ENTRY B0054 20011220 0000B005400000001 SUBENT B0054001 20011220 0000B005400100001 BIB 9 22 B005400100002 TITLE Excitation Functions For Proton-Induced Reactions B005400100003 With Copper B005400100004 AUTHOR (J.W.MEADOWS) B005400100005 INSTITUTE (1USAHRV).Cyclotron Laboratory B005400100006 REFERENCE (J,PR,91,885,1953) B005400100007 FACILITY (CYCLO,1USAHRV) B005400100008 Irradiations were Performed with the Internal ScatteredB005400100009 Beam with 180 Degree Focusing in the Cyclotron MagneticB005400100010 Field. Details of this Method Resulting in a Better B005400100011 Energy Resolution are Given by N.M.Hintz Et Al., Phys. B005400100012 Rev.88,19,1952. B005400100013 DETECTOR (GEMUC) B005400100014 CORRECTION The Observed Counting Rates were Corrected For Dead B005400100015 Time, Background Activity, Absorption, Self-Absorption,B005400100016 Scattering and Self-Scattering. Not Included were B005400100017 Corrections Due to Different Backing Materials. These B005400100018 May Increase the Values Presented Here by About B005400100019 5 %. B005400100020 ERR-ANALYS No Errors are Given by the Authors. B005400100021 HISTORY (19770111C)Lapf B005400100022 (19980111A) Reaction Lines are Corrected. Lower Case. B005400100023 (20011109U) Last checking has been done. B005400100024 ENDBIB 22 0 B005400100025 NOCOMMON 0 0 B005400100026 ENDSUBENT 25 0 B005400199999 SUBENT B0054002 20011220 0000B005400200001 BIB 8 30 B005400200002 REACTION (29-CU-63(P,X)29-CU-62,IND,SIG,,,EXP) B005400200003 The Slight Peak at About 80 MeV is Probably Caused B005400200004 By the Cu-63(P,4N+P)Cu-59 Reaction. B005400200005 RAD-DET (29-CU-62,B+) B005400200006 DECAY-DATA (29-CU-62,10.5MIN,B+,3000.) B005400200007 SAMPLE Cu-Oxide Powder Containing Separated Cu-63 Enclosed in B005400200008 Flat Al-Capsules. Thickness of Powder Layer About B005400200009 0.25 mm. The Stack Consisted of 4 to 8 Capsules B005400200010 Interspaced with Al-Absorbers. B005400200011 METHOD (INTB,STTA,EDEG,MOMIX) B005400200012 According to Hintz Et Al.,Phys.Rev.88,19,1952 the B005400200013 Energy at Each Target Foil was Calculated from the B005400200014 Average Radius and Magnetic Field For the Scattered B005400200015 Protons Together with Range Energy Curves Given by B005400200016 W.A.Aron,B.G.Hoffman and F.C.Williams, Ucrl-121(REV.) B005400200017 Initial Proton Energies 100 and 75 MeV, Respectively. B005400200018 ANALYSIS The Copper Oxide was Counted Through a 370 Mg/Cm**2 B005400200019 Al-Absorber to Stop any C-11 Activity Formed from B005400200020 The Oxygen. The Relative Yield of Cu-62 was Determined B005400200021 From a Decay Curve Analysis. Absolute Cross Sections B005400200022 Were Obtained by Comparing the Relative Yields of B005400200023 Cu-62 (10.5 MIN) For the Cu-63(P,N+P)Cu-62 Reaction B005400200024 With Cu-62 Measured in Equilibrium with Zn-62 (9.5 HR) B005400200025 For the Cu-63(P,2N)Zn-62 Reaction at 26 MeV (SEE B005400200026 B0054005). The Radiation of Zn-62 was Suppressed by B005400200027 The Al-Absorber. B005400200028 STATUS (CPX) B005400200029 (DEP,B0054005) B005400200030 Used As Secondary Monitor B005400200031 ADD-RES (COMP) B005400200032 ENDBIB 30 0 B005400200033 NOCOMMON 0 0 B005400200034 DATA 2 20 B005400200035 EN DATA B005400200036 MEV MB B005400200037 14. 28. B005400200038 18.5 195. B005400200039 19. 270. B005400200040 19.5 370. B005400200041 21.5 468. B005400200042 24. 