ENTRY B0052 20011220 20020122 B005200000001 SUBENT B0052001 20011220 20020122 B005200100001 BIB 12 26 B005200100002 TITLE Survey of (P,N) Reactions at 12 MeV B005200100003 AUTHOR (H.G.BLOSSER, T.H.HANDLEY) B005200100004 INSTITUTE (1USAORL) B005200100005 REFERENCE (J,PR,100,1340,1955) B005200100006 FACILITY (CYCLO,1USAORL).86 Inch Pole Face Diameter B005200100007 DETECTOR (GEMUC) B005200100008 MONITOR (29-CU-63(P,N)30-ZN-63,,SIG) B005200100009 MONIT-REF (B0017005,S.N.GHOSHAL,J,PR,80,939,1950) B005200100010 METHOD (INTB,EDEG) B005200100011 The Proton Energy was Degraded to 12 MeV by Passing B005200100012 The Beam Through an Appropriate Cu-Absorber B005200100013 CORRECTION Corrections For Absorption in the Air and in the B005200100014 Counter Windows, For Self-Scattering and Self- B005200100015 Absorption in the Samples were Made. B005200100016 ERR-ANALYS (DATA-ERR) The Quoted Errors are the Standard B005200100017 Deviations Resulting from 4 to 12 Irradiations Each, B005200100018 Enlarged by from 10 to 20% to Take Account of PossibleB005200100019 Additional Beta-Counting Errors. Excluded are B005200100020 Systematic Errors of Decay Scheme Data. B005200100021 HISTORY (19761216C)Lapf B005200100022 (19940630A) Some Corrections have Been Included by B005200100023 CAJAD B005200100024 (19971126A) Method and Reactions are Corrected. Lower B005200100025 Case. B005200100026 (20001029A) Correction According to O.Schwerer Remarks.B005200100027 (20011109U) Last checking has been done. B005200100028 ENDBIB 26 0 B005200100029 NOCOMMON 0 0 B005200100030 ENDSUBENT 29 0 B005200199999 SUBENT B0052002 20011220 20020122 B005200200001 BIB 5 9 B005200200002 REACTION (21-SC-45(P,N)22-TI-45,,SIG,,,EXP) B005200200003 RAD-DET (22-TI-45,B+) B005200200004 DECAY-DATA (22-TI-45,3.08HR,B+,,0.824) B005200200005 Because Information on the Decay Scheme was Very B005200200006 Meagre, the Authors Rely on a Theoretical DeterminationB005200200007 Of the Amount of K-Capture Following the Work of B005200200008 E.Feenberg Et Al., Rev. Modern Physics 22,339,1950. B005200200009 SAMPLE Finely Ground Mixture of Sc-Sulfate and Cu-Oxide B005200200010 METHOD (SITA,MOMIX) B005200200011 ENDBIB 9 0 B005200200012 NOCOMMON 0 0 B005200200013 DATA 3 1 B005200200014 EN DATA DATA-ERR B005200200015 MEV MB MB B005200200016 12. 350. 130. B005200200017 ENDDATA 3 0 B005200200018 ENDSUBENT 17 0 B005200299999 SUBENT B0052003 20011220 20020122 B005200300001 BIB 5 8 B005200300002 REACTION M(24-CR-52(P,N)25-MN-52-M,,SIG,,,EXP) B005200300003 G(24-CR-52(P,N)25-MN-52-G,M-,SIG,,,EXP) B005200300004 RAD-DET M(25-MN-52-M,B+) B005200300005 G(25-MN-52-G,B+) B005200300006 DECAY-DATAM(25-MN-52-M,21.MIN,B+,,0.99) B005200300007 G(25-MN-52-G,5.6D,B+,,0.35) B005200300008 SAMPLE Finely Ground Mixture of Cr-Fluoride and Cu-Oxide B005200300009 METHOD (SITA,MOMIX) B005200300010 ENDBIB 8 0 B005200300011 NOCOMMON 0 0 B005200300012 DATA 5 1 B005200300013 EN DATA MDATA-ERR MDATA GDATA-ERR G B005200300014 MEV MB MB MB MB B005200300015 12. 