ENTRY B0020 20211221 B032B002000000001 SUBENT B0020001 20211221 B032B002000100001 BIB 8 26 B002000100002 TITLE Nuclear reactions of nickel with protons up to 56 MeV B002000100003 AUTHOR (S.Tanaka, M.Furukawa, M.Chiba) B002000100004 INSTITUTE (2JPNTOK) B002000100005 REFERENCE (J,JIN,34,2419,1972) B002000100006 FACILITY (ISOCY,2JPNTOK) B002000100007 METHOD (CHSEP,STTA,EXTB,EDEG,BCINT). Incident projectile B002000100008 energy 56.7+-0.3, 14.8+-0.2, 10.9+-0.2 and 7.8+-0.1 B002000100009 MeV, respectively. For the calculation of the energy B002000100010 degradation the data of Bichsel et al.,Phys.Rev.105, B002000100011 1788(1957) were used. B002000100012 (ACTIV) B002000100013 ERR-ANALYS The overall uncertainty in the cross sections is B002000100014 estimated to be 15-20% including estimated B002000100015 systematic errors, decay scheme uncertainties and B002000100016 reproducibility of results. The uncertainty in energy B002000100017 was estimated to be less than 1 MeV at 20 MeV in the B002000100018 56 MeV bombardments and less than 0.5 MeV at 5 MeV in B002000100019 the 15 MeV bombardments. B002000100020 HISTORY (19750214C) MZLA B002000100021 (19971209A) Lower case. Method is corrected. B002000100022 (20011010U) Last checking has been done. B002000100023 (20190119A) So. NDS, lower case. B002000100024 Corrected SF3=X for 002, 011 and 014. B002000100025 Added SF5=CUM for 002-006, 011 and 014. B002000100026 Deleted SF9=EXP from all subentries. B002000100027 (20211218A) VS reaction corrected in 017. B002000100028 ENDBIB 26 0 B002000100029 NOCOMMON 0 0 B002000100030 ENDSUBENT 29 0 B002000199999 SUBENT B0020002 20190119 B029B002000200001 BIB 6 14 B002000200002 REACTION (28-NI-58(P,X)28-NI-57,CUM,SIG) B002000200003 DECAY-DATA (28-NI-57,37.HR,B+,850./720./350.,0.47) B002000200004 The abundance of the gamma radiation represents the B002000200005 sum of the 122 and 137 keV peaks which could not Be B002000200006 resolved by the Na-I scintillation counter. B002000200007 DETECTOR (GEMUC,NAICR) B002000200008 (COIN,NAICR,NAICR) B002000200009 SAMPLE Ni-58-oxide, enrichment 99.8 atom % Ni-58 or B002000200010 foils of natural Ni, purity 99.73 %, thickness B002000200011 about 8.8 mg/cm**2. B002000200012 The contribution from reactions with Ni-60 was B002000200013 subtracted if necessary. B002000200014 STATUS (CURVE) Fig.1 of J.Inorg.Nucl.Chem.34(1972)2419 B002000200015 HISTORY (20190119A) corrected SF3=X, added SF5=CUM B002000200016 ENDBIB 14 0 B002000200017 NOCOMMON 0 0 B002000200018 DATA 2 23 B002000200019 EN DATA B002000200020 MEV MB B002000200021 13.3 0.19 B002000200022 13.8 0.39 B002000200023 14.1 2.26 B002000200024 14.4 3.47 B002000200025 15.7 14.6 B002000200026 16.4 52.7 B002000200027 20.6 163. B002000200028 21.2 182. B002000200029 24.9 253. B002000200030 26.6 256. B002000200031 29.9 212. B002000200032 30. 