the detector) is placed in the 11343 53 12 of this tube transverse to the neutron beam. 11343 53 13 STATUS (TABLE) Table IV, page 14. 11343 53 14 HISTORY (20190329C) BP 11343 53 15 ENDBIB 13 0 11343 53 16 NOCOMMON 0 0 11343 53 17 DATA 2 1 11343 53 18 EN-MIN DATA 11343 53 19 EV B 11343 53 20 0.5 39.5 11343 53 21 ENDDATA 3 0 11343 53 22 ENDSUBENT 21 0 11343 5399999 SUBENT 11343054 20190329 144911343 54 1 BIB 6 13 11343 54 2 REACTION (51-SB-0(N,SCT)51-SB-0,,RI) 11343 54 3 DETECTOR (PROPC) 4pi-annular proportional neutron counter 11343 54 4 filled with enriched BF3 and surrounded by a paraffin 11343 54 5 reflector-moderator and shield. 11343 54 6 SAMPLE Sb. 11343 54 7 METHOD An evacuated hole through the center of the counter 11343 54 8 conducts a collimated beam of cadmium-filtered 11343 54 9 neutrons from the Argonne water reactor. These 11343 54 10 neutrons give rise to a counting rate only when a 11343 54 11 scattering foil(termed the detector) is placed in the 11343 54 12 of this tube transverse to the neutron beam. 11343 54 13 STATUS (TABLE) Table IV, page 14. 11343 54 14 HISTORY (20190329C) BP 11343 54 15 ENDBIB 13 0 11343 54 16 NOCOMMON 0 0 11343 54 17 DATA 2 1 11343 54 18 EN-MIN DATA 11343 54 19 EV B 11343 54 20 0.5 29.9 11343 54 21 ENDDATA 3 0 11343 54 22 ENDSUBENT 21 0 11343 5499999 SUBENT 11343055 20190329 144911343 55 1 BIB 6 13 11343 55 2 REACTION (53-I-127(N,SCT)53-I-127,,RI) 11343 55 3 DETECTOR (PROPC) 4pi-annular proportional neutron counter 11343 55 4 filled with enriched BF3 and surrounded by a paraffin 11343 55 5 reflector-moderator and shield. 11343 55 6 SAMPLE PbI2. 11343 55 7 METHOD An evacuated hole through the center of the counter 11343 55 8 conducts a collimated beam of cadmium-filtered 11343 55 9 neutrons from the Argonne water reactor. These 11343 55 10 neutrons give rise to a counting rate only when a 11343 55 11 scattering foil(termed the detector) is placed in the 11343 55 12 of this tube transverse to the neutron beam. 11343 55 13 STATUS (TABLE) Table IV, page 14. 11343 55 14 HISTORY (20190329C) BP 11343 55 15 ENDBIB 13 0 11343 55 16 NOCOMMON 0 0 11343 55 17 DATA 2 1 11343 55 18 EN-MIN DATA 11343 55 19 EV B 11343 55 20 0.5 40.7 11343 55 21 ENDDATA 3 0 11343 55 22 ENDSUBENT 21 0 11343 5599999 SUBENT 11343056 20190329 144911343 56 1 BIB 6 13 11343 56 2 REACTION (57-LA-139(N,SCT)57-LA-139,,RI) 11343 56 3 DETECTOR (PROPC) 4pi-annular proportional neutron counter 11343 56 4 filled with enriched BF3 and surrounded by a paraffin 11343 56 5 reflector-moderator and shield. 11343 56 6 SAMPLE La2O3. 11343 56 7 METHOD An evacuated hole through the center of the counter 11343 56 8 conducts a collimated beam of cadmium-filtered 11343 56 9 neutrons from the Argonne water reactor. These 11343 56 10 neutrons give rise to a counting rate only when a 11343 56 11 scattering foil(termed the detector) is placed in the 11343 56 12 of this tube transverse to the neutron beam. 11343 56 13 STATUS (TABLE) Table IV, page 14. 