210. 40. 75. 15. B005200300016 ENDDATA 3 0 B005200300017 ENDSUBENT 16 0 B005200399999 SUBENT B0052004 20011220 20020122 B005200400001 BIB 6 12 B005200400002 REACTION (28-NI-60(P,N)29-CU-60,,SIG,,,EXP) B005200400003 RAD-DET (29-CU-60,B+) B005200400004 DECAY-DATA (29-CU-60,24.6MIN,B+,,1.0) B005200400005 Because Information on the Decay Scheme was Very B005200400006 Meagre, the Authors Rely on a Theoretical DeterminationB005200400007 Of the Amount of K-Capture Following the Work of B005200400008 E.Feenberg Et Al., Rev. Modern Physics 22,339,1950. B005200400009 COMMENT - By CAJAD - According to ENSDF-97 Beta+ Abundance is B005200400010 93%. B005200400011 SAMPLE Ni-Foil, Thickness About 20 Mg/Cm**2, Stacked Along B005200400012 With a Cu-Foil of 16 Mg/Cm**2 B005200400013 METHOD (STTA,MOSEP) B005200400014 ENDBIB 12 0 B005200400015 NOCOMMON 0 0 B005200400016 DATA 3 1 B005200400017 EN DATA DATA-ERR B005200400018 MEV MB MB B005200400019 12. 370. 65. B005200400020 ENDDATA 3 0 B005200400021 ENDSUBENT 20 0 B005200499999 SUBENT B0052005 20011220 20020122 B005200500001 BIB 5 6 B005200500002 REACTION (28-NI-61(P,N)29-CU-61,,SIG,,,EXP) B005200500003 RAD-DET (29-CU-61,B+) B005200500004 DECAY-DATA (29-CU-61,3.4HR,B+,,0.68) B005200500005 SAMPLE Ni-Foil, Thickness About 20 Mg/Cm**2, Stacked Along B005200500006 With a Cu-Foil of 16 Mg/Cm**2 B005200500007 METHOD (STTA,MOSEP) B005200500008 ENDBIB 6 0 B005200500009 NOCOMMON 0 0 B005200500010 DATA 3 1 B005200500011 EN DATA DATA-ERR B005200500012 MEV MB MB B005200500013 12. 590. 160. B005200500014 ENDDATA 3 0 B005200500015 ENDSUBENT 14 0 B005200599999 SUBENT B0052006 20011220 20020122 B005200600001 BIB 5 6 B005200600002 REACTION (28-NI-64(P,N)29-CU-64,,SIG,,,EXP) B005200600003 RAD-DET (29-CU-64,B) B005200600004 DECAY-DATA (29-CU-64,12.8HR,B,,0.58) B005200600005 SAMPLE Ni-Foil, Thickness About 20 Mg/Cm**2, Stacked Along B005200600006 With a Cu-Foil of 16 Mg/Cm**2 B005200600007 METHOD (STTA,MOSEP) B005200600008 ENDBIB 6 0 B005200600009 NOCOMMON 0 0 B005200600010 DATA 3 1 B005200600011 EN DATA DATA-ERR B005200600012 MEV MB MB B005200600013 12. 1210. 450. B005200600014 ENDDATA 3 0 B005200600015 ENDSUBENT 14 0 B005200699999 SUBENT B0052007 20011220 20020122 B005200700001 BIB 6 7 B005200700002 REACTION (30-ZN-66(P,N)31-GA-66,,SIG,,,EXP) B005200700003 RAD-DET (31-GA-66,B+) B005200700004 DECAY-DATA (31-GA-66,9.2HR,B+,,0.64) B005200700005 COMMENT - By CAJAD - According to ENSDF-97 B+ Abundance is 56%.B005200700006 SAMPLE Zn-Foil, Thickness About 20 Mg/Cm**2, Stacked Along B005200700007 With a Cu-Foil of 16 Mg/Cm**2 B005200700008 METHOD (STTA,MOSEP) B005200700009 ENDBIB 7 0 B005200700010 NOCOMMON 0 0 B005200700011 DATA 3 1 B005200700012 EN DATA DATA-ERR B005200700013 MEV MB MB B005200700014 12. 