184. B002000200033 32.7 186. B002000200034 35.8 144. B002000200035 38.1 143. B002000200036 40.7 126. B002000200037 41.2 119. B002000200038 44.2 122. B002000200039 47.6 116. B002000200040 50. 119. B002000200041 53. 108. B002000200042 55.5 116. B002000200043 56.5 113. B002000200044 ENDDATA 25 0 B002000200045 ENDSUBENT 44 0 B002000299999 SUBENT B0020003 20190119 B029B002000300001 BIB 7 13 B002000300002 REACTION (28-NI-58(P,X)28-NI-56,CUM,SIG) B002000300003 RAD-DET (27-CO-56,B+,AR,DG) B002000300004 DECAY-DATA (28-NI-56,6.0D) B002000300005 (27-CO-56,77.D,B+,1500./1000./440.,0.18,DG,845.,1.) B002000300006 DETECTOR (GEMUC,NAICR) B002000300007 (COIN,NAICR,NAICR) B002000300008 SAMPLE Ni-58-oxide, enrichment 99.8 atom % Ni-58 or B002000300009 foils of natural Ni, purity 99.73 %, thickness B002000300010 about 8.8 mg/cm**2. B002000300011 The contribution from reactions with Ni-60 was B002000300012 subtracted if necessary. B002000300013 STATUS (CURVE) Fig.1 of J.Inorg.Nucl.Chem.34(1972)2419 B002000300014 HISTORY (20190119A) added SF5=CUM B002000300015 ENDBIB 13 0 B002000300016 NOCOMMON 0 0 B002000300017 DATA 2 14 B002000300018 EN DATA B002000300019 MEV MB B002000300020 27.3 1.8 B002000300021 30.2 4.3 B002000300022 30.5 7. B002000300023 32.8 11.2 B002000300024 36. 14.9 B002000300025 38.5 17.4 B002000300026 40.9 20.6 B002000300027 41.5 19.5 B002000300028 44.6 18.6 B002000300029 47.4 18. B002000300030 50.1 16.5 B002000300031 53.1 15.8 B002000300032 55.3 17.3 B002000300033 56.7 14.8 B002000300034 ENDDATA 16 0 B002000300035 ENDSUBENT 34 0 B002000399999 SUBENT B0020004 20190119 B029B002000400001 BIB 6 14 B002000400002 REACTION (28-NI-58(P,X)27-CO-55,CUM,SIG) B002000400003 Main reaction is (P,A), but the reaction may also B002000400004 proceed via (P,2N+2P) for energies higher than the B002000400005 threshold of 30.2 MeV. B002000400006 DECAY-DATA (27-CO-55,18.HR,B+,1510./1040./790.,0.79) B002000400007 DETECTOR (GEMUC) B002000400008 (COIN,NAICR,NAICR) B002000400009 SAMPLE Ni-58-oxide, enrichment 99.8 atom % Ni-58 or B002000400010 foils of natural Ni, purity 99.73 %, thickness B002000400011 about 8.8 mg/cm**2. B002000400012 The contribution from reactions with Ni-60 was B002000400013 subtracted if necessary. B002000400014 STATUS (CURVE) Fig.2 of J.Inorg.Nucl.Chem.34(1972)2419 B002000400015 HISTORY (20190119A) added SF5=CUM B002000400016 ENDBIB 14 0 B002000400017 NOCOMMON 0 0 B002000400018 DATA 2 27 B002000400019 EN DATA B002000400020 MEV MB B002000400021 9. 2.2 B002000400022 9.7 6.9 B002000400023 10.5 12.5 B002000400024 10.6 8.8 B002000400025 11. 