524. B005400200043 24.2 550. B005400200044 24.2 580. B005400200045 28. 562. B005400200046 29.7 524. B005400200047 31. 464. B005400200048 32. 400. B005400200049 35. 302. B005400200050 40. 243. B005400200051 50. 195. B005400200052 60. 154. B005400200053 70. 140. B005400200054 80. 150. B005400200055 90. 130. B005400200056 99.2 120. B005400200057 ENDDATA 22 0 B005400200058 ENDSUBENT 57 0 B005400299999 SUBENT B0054003 20011220 0000B005400300001 BIB 8 19 B005400300002 REACTION (29-CU-63(P,X)29-CU-61,CUM,SIG,,,EXP) B005400300003 RAD-DET (29-CU-61,B+) B005400300004 DECAY-DATA (29-CU-61,,B+) B005400300005 SAMPLE Cu-Oxide Powder Containing Separated Cu-63 Enclosed in B005400300006 Flat Al-Capsules. Thickness of Powder Layer About B005400300007 0.25 mm. The Stack Consisted of 4 to 8 Capsules B005400300008 Interspaced with Al-Absorbers. B005400300009 METHOD (INTB,STTA,MOSEP,EDEG,CHSEP) B005400300010 According to Hintz Et Al.,Phys.Rev.88,19,1952 the B005400300011 Energy at Each Target Foil was Calculated from the B005400300012 Average Radius and Magnetic Field For the Scattered B005400300013 Protons Together with Range Energy Curves Given by B005400300014 W.A.Aron,B.G.Hoffman and F.C.Williams, Ucrl-121(REV.) B005400300015 Initial Proton Energies 100 and 75 MeV, Respectively. B005400300016 MONITOR 1(13-AL-27(P,X)11-NA-24-G,CUM,SIG,,,EXP) B005400300017 2(6-C-12(P,N+P)6-C-11,,SIG) B005400300018 MONIT-REF 1(B0076003,N.M.HINTZ+,J,PR,88,19,1952) B005400300019 2(B0077002,R.L.AAMODT+,J,PR,88,739,1952) B005400300020 STATUS (CPX) B005400300021 ENDBIB 19 0 B005400300022 NOCOMMON 0 0 B005400300023 DATA 2 16 B005400300024 EN DATA B005400300025 MEV MB B005400300026 20. 23. B005400300027 23. 9. B005400300028 25. 56. B005400300029 27.7 64. B005400300030 30. 148. B005400300031 32.5 184. B005400300032 35. 320. B005400300033 38. 322. B005400300034 40. 323. B005400300035 44.8 198. B005400300036 49.8 150. B005400300037 56.2 103. B005400300038 70. 92. B005400300039 79.7 82. B005400300040 90. 76. B005400300041 99.2 68. B005400300042 ENDDATA 18 0 B005400300043 ENDSUBENT 42 0 B005400399999 SUBENT B0054004 20011220 0000B005400400001 BIB 10 24 B005400400002 REACTION (29-CU-63(P,N)30-ZN-63,,SIG,,,EXP) B005400400003 RAD-DET (30-ZN-63,B+) B005400400004 DECAY-DATA (30-ZN-63,38.MIN,B+,2400.) B005400400005 SAMPLE Cu-Oxide Powder Containing Separated Cu-63 Enclosed in B005400400006 Flat Al-Capsules. Thickness of Powder Layer About B005400400007 0.25 mm. The Stack Consisted of 4 to 8 Capsules B005400400008 Interspaced with Al-Absorbers. B005400400009 METHOD (INTB,STTA,MOSEP,EDEG,CHSEP) B005400400010 According to Hintz Et Al.,Phys.Rev.88,19,1952 the B005400400011 Energy at Each Target Foil was Calculated from the B005400400012 Average Radius and Magnetic Field For the Scattered B005400400013 Protons Together with Range Energy Curves Given by B005400400014 W.A.Aron,B.G.Hoffman and F.C.Williams, Ucrl-121(REV.) B005400400015 Initial Proton Energies 100 and 75 MeV, Respectively. B005400400016 MONITOR 1(13-AL-27(P,X)11-NA-24-G,CUM,SIG,,,EXP) B005400400017 2(6-C-12(P,N+P)6-C-11,,SIG) B005400400018 MONIT-REF 1(B0076003,N.M.HINTZ+,J,PR,88,19,1952) B005400400019 2(B0077002,R.L.AAMODT+,J,PR,88,739,1952) B005400400020 REL-REF (C,B0057002,COLLE+,J,PR/C,9,1819,1974) B005400400021 In a Recent Compilation by Colle Et Al. The Present B005400400022 Data are Compared to Later Measurements and Found B005400400023 To be Systematically Higher Than All the Others. B005400400024 ADD-RES (COMP) B005400400025 STATUS (CPX) B005400400026 ENDBIB 24 0 B005400400027 NOCOMMON 0 0 B005400400028 DATA 2 16 B005400400029 EN DATA B005400400030 MEV MB B005400400031 5. 