585. 60. B005200700015 ENDDATA 3 0 B005200700016 ENDSUBENT 15 0 B005200799999 SUBENT B0052008 20011220 20020122 B005200800001 BIB 5 6 B005200800002 REACTION (30-ZN-68(P,N)31-GA-68,,SIG,,,EXP) B005200800003 RAD-DET (31-GA-68,B+) B005200800004 DECAY-DATA (31-GA-68,68.MIN,B+,,0.85) B005200800005 SAMPLE Zn-Foil, Thickness About 20 Mg/Cm**2, Stacked Along B005200800006 With a Cu-Foil of 16 Mg/Cm**2 B005200800007 METHOD (STTA,MOSEP) B005200800008 ENDBIB 6 0 B005200800009 NOCOMMON 0 0 B005200800010 DATA 3 1 B005200800011 EN DATA DATA-ERR B005200800012 MEV MB MB B005200800013 12. 1100. 150. B005200800014 ENDDATA 3 0 B005200800015 ENDSUBENT 14 0 B005200899999 SUBENT B0052009 20011220 20020122 B005200900001 BIB 6 7 B005200900002 REACTION (31-GA-69(P,N)32-GE-69,,SIG,,,EXP) B005200900003 RAD-DET (32-GE-69,B+) B005200900004 DECAY-DATA (32-GE-69,39.6HR,B+,,0.33) B005200900005 COMMENT - By CAJAD - According to ENSDF-97 B+ Abundance is B005200900006 24 +-6%. B005200900007 SAMPLE Finely Ground Mixture of Ga-Fluoride and Cu-Oxide B005200900008 METHOD (SITA,MOMIX) B005200900009 ENDBIB 7 0 B005200900010 NOCOMMON 0 0 B005200900011 DATA 3 1 B005200900012 EN DATA DATA-ERR B005200900013 MEV MB MB B005200900014 12. 960. 350. B005200900015 ENDDATA 3 0 B005200900016 ENDSUBENT 15 0 B005200999999 SUBENT B0052010 20011220 20020122 B005201000001 BIB 5 5 B005201000002 REACTION (35-BR-79(P,N)36-KR-79-G,M+,SIG,,,EXP) B005201000003 RAD-DET (36-KR-79-G,B+,E) B005201000004 DECAY-DATA (36-KR-79-G,34.HR,B+/E,,0.070) B005201000005 SAMPLE Finely Ground Mixture of Na-Bromide and Cu-Oxide B005201000006 METHOD (SITA,MOMIX) B005201000007 ENDBIB 5 0 B005201000008 NOCOMMON 0 0 B005201000009 DATA 3 1 B005201000010 EN DATA DATA-ERR B005201000011 MEV MB MB B005201000012 12. 1050. 350. B005201000013 ENDDATA 3 0 B005201000014 ENDSUBENT 13 0 B005201099999 SUBENT B0052011 20011220 20020122 B005201100001 BIB 5 5 B005201100002 REACTION (37-RB-87(P,N)38-SR-87-M,,SIG,,,EXP) B005201100003 RAD-DET (38-SR-87-M,E) B005201100004 DECAY-DATA (38-SR-87-M,2.8HR,E,,0.22) B005201100005 SAMPLE Finely Ground Mixture of Rb-Chloride and Cu-Oxide B005201100006 METHOD (SITA,MOMIX) B005201100007 ENDBIB 5 0 B005201100008 NOCOMMON 0 0 B005201100009 DATA 3 1 B005201100010 EN DATA DATA-ERR B005201100011 MEV MB MB B005201100012 12. 220. 70. B005201100013 ENDDATA 3 0 B005201100014 ENDSUBENT 13 0 B005201199999 SUBENT B0052012 20011220 20020122 B005201200001 BIB 5 8 B005201200002 REACTION M(39-Y-89(P,N)40-ZR-89-M,,SIG,,,EXP) B005201200003 1(39-Y-89(P,N)40-ZR-89-G,M+,SIG,,,EXP) B005201200004 RAD-DET M(40-ZR-89-M,B+,E) B005201200005 1(40-ZR-89-G,B+,E).In Equilibrium with 39-Y-89-M B005201200006 DECAY-DATAM(40-ZR-89-M,4.4MIN,B+/E,,0.070) B005201200007 1(40-ZR-89-G,78.HR,B+/E,,0.24) B005201200008 SAMPLE Finely Ground Mixture of Y-Oxide and Cu-Oxide B005201200009 METHOD (SITA,MOMIX) B005201200010 ENDBIB 8 0 B005201200011 NOCOMMON 0 0 B005201200012 DATA 5 1 B005201200013 EN DATA MDATA-ERR MDATA 1DATA-ERR 1 B005201200014 MEV MB MB MB MB B005201200015 12. 