15.3 B002000400026 11.8 18.9 B002000400027 12.7 24.1 B002000400028 13.3 32.1 B002000400029 13.7 28.4 B002000400030 14.6 36.3 B002000400031 15.6 35.5 B002000400032 16.4 41.5 B002000400033 20.5 27.5 B002000400034 21.3 27.5 B002000400035 25.1 8.9 B002000400036 26.7 8. B002000400037 30.1 7. B002000400038 35.7 7.3 B002000400039 38.1 7.8 B002000400040 40.8 10.7 B002000400041 41.4 16.3 B002000400042 44.3 26.3 B002000400043 47.1 43.4 B002000400044 50.1 54.1 B002000400045 52.5 67.6 B002000400046 55. 55.3 B002000400047 56.5 66.8 B002000400048 ENDDATA 29 0 B002000400049 ENDSUBENT 48 0 B002000499999 SUBENT B0020005 20190119 B029B002000500001 BIB 6 7 B002000500002 REACTION (28-NI-58(P,X)26-FE-53-G,CUM/(M),SIG) B002000500003 DECAY-DATA (26-FE-53-G,8.9MIN,B+,2860./2380./1570.,0.98) B002000500004 DETECTOR (GEMUC) B002000500005 (COIN,NAICR,NAICR) B002000500006 SAMPLE Ni-58-oxide, enrichment 99.8 atom % Ni-58. B002000500007 STATUS (CURVE) Fig.3 of J.Inorg.Nucl.Chem.34(1972)2419 B002000500008 HISTORY (20190119A) added SF5=CUM B002000500009 ENDBIB 7 0 B002000500010 NOCOMMON 0 0 B002000500011 DATA 2 8 B002000500012 EN DATA B002000500013 MEV MB B002000500014 32.7 7.8 B002000500015 38.2 16.6 B002000500016 39.6 26.1 B002000500017 44.5 37.2 B002000500018 45.9 38.5 B002000500019 50.1 35.2 B002000500020 52.5 35.2 B002000500021 56.3 30.5 B002000500022 ENDDATA 10 0 B002000500023 ENDSUBENT 22 0 B002000599999 SUBENT B0020006 20190119 B029B002000600001 BIB 6 6 B002000600002 REACTION (28-NI-58(P,X)26-FE-52-G,CUM,SIG) B002000600003 DECAY-DATA (26-FE-52-G,8.2HR,DG,165.,1.0) B002000600004 DETECTOR (NAICR) B002000600005 SAMPLE Ni-58-oxide, enrichment 99.8 atom % Ni-58. B002000600006 STATUS (CURVE) Fig.3 of J.Inorg.Nucl.Chem.34(1972)2419 B002000600007 HISTORY (20190119A) added SF5=CUM B002000600008 ENDBIB 6 0 B002000600009 NOCOMMON 0 0 B002000600010 DATA 2 6 B002000600011 EN DATA B002000600012 MEV MB B002000600013 41.7 0.02 B002000600014 44.5 0.06 B002000600015 47.3 0.22 B002000600016 50.1 0.53 B002000600017 52.8 1.16 B002000600018 56.2 1.72 B002000600019 ENDDATA 8 0 B002000600020 ENDSUBENT 19 0 B002000699999 SUBENT B0020007 20190119 B029B002000700001 BIB 5 12 B002000700002 REACTION (28-NI-58(P,2P)27-CO-57,,SIG) B002000700003 DECAY-DATA (27-CO-57,270.D,DG,122./137.,1.0) B002000700004 The abundance of the gamma radiation represents the B002000700005 sum of the 122 and 137 keV peaks which could not Be B002000700006 resolved by the NaI scintillation counter. B002000700007 DETECTOR (NAICR).Well-detector B002000700008 SAMPLE Ni-58-oxide, enrichment 99.8 atom % Ni-58 or B002000700009 foils of natural Ni, purity 99.73 %, thickness B002000700010 about 8.8 Mg/cm**2 B002000700011 the contribution from reactions with Ni-60 was B002000700012 subtracted if necessary. B002000700013 STATUS (CURVE) Fig.2 of J.Inorg.Nucl.Chem.34(1972)2419 B002000700014 ENDBIB 12 0 B002000700015 NOCOMMON 0 0 B002000700016 DATA 2 22 B002000700017 EN DATA B002000700018 MEV MB B002000700019 