11343 56 14 HISTORY (20190329C) BP 11343 56 15 ENDBIB 13 0 11343 56 16 NOCOMMON 0 0 11343 56 17 DATA 2 1 11343 56 18 EN-MIN DATA 11343 56 19 EV B 11343 56 20 0.5 8.4 11343 56 21 ENDDATA 3 0 11343 56 22 ENDSUBENT 21 0 11343 5699999 SUBENT 11343057 20190329 144911343 57 1 BIB 6 13 11343 57 2 REACTION (59-PR-141(N,SCT)59-PR-141,,RI) 11343 57 3 DETECTOR (PROPC) 4pi-annular proportional neutron counter 11343 57 4 filled with enriched BF3 and surrounded by a paraffin 11343 57 5 reflector-moderator and shield. 11343 57 6 SAMPLE PrO2. 11343 57 7 METHOD An evacuated hole through the center of the counter 11343 57 8 conducts a collimated beam of cadmium-filtered 11343 57 9 neutrons from the Argonne water reactor. These 11343 57 10 neutrons give rise to a counting rate only when a 11343 57 11 scattering foil(termed the detector) is placed in the 11343 57 12 of this tube transverse to the neutron beam. 11343 57 13 STATUS (TABLE) Table IV, page 14. 11343 57 14 HISTORY (20190329C) BP 11343 57 15 ENDBIB 13 0 11343 57 16 NOCOMMON 0 0 11343 57 17 DATA 2 1 11343 57 18 EN-MIN DATA 11343 57 19 EV B 11343 57 20 0.5 59.0 11343 57 21 ENDDATA 3 0 11343 57 22 ENDSUBENT 21 0 11343 5799999 SUBENT 11343058 20190329 144911343 58 1 BIB 6 13 11343 58 2 REACTION (62-SM-0(N,SCT)62-SM-0,,RI) 11343 58 3 DETECTOR (PROPC) 4pi-annular proportional neutron counter 11343 58 4 filled with enriched BF3 and surrounded by a paraffin 11343 58 5 reflector-moderator and shield. 11343 58 6 SAMPLE Sm2O3. 11343 58 7 METHOD An evacuated hole through the center of the counter 11343 58 8 conducts a collimated beam of cadmium-filtered 11343 58 9 neutrons from the Argonne water reactor. These 11343 58 10 neutrons give rise to a counting rate only when a 11343 58 11 scattering foil(termed the detector) is placed in the 11343 58 12 of this tube transverse to the neutron beam. 11343 58 13 STATUS (TABLE) Table IV, page 14. 11343 58 14 HISTORY (20190329C) BP 11343 58 15 ENDBIB 13 0 11343 58 16 NOCOMMON 0 0 11343 58 17 DATA 2 1 11343 58 18 EN-MIN DATA 11343 58 19 EV B 11343 58 20 0.5 664.0 11343 58 21 ENDDATA 3 0 11343 58 22 ENDSUBENT 21 0 11343 5899999 SUBENT 11343059 20190329 144911343 59 1 BIB 6 13 11343 59 2 REACTION (63-EU-0(N,SCT)63-EU-0,,RI) 11343 59 3 DETECTOR (PROPC) 4pi-annular proportional neutron counter 11343 59 4 filled with enriched BF3 and surrounded by a paraffin 11343 59 5 reflector-moderator and shield. 11343 59 6 SAMPLE Eu2O3. 11343 59 7 METHOD An evacuated hole through the center of the counter 11343 59 8 conducts a collimated beam of cadmium-filtered 11343 59 9 neutrons from the Argonne water reactor. These 11343 59 10 neutrons give rise to a counting rate only when a 11343 59 11 scattering foil(termed the detector) is placed in the 11343 59 12 of this tube transverse to the neutron beam. 11343 59 13 STATUS (TABLE) Table IV, page 14. 