170. 60. 750. 100. B005201200016 ENDDATA 3 0 B005201200017 ENDSUBENT 16 0 B005201299999 SUBENT B0052013 20011220 20020122 B005201300001 BIB 6 15 B005201300002 REACTION (40-ZR-90(P,N)41-NB-90-G,M+,SIG,,,EXP) B005201300003 COMMENT It is Assumed That the Production of Nb-90-M B005201300004 With a Half-Life of 18 Sec and 100% Isomeric TransitionB005201300005 Not Known at That Time is Included in the Cross SectionB005201300006 Quoted (COMMENT BY THE COMPILER OF KACHAPAG). B005201300007 - By CAJAD - According to ENSDF-97 B+ Abundance is B005201300008 51.2%. B005201300009 RAD-DET (41-NB-90-G,B+,E) B005201300010 DECAY-DATA (41-NB-90-G,15.HR,B+/E,,0.41) B005201300011 Because Information on the Decay Scheme was Very B005201300012 Meagre, the Authors Rely on a Theoretical DeterminationB005201300013 Of the Amount of K-Capture Following the Work of B005201300014 E.Feenberg Et Al., Rev. Modern Physics 22,339,1950. B005201300015 SAMPLE Finely Ground Mixture of Zr-Nitrate and Cu-Oxide B005201300016 METHOD (SITA,MOMIX) B005201300017 ENDBIB 15 0 B005201300018 NOCOMMON 0 0 B005201300019 DATA 3 1 B005201300020 EN DATA DATA-ERR B005201300021 MEV MB MB B005201300022 12. 1200. 250. B005201300023 ENDDATA 3 0 B005201300024 ENDSUBENT 23 0 B005201399999 SUBENT B0052014 20011220 20020122 B005201400001 BIB 6 11 B005201400002 REACTION (44-RU-99(P,N)45-RH-99-M,,SIG,,,EXP) B005201400003 RAD-DET (45-RH-99-M,B+) B005201400004 DECAY-DATA (45-RH-99-M,4.5HR,B+,,0.117) B005201400005 Because Information on the Decay Scheme was Very B005201400006 Meagre, the Authors Rely on a Theoretical DeterminationB005201400007 Of the Amount of K-Capture Following the Work of B005201400008 E.Feenberg Et Al., Rev. Modern Physics 22,339,1950. B005201400009 COMMENT - By CAJAD - According to ENSDF-97 B+ Abundance is B005201400010 7,4%. B005201400011 SAMPLE Finely Ground Mixture of Ruthenium Powder and Cu-Oxide B005201400012 METHOD (SITA,MOMIX) B005201400013 ENDBIB 11 0 B005201400014 NOCOMMON 0 0 B005201400015 DATA 3 1 B005201400016 EN DATA DATA-ERR B005201400017 MEV MB MB B005201400018 12. 420. 120. B005201400019 ENDDATA 3 0 B005201400020 ENDSUBENT 19 0 B005201499999 SUBENT B0052015 20011220 20020122 B005201500001 BIB 5 5 B005201500002 REACTION (44-RU-101(P,N)45-RH-101-M,,SIG,,,EXP) B005201500003 RAD-DET (45-RH-101-M,E) B005201500004 DECAY-DATA (45-RH-101-M,4.5D,E,,0.10) B005201500005 SAMPLE Finely Ground Mixture of Ruthenium Powder and Cu-Oxide B005201500006 METHOD (SITA,MOMIX) B005201500007 ENDBIB 5 0 B005201500008 NOCOMMON 0 0 B005201500009 DATA 3 1 B005201500010 EN DATA DATA-ERR B005201500011 MEV MB MB B005201500012 12. 365. 