13.4 14.3 B002000700020 13.6 20.4 B002000700021 14.3 61.2 B002000700022 14.6 85.3 B002000700023 15.6 162. B002000700024 16.5 334. B002000700025 20.5 539. B002000700026 21.4 539. B002000700027 25.2 477. B002000700028 26.7 477. B002000700029 30.1 320. B002000700030 30.3 299. B002000700031 35.6 180. B002000700032 38.4 161. B002000700033 40.6 168. B002000700034 41.4 135. B002000700035 44.2 118. B002000700036 47.4 111. B002000700037 50.4 96. B002000700038 52.9 101. B002000700039 54.7 109. B002000700040 56.5 104. B002000700041 ENDDATA 24 0 B002000700042 ENDSUBENT 41 0 B002000799999 SUBENT B0020008 20190119 B029B002000800001 BIB 5 10 B002000800002 REACTION (28-NI-58(P,X)27-CO-56,,SIG) B002000800003 DECAY-DATA (27-CO-56,77.D,B+,1500./1000./440.,0.18,DG,845.,1.0) B002000800004 DETECTOR (GEMUC,NAICR) B002000800005 (COIN,NAICR,NAICR) B002000800006 SAMPLE Ni-58-oxide, enrichment 99.8 atom % Ni-58 or B002000800007 foils of natural Ni, purity 99.73 %, thickness B002000800008 about 8.8 Mg/cm**2 B002000800009 the contribution from reactions with Ni-60 were B002000800010 subtracted if necessary. B002000800011 STATUS (CURVE) Fig.2 of J.Inorg.Nucl.Chem.34(1972)2419 B002000800012 ENDBIB 10 0 B002000800013 NOCOMMON 0 0 B002000800014 DATA 2 13 B002000800015 EN DATA B002000800016 MEV MB B002000800017 27. 9.9 B002000800018 30.4 78.1 B002000800019 30.4 130. B002000800020 35.7 313. B002000800021 38.1 338. B002000800022 40.6 365. B002000800023 41.2 320. B002000800024 44. 296. B002000800025 47. 250. B002000800026 50.1 224. B002000800027 52.6 196. B002000800028 54.8 192. B002000800029 56.2 188. B002000800030 ENDDATA 15 0 B002000800031 ENDSUBENT 30 0 B002000899999 SUBENT B0020009 20190119 B029B002000900001 BIB 5 6 B002000900002 REACTION (28-NI-58(P,X)25-MN-52-G,CUM,SIG) B002000900003 DECAY-DATA (25-MN-52-G,5.7D,B+,580.,0.33) B002000900004 DETECTOR (GEMUC) B002000900005 (COIN,NAICR,NAICR) B002000900006 SAMPLE Ni-58-oxide, enrichment 99.8 atom % Ni-58. B002000900007 STATUS (CURVE) Fig.3 of J.Inorg.Nucl.Chem.34(1972)2419 B002000900008 ENDBIB 6 0 B002000900009 NOCOMMON 0 0 B002000900010 DATA 2 8 B002000900011 EN DATA B002000900012 MEV MB B002000900013 38.8 0.4 B002000900014 41.9 0.9 B002000900015 44.5 3.1 B002000900016 47.3 9.5 B002000900017 50.1 15. B002000900018 52.9 27.3 B002000900019 54.7 24.4 B002000900020 56.2 33. B002000900021 ENDDATA 10 0 B002000900022 ENDSUBENT 21 0 B002000999999 SUBENT B0020010 20190119 B029B002001000001 BIB 5 6 B002001000002 REACTION (28-NI-60(P,X)27-CO-58-G,(M),SIG) B002001000003 DECAY-DATA (27-CO-58-G,71.D,B+,490.,0.15,DG,810.,1.0) B002001000004 DETECTOR (GEMUC,NAICR) B002001000005 (COIN,NAICR,NAICR) B002001000006 SAMPLE Ni-60-oxide, enrichment 99.1 atom % Ni-60. B002001000007 STATUS (CURVE) Fig.4 of J.Inorg.Nucl.Chem.34(1972)2419 B002001000008 ENDBIB 6 0 B002001000009 NOCOMMON 0 0 B002001000010 DATA 2 16 B002001000011 EN DATA B002001000012 MEV MB B002001000013 27. 