11343 59 14 HISTORY (20190329C) BP 11343 59 15 ENDBIB 13 0 11343 59 16 NOCOMMON 0 0 11343 59 17 DATA 2 1 11343 59 18 EN-MIN DATA 11343 59 19 EV B 11343 59 20 0.5 34.0 11343 59 21 ENDDATA 3 0 11343 59 22 ENDSUBENT 21 0 11343 5999999 SUBENT 11343060 20190329 144911343 60 1 BIB 6 13 11343 60 2 REACTION (72-HF-0(N,SCT)72-HF-0,,RI) 11343 60 3 DETECTOR (PROPC) 4pi-annular proportional neutron counter 11343 60 4 filled with enriched BF3 and surrounded by a paraffin 11343 60 5 reflector-moderator and shield. 11343 60 6 SAMPLE HfO2. 11343 60 7 METHOD An evacuated hole through the center of the counter 11343 60 8 conducts a collimated beam of cadmium-filtered 11343 60 9 neutrons from the Argonne water reactor. These 11343 60 10 neutrons give rise to a counting rate only when a 11343 60 11 scattering foil(termed the detector) is placed in the 11343 60 12 of this tube transverse to the neutron beam. 11343 60 13 STATUS (TABLE) Table IV, page 14. 11343 60 14 HISTORY (20190329C) BP 11343 60 15 ENDBIB 13 0 11343 60 16 NOCOMMON 0 0 11343 60 17 DATA 2 1 11343 60 18 EN-MIN DATA 11343 60 19 EV B 11343 60 20 0.5 234.0 11343 60 21 ENDDATA 3 0 11343 60 22 ENDSUBENT 21 0 11343 6099999 SUBENT 11343061 20190329 144911343 61 1 BIB 6 13 11343 61 2 REACTION (73-TA-181(N,SCT)73-TA-181,,RI) 11343 61 3 DETECTOR (PROPC) 4pi-annular proportional neutron counter 11343 61 4 filled with enriched BF3 and surrounded by a paraffin 11343 61 5 reflector-moderator and shield. 11343 61 6 SAMPLE Ta. 11343 61 7 METHOD An evacuated hole through the center of the counter 11343 61 8 conducts a collimated beam of cadmium-filtered 11343 61 9 neutrons from the Argonne water reactor. These 11343 61 10 neutrons give rise to a counting rate only when a 11343 61 11 scattering foil(termed the detector) is placed in the 11343 61 12 of this tube transverse to the neutron beam. 11343 61 13 STATUS (TABLE) Table IV, page 14. 11343 61 14 HISTORY (20190329C) BP 11343 61 15 ENDBIB 13 0 11343 61 16 NOCOMMON 0 0 11343 61 17 DATA 2 1 11343 61 18 EN-MIN DATA 11343 61 19 EV B 11343 61 20 0.5 59.6 11343 61 21 ENDDATA 3 0 11343 61 22 ENDSUBENT 21 0 11343 6199999 SUBENT 11343062 20190329 144911343 62 1 BIB 6 13 11343 62 2 REACTION (74-W-186(N,SCT)74-W-186,,RI) 11343 62 3 DETECTOR (PROPC) 4pi-annular proportional neutron counter 11343 62 4 filled with enriched BF3 and surrounded by a paraffin 11343 62 5 reflector-moderator and shield. 11343 62 6 SAMPLE W186O3. 11343 62 7 METHOD An evacuated hole through the center of the counter 11343 62 8 conducts a collimated beam of cadmium-filtered 11343 62 9 neutrons from the Argonne water reactor. These 11343 62 10 neutrons give rise to a counting rate only when a 11343 62 11 scattering foil(termed the detector) is placed in the 11343 62 12 of this tube transverse to the neutron beam. 11343 62 13 STATUS (TABLE) Table IV, page 14. 