100. B005201500013 ENDDATA 3 0 B005201500014 ENDSUBENT 13 0 B005201599999 SUBENT B0052016 20011220 20020122 B005201600001 BIB 6 10 B005201600002 REACTION (48-CD-111(P,N)49-IN-111-G,M+,SIG,,,EXP) B005201600003 RAD-DET (49-IN-111-G,E) B005201600004 DECAY-DATA (49-IN-111-G,2.8D,E,,0.167) B005201600005 COMMENT It is Assumed That the Production of in-111-M with B005201600006 100% Isomeric Transition and a Half-Life of 7.6 Min notB005201600007 Known at That Time is Included in the Cross Section B005201600008 Quoted (COMMENT BY THE COMPILER OF KACHAPAG). B005201600009 SAMPLE Cd-Foil, Thickness About 20 Mg/Cm**2, Stacked Along B005201600010 With a Cu-Foil of 16 Mg/Cm**2 B005201600011 METHOD (STTA,MOSEP) B005201600012 ENDBIB 10 0 B005201600013 NOCOMMON 0 0 B005201600014 DATA 3 1 B005201600015 EN DATA DATA-ERR B005201600016 MEV MB MB B005201600017 12. 810. 120. B005201600018 ENDDATA 3 0 B005201600019 ENDSUBENT 18 0 B005201699999 SUBENT B0052017 20011220 20020122 B005201700001 BIB 5 6 B005201700002 REACTION (48-CD-114(P,N)49-IN-114-M,,SIG,,,EXP) Shielded. B005201700003 RAD-DET (49-IN-114-M,E) B005201700004 DECAY-DATA (49-IN-114-M,50.D,E,,0.97) B005201700005 SAMPLE Cd-Foil, Thickness About 20 Mg/Cm**2, Stacked Along B005201700006 With a Cu-Foil of 16 Mg/Cm**2 B005201700007 METHOD (STTA,MOSEP) B005201700008 ENDBIB 6 0 B005201700009 NOCOMMON 0 0 B005201700010 DATA 3 1 B005201700011 EN DATA DATA-ERR B005201700012 MEV MB MB B005201700013 12. 305. 50. B005201700014 ENDDATA 3 0 B005201700015 ENDSUBENT 14 0 B005201799999 SUBENT B0052018 20011220 20020122 B005201800001 BIB 5 5 B005201800002 REACTION (55-CS-133(P,N)56-BA-133-M,,SIG,,,EXP) B005201800003 RAD-DET (56-BA-133-M,E) B005201800004 DECAY-DATA (56-BA-133-M,38.8HR,E,,0.71) B005201800005 SAMPLE Finely Ground Mixture of Cs-Nitrate and Cu-Oxide B005201800006 METHOD (SITA,MOMIX) B005201800007 ENDBIB 5 0 B005201800008 NOCOMMON 0 0 B005201800009 DATA 3 1 B005201800010 EN DATA DATA-ERR B005201800011 MEV MB MB B005201800012 12. 270. 60. B005201800013 ENDDATA 3 0 B005201800014 ENDSUBENT 13 0 B005201899999 SUBENT B0052019 20011220 20020122 B005201900001 BIB 6 9 B005201900002 REACTION (58-CE-142(P,N)59-PR-142,(M),SIG,,,EXP) B005201900003 RAD-DET (59-PR-142-G,B-) B005201900004 DECAY-DATA (59-PR-142-G,19.2HR,B-,,1.0) B005201900005 COMMENT It is Assumed That the Production of Pr-142-M with B005201900006 100% Isomeric Transition and a Half-Life of 14.6 Min B005201900007 Not Known at That Time is Included in the Cross SectionB005201900008 Quoted (COMMENT BY THE COMPILER OF KACHAPAG). B005201900009 SAMPLE Finely Ground Mixture of Ce-Oxide and Cu-Oxide B005201900010 METHOD (SITA,MOMIX) B005201900011 ENDBIB 9 0 B005201900012 NOCOMMON 0 0 B005201900013 DATA 3 1 B005201900014 EN DATA DATA-ERR B005201900015 MEV MB MB B005201900016 12. 110. 40. B005201900017 ENDDATA 3 0 B005201900018 ENDSUBENT 17 0 B005201999999 ENDENTRY 19 0 B005299999999