7.1 B002001000014 30.1 75.2 B002001000015 30.7 105. B002001000016 34.5 165. B002001000017 35.4 160. B002001000018 38.7 156. B002001000019 40.7 169. B002001000020 41.3 176. B002001000021 44.2 160. B002001000022 46.5 169. B002001000023 46.8 138. B002001000024 50.1 122. B002001000025 51. 128. B002001000026 52.8 113. B002001000027 54.8 94. B002001000028 56.5 94. B002001000029 ENDDATA 18 0 B002001000030 ENDSUBENT 29 0 B002001099999 SUBENT B0020011 20190119 B029B002001100001 BIB 6 9 B002001100002 REACTION (28-NI-60(P,X)27-CO-57,(CUM),SIG) B002001100003 DECAY-DATA (27-CO-57,270.D,DG,122./137.,1.0) B002001100004 the abundance of the gamma radiation represents the B002001100005 sum of the 122 and 137 keV peaks which could not Be B002001100006 resolved by the Na-I scintillation counter. B002001100007 DETECTOR (NAICR).Well-detector B002001100008 SAMPLE Ni-60-oxide, enrichment 99.1 atom % Ni-60. B002001100009 STATUS (CURVE) Fig.4 and 6 of J.Inorg.Nucl.Chem.34(1972)2419 B002001100010 HISTORY (20190119A) corrected SF3=X, added SF5=CUM B002001100011 ENDBIB 9 0 B002001100012 NOCOMMON 0 0 B002001100013 DATA 2 15 B002001100014 EN DATA B002001100015 MEV MB B002001100016 6.8 1. B002001100017 7. 1.1 B002001100018 8.1 6.9 B002001100019 8.2 6.6 B002001100020 8.4 10.2 B002001100021 9. 14.7 B002001100022 9.2 19.8 B002001100023 9.9 29.1 B002001100024 10.6 39.3 B002001100025 27. 7.8 B002001100026 30.1 4.9 B002001100027 34.5 3.4 B002001100028 40.9 50.5 B002001100029 50.8 191. B002001100030 55. 165. B002001100031 ENDDATA 17 0 B002001100032 ENDSUBENT 31 0 B002001199999 SUBENT B0020012 20190119 B029B002001200001 BIB 5 9 B002001200002 REACTION (28-NI-60(P,X)28-NI-57,CUM,SIG) B002001200003 DECAY-DATA (28-NI-57,37.HR,B+,850./720./350.,0.47) B002001200004 the abundance of the gamma radiation represents the B002001200005 sum of the 122 and 137 keV peaks which could not Be B002001200006 resolved by the Na-I scintillation counter. B002001200007 DETECTOR (GEMUC,NAICR).Well-detector B002001200008 (COIN,NAICR,NAICR) B002001200009 SAMPLE Ni-60-oxide, enrichment 99.1 atom % Ni-60. B002001200010 STATUS (CURVE) Fig.4 of J.Inorg.Nucl.Chem.34(1972)2419 B002001200011 ENDBIB 9 0 B002001200012 NOCOMMON 0 0 B002001200013 DATA 2 4 B002001200014 EN DATA B002001200015 MEV MB B002001200016 41.2 2.2 B002001200017 46.8 8.6 B002001200018 50.7 14.5 B002001200019 55. 17.3 B002001200020 ENDDATA 6 0 B002001200021 ENDSUBENT 20 0 B002001299999 SUBENT B0020013 20190119 B029B002001300001 BIB 5 6 B002001300002 REACTION (28-NI-60(P,X)27-CO-56,CUM,SIG) B002001300003 DECAY-DATA (27-CO-56,77.D,B+,1500./1000./440.,0.18,DG,845.,1.0) B002001300004 DETECTOR (GEMUC,NAICR) B002001300005 (COIN,NAICR,NAICR) B002001300006 SAMPLE Ni-60-oxide, enrichment 99.1 atom % Ni-60. B002001300007 STATUS (CURVE) Fig.5 of J.Inorg.Nucl.Chem.34(1972)2419 B002001300008 ENDBIB 6 0 B002001300009 NOCOMMON 0 0 B002001300010 DATA 2 7 B002001300011 EN DATA B002001300012 MEV MB B002001300013 27. 