11343 62 14 HISTORY (20190329C) BP 11343 62 15 ENDBIB 13 0 11343 62 16 NOCOMMON 0 0 11343 62 17 DATA 2 1 11343 62 18 EN-MIN DATA 11343 62 19 EV B 11343 62 20 0.5 1058.0 11343 62 21 ENDDATA 3 0 11343 62 22 ENDSUBENT 21 0 11343 6299999 SUBENT 11343063 20190329 144911343 63 1 BIB 6 13 11343 63 2 REACTION (75-RE-0(N,SCT)75-RE-0,,RI) 11343 63 3 DETECTOR (PROPC) 4pi-annular proportional neutron counter 11343 63 4 filled with enriched BF3 and surrounded by a paraffin 11343 63 5 reflector-moderator and shield. 11343 63 6 SAMPLE Re. 11343 63 7 METHOD An evacuated hole through the center of the counter 11343 63 8 conducts a collimated beam of cadmium-filtered 11343 63 9 neutrons from the Argonne water reactor. These 11343 63 10 neutrons give rise to a counting rate only when a 11343 63 11 scattering foil(termed the detector) is placed in the 11343 63 12 of this tube transverse to the neutron beam. 11343 63 13 STATUS (TABLE) Table IV, page 14. 11343 63 14 HISTORY (20190329C) BP 11343 63 15 ENDBIB 13 0 11343 63 16 NOCOMMON 0 0 11343 63 17 DATA 2 1 11343 63 18 EN-MIN DATA 11343 63 19 EV B 11343 63 20 0.5 58.8 11343 63 21 ENDDATA 3 0 11343 63 22 ENDSUBENT 21 0 11343 6399999 SUBENT 11343064 20190329 144911343 64 1 BIB 6 13 11343 64 2 REACTION (79-AU-197(N,SCT)79-AU-197,,RI) 11343 64 3 DETECTOR (PROPC) 4pi-annular proportional neutron counter 11343 64 4 filled with enriched BF3 and surrounded by a paraffin 11343 64 5 reflector-moderator and shield. 11343 64 6 SAMPLE Au. 11343 64 7 METHOD An evacuated hole through the center of the counter 11343 64 8 conducts a collimated beam of cadmium-filtered 11343 64 9 neutrons from the Argonne water reactor. These 11343 64 10 neutrons give rise to a counting rate only when a 11343 64 11 scattering foil(termed the detector) is placed in the 11343 64 12 of this tube transverse to the neutron beam. 11343 64 13 STATUS (TABLE) Table IV, page 14. 11343 64 14 HISTORY (20190329C) BP 11343 64 15 ENDBIB 13 0 11343 64 16 NOCOMMON 0 0 11343 64 17 DATA 2 1 11343 64 18 EN-MIN DATA 11343 64 19 EV B 11343 64 20 0.5 158.0 11343 64 21 ENDDATA 3 0 11343 64 22 ENDSUBENT 21 0 11343 6499999 SUBENT 11343065 20190329 144911343 65 1 BIB 6 13 11343 65 2 REACTION (81-TL-0(N,SCT)81-TL-0,,RI) 11343 65 3 DETECTOR (PROPC) 4pi-annular proportional neutron counter 11343 65 4 filled with enriched BF3 and surrounded by a paraffin 11343 65 5 reflector-moderator and shield. 11343 65 6 SAMPLE Tl. 11343 65 7 METHOD An evacuated hole through the center of the counter 11343 65 8 conducts a collimated beam of cadmium-filtered 11343 65 9 neutrons from the Argonne water reactor. These 11343 65 10 neutrons give rise to a counting rate only when a 11343 65 11 scattering foil(termed the detector) is placed in the 11343 65 12 of this tube transverse to the neutron beam. 11343 65 13 STATUS (TABLE) Table IV, page 14. 11343 65 14 HISTORY (20190329C) BP 11343 65 15 ENDBIB 13 0 11343 65 16 NOCOMMON 0 0 11343 65 17 DATA 2 1 11343 65 18 EN-MIN DATA 11343 65 19 EV B 11343 65 20 0.5 25.2 11343 65 21 ENDDATA 3 0 11343 65 22 ENDSUBENT 21 0 11343 6599999 ENDENTRY 65 0 1134399999999