68.4 B002001300014 30.2 70. B002001300015 34.8 45.9 B002001300016 41.1 16.7 B002001300017 46.8 11.3 B002001300018 50.5 12.4 B002001300019 54.9 12.8 B002001300020 ENDDATA 9 0 B002001300021 ENDSUBENT 20 0 B002001399999 SUBENT B0020014 20190119 B029B002001400001 BIB 6 7 B002001400002 REACTION (28-NI-60(P,X)27-CO-55,CUM,SIG) B002001400003 DECAY-DATA (27-CO-55,18.HR,B+,1510./1040./790.,0.79) B002001400004 DETECTOR (GEMUC) B002001400005 (COIN,NAICR,NAICR) B002001400006 SAMPLE Ni-60-oxide, enrichment 99.1 atom % Ni-60. B002001400007 STATUS (CURVE) Fig.5 of J.Inorg.Nucl.Chem.34(1972)2419 B002001400008 HISTORY (20190119A) corrected SF3=X, added SF5=CUM B002001400009 ENDBIB 7 0 B002001400010 NOCOMMON 0 0 B002001400011 DATA 2 5 B002001400012 EN DATA B002001400013 MEV MB B002001400014 34.8 2.8 B002001400015 40.9 10.8 B002001400016 47. 12.2 B002001400017 50.9 8.4 B002001400018 54.9 5.7 B002001400019 ENDDATA 7 0 B002001400020 ENDSUBENT 19 0 B002001499999 SUBENT B0020015 20190119 B029B002001500001 BIB 5 5 B002001500002 REACTION (28-NI-60(P,X)25-MN-54,,SIG) B002001500003 DECAY-DATA (25-MN-54,290.D,DG,842.,1.) B002001500004 DETECTOR (NAICR) B002001500005 SAMPLE Ni-60-oxide, enrichment 99.1 atom % Ni-60. B002001500006 STATUS (CURVE) Fig.5 of J.Inorg.Nucl.Chem.34(1972)2419 B002001500007 ENDBIB 5 0 B002001500008 NOCOMMON 0 0 B002001500009 DATA 2 7 B002001500010 EN DATA B002001500011 MEV MB B002001500012 41.8 0.9 B002001500013 44.5 2.9 B002001500014 47.2 6.8 B002001500015 50.6 12.9 B002001500016 53. 21.6 B002001500017 55.2 31.4 B002001500018 56.1 29.7 B002001500019 ENDDATA 9 0 B002001500020 ENDSUBENT 19 0 B002001599999 SUBENT B0020016 20190119 B029B002001600001 BIB 5 6 B002001600002 REACTION (28-NI-60(P,N)29-CU-60,,SIG) B002001600003 DECAY-DATA (29-CU-60,24.MIN,B+,2000./3000./3920.,0.93) B002001600004 DETECTOR (GEMUC) B002001600005 (COIN,NAICR,NAICR) B002001600006 SAMPLE Ni-60-oxide, enrichment 99.1 atom % Ni-60. B002001600007 STATUS (CURVE) Fig.6 of J.Inorg.Nucl.Chem.34(1972)2419 B002001600008 ENDBIB 6 0 B002001600009 NOCOMMON 0 0 B002001600010 DATA 2 23 B002001600011 EN DATA B002001600012 MEV MB B002001600013 6.7 20.7 B002001600014 7.8 66.9 B002001600015 7.9 78.8 B002001600016 7.9 106. B002001600017 7.9 146. B002001600018 8.6 174. B002001600019 8.9 205. B002001600020 9. 184. B002001600021 9.1 222. B002001600022 9.8 222. B002001600023 9.9 248. B002001600024 10.3 245. B002001600025 10.3 262. B002001600026 11. 277. B002001600027 11.5 269. B002001600028 11.6 288. B002001600029 12. 305. B002001600030 12.7 305. B002001600031 13.1 317. B002001600032 13.9 313. B002001600033 14. 284. B002001600034 14.6 266. B002001600035 14.7 245. B002001600036 ENDDATA 25 0 B002001600037 ENDSUBENT 36 0 B002001699999 SUBENT B0020017 20211221 B032B002001700001 BIB 6 8 B002001700002 REACTION (28-NI-61(P,A)27-CO-58,,SIG) B002001700003 DECAY-DATA (27-CO-58-G,71.D,B+,490.,0.15,DG,810.,1.) B002001700004 DETECTOR (GEMUC,NAICR) B002001700005 (COIN,NAICR,NAICR) B002001700006 SAMPLE Foils of natural Ni, purity 99.73 %, thickness B002001700007 about 8.8 mg/cm**2 B002001700008 STATUS (CURVE) Fig.6 of J.Inorg.Nucl.Chem.34(1972)2419 B002001700009 HISTORY (20211218A) VS SF5: (M) deleted. B002001700010 ENDBIB 8 0 B002001700011 NOCOMMON 0 0 B002001700012 DATA 2 12 B002001700013 EN DATA B002001700014 MEV MB B002001700015 7. 9.8 B002001700016 7.9 15. B002001700017 8. 16.7 B002001700018 8.9 27.7 B002001700019 9.2 27.7 B002001700020 9.7 31.3 B002001700021 10.4 50.3 B002001700022 11.8 60.9 B002001700023 12.8 56.9 B002001700024 13.4 68.8 B002001700025 13.9 68.8 B002001700026 14.5 77. B002001700027 ENDDATA 14 0 B002001700028 ENDSUBENT 27 0 B002001799999 SUBENT B0020018 20190119 B029B002001800001 BIB 5 7 B002001800002 REACTION (28-NI-61(P,N)29-CU-61,,SIG) B002001800003 DECAY-DATA (29-CU-61,3.3HR,B+,1210./940./560.,0.66) B002001800004 DETECTOR (GEMUC) B002001800005 (COIN,NAICR,NAICR) B002001800006 SAMPLE Foils of natural Ni, purity 99.73 %, thickness B002001800007 about 8.8 mg/cm**2 B002001800008 STATUS (CURVE) Fig.6 of J.Inorg.Nucl.Chem.34(1972)2419 B002001800009 ENDBIB 7 0 B002001800010 NOCOMMON 0 0 B002001800011 DATA 2 17 B002001800012 EN DATA B002001800013 MEV MB B002001800014 2.7 2.9 B002001800015 3.4 2.7 B002001800016 3.6 28.8 B002001800017 4.6 99.4 B002001800018 5. 92.9 B002001800019 5.8 219. B002001800020 6.6 287. B002001800021 6.9 308. B002001800022 7.9 372. B002001800023 7.9 383. B002001800024 8.9 476. B002001800025 9.3 476. B002001800026 9.7 476. B002001800027 10.6 457. B002001800028 11.7 404. B002001800029 12.9 338. B002001800030 13.9 287. B002001800031 ENDDATA 19 0 B002001800032 ENDSUBENT 31 0 B002001899999 SUBENT B0020019 20190119 B029B002001900001 BIB 5 7 B002001900002 REACTION (28-NI-62(P,N)29-CU-62,,SIG) B002001900003 DECAY-DATA (29-CU-62,10.0MIN,B+,2910.,0.98) B002001900004 DETECTOR (GEMUC) B002001900005 (COIN,NAICR,NAICR) B002001900006 SAMPLE Foils of natural Ni, purity 99.73 %, thickness B002001900007 about 8.8 mg/cm**2 B002001900008 STATUS (CURVE) Fig.7 of J.Inorg.Nucl.Chem.34(1972)2419 B002001900009 ENDBIB 7 0 B002001900010 NOCOMMON 0 0 B002001900011 DATA 2 30 B002001900012 EN DATA B002001900013 MEV MB B002001900014 4.9 14.5 B002001900015 5. 124. B002001900016 5.6 177. B002001900017 5.8 239. B002001900018 6.5 289. B002001900019 6.7 341. B002001900020 7.8 397. B002001900021 8. 355. B002001900022 8.6 425. B002001900023 8.7 408. B002001900024 9.2 449. B002001900025 9.3 408. B002001900026 9.9 425. B002001900027 10. 449. B002001900028 10. 494. B002001900029 10.4 436. B002001900030 10.4 461. B002001900031 10.4 508. B002001900032 11.1 431. B002001900033 11.7 397. B002001900034 11.7 559. B002001900035 12.1 480. B002001900036 12.7 515. B002001900037 12.8 391. B002001900038 13. 467. B002001900039 14. 346. B002001900040 14. 370. B002001900041 14.2 443. B002001900042 14.8 306. B002001900043 14.8 386. B002001900044 ENDDATA 32 0 B002001900045 ENDSUBENT 44 0 B002001999999 SUBENT B0020020 20190119 B029B002002000001 BIB 5 7 B002002000002 REACTION (28-NI-64(P,N)29-CU-64,,SIG) Shielded. B002002000003 DECAY-DATA (29-CU-64,12.9HR,B+,660.,0.19,B-,570.,0.38) B002002000004 DETECTOR (GEMUC) B002002000005 (COIN,NAICR,NAICR) B002002000006 SAMPLE Foils of natural Ni, purity 99.73 %, thickness B002002000007 about 8.8 mg/cm**2 B002002000008 STATUS (CURVE) Fig.7 of J.Inorg.Nucl.Chem.34(1972)2419 B002002000009 ENDBIB 7 0 B002002000010 NOCOMMON 0 0 B002002000011 DATA 2 18 B002002000012 EN DATA B002002000013 MEV MB B002002000014 3.5 7.4 B002002000015 3.8 40.5 B002002000016 4.6 120. B002002000017 5. 111. B002002000018 5.9 266. B002002000019 6.7 336. B002002000020 6.8 397. B002002000021 7.9 529. B002002000022 8.1 494. B002002000023 8.9 591. B002002000024 9.2 575. B002002000025 9.8 633. B002002000026 10.4 642. B002002000027 11.8 660. B002002000028 13.1 481. B002002000029 13.5 397. B002002000030 14. 332. B002002000031 14.8 235. B002002000032 ENDDATA 20 0 B002002000033 ENDSUBENT 32 0 B002002099999 SUBENT B0020021 20190119 B029B002002100001 BIB 6 9 B002002100002 REACTION (28-NI-0(P,X)27-CO-60-G,M+,SIG) B002002100003 DECAY-DATA (27-CO-60-G,5.26YR,DG,1170.,1.,DG,1330.,1.) B002002100004 COMMENT - by authors - the activity of Co-60 was determined B002002100005 after the interfering activities had completely decayedB002002100006 - 10 years after bombardment. B002002100007 DETECTOR (NAICR).Well-detector B002002100008 SAMPLE Foils of natural Ni, purity 99.73 %, thickness B002002100009 about 8.8 mg/cm**2 B002002100010 STATUS (CURVE) Fig.8 of J.Inorg.Nucl.Chem.34(1972)2419 B002002100011 ENDBIB 9 0 B002002100012 NOCOMMON 0 0 B002002100013 DATA 2 15 B002002100014 EN DATA B002002100015 MEV MB B002002100016 16.2 0.12 B002002100017 16.8 0.17 B002002100018 20.8 0.55 B002002100019 21.3 0.55 B002002100020 25.3 0.74 B002002100021 27.2 0.92 B002002100022 30.7 1.26 B002002100023 36.2 1.38 B002002100024 38.4 1.51 B002002100025 41.5 1.73 B002002100026 44.6 1.87 B002002100027 47.6 1.79 B002002100028 50.3 1.62 B002002100029 53. 1.49 B002002100030 56.6 1.34 B002002100031 ENDDATA 17 0 B002002100032 ENDSUBENT 31 0 B002002199999 ENDENTRY 21 0 B002099999999