220. B005400400032 8. 325. B005400400033 10.8 400. B005400400034 12.8 409. B005400400035 17.2 364. B005400400036 19. 218. B005400400037 21. 150. B005400400038 25. 40. B005400400039 31.2 22. B005400400040 39.5 14. B005400400041 50.5 16. B005400400042 60. 14. B005400400043 70. 8. B005400400044 79.5 8. B005400400045 90. 7. B005400400046 99.2 7. B005400400047 ENDDATA 18 0 B005400400048 ENDSUBENT 47 0 B005400499999 SUBENT B0054005 20011220 0000B005400500001 BIB 9 20 B005400500002 REACTION (29-CU-63(P,2N)30-ZN-62,,SIG,,,EXP) B005400500003 RAD-DET (30-ZN-62,B+) B005400500004 DECAY-DATA (30-ZN-62,9.5HR,B+,650.) B005400500005 SAMPLE Cu-Oxide Powder Containing Separated Cu-63 Enclosed in B005400500006 Flat Al-Capsules. Thickness of Powder Layer About B005400500007 0.25 mm. The Stack Consisted of 4 to 8 Capsules B005400500008 Interspaced with Al-Absorbers. B005400500009 METHOD (INTB,STTA,MOSEP,EDEG,CHSEP) B005400500010 According to Hintz Et Al.,Phys.Rev.88,19,1952 the B005400500011 Energy at Each Target Foil was Calculated from the B005400500012 Average Radius and Magnetic Field For the Scattered B005400500013 Protons Together with Range Energy Curves Given by B005400500014 W.A.Aron,B.G.Hoffman and F.C.Williams, Ucrl-121(REV.) B005400500015 Initial Proton Energies 100 and 75 MeV, Respectively. B005400500016 MONITOR 1(13-AL-27(P,X)11-NA-24-G,CUM,SIG,,,EXP) B005400500017 2(6-C-12(P,N+P)6-C-11,,SIG) B005400500018 MONIT-REF 1(B0076003,N.M.HINTZ+,J,PR,88,19,1952) B005400500019 2(B0077002,R.L.AAMODT+,J,PR,88,739,1952) B005400500020 STATUS (CPX) B005400500021 ADD-RES (COMP) B005400500022 ENDBIB 20 0 B005400500023 NOCOMMON 0 0 B005400500024 DATA 2 18 B005400500025 EN DATA B005400500026 MEV MB B005400500027 17. 50. B005400500028 19. 79. B005400500029 21.2 99. B005400500030 23. 112. B005400500031 25. 123. B005400500032 26.1 137. B005400500033 28. 138. B005400500034 29. 133. B005400500035 30. 115. B005400500036 34. 62. B005400500037 35. 55. B005400500038 39.5 23. B005400500039 50.5 15. B005400500040 60. 15. B005400500041 70. 9. B005400500042 79.5 8. B005400500043 90. 7. B005400500044 99.2 7. B005400500045 ENDDATA 20 0 B005400500046 ENDSUBENT 45 0 B005400599999 SUBENT B0054006 20011220 0000B005400600001 BIB 8 25 B005400600002 REACTION (29-CU-65(P,X)29-CU-64,,SIG,,,EXP) Shielded. B005400600003 SAMPLE Cu-Oxide Powder Containing Separated Cu-65 Enclosed in B005400600004 Flat Al-Capsules. Thickness of Powder Layer About B005400600005 0.25 mm. The Stack Consisted of 4 to 8 Capsules B005400600006 Interspaced with Al-Absorbers. B005400600007 METHOD (INTB,STTA,MOSEP,EDEG,CHSEP) B005400600008 According to Hintz Et Al.,Phys.Rev.88,19,1952 the B005400600009 Energy at Each Target Foil was Calculated from the B005400600010 Average Radius and Magnetic Field For the Scattered B005400600011 Protons Together with Range Energy Curves Given by B005400600012 W.A.Aron,B.G.Hoffman and F.C.Williams, Ucrl-121(REV.) B005400600013 Initial Proton Energies 100 and 75 MeV, Respectively. B005400600014 MONITOR 1(13-AL-27(P,X)11-NA-24-G,CUM,SIG,,,EXP) B005400600015 2(6-C-12(P,N+P)6-C-11,,SIG) B005400600016 MONIT-REF 1(B0076003,N.M.HINTZ+,J,PR,88,19,1952) B005400600017 2(B0077002,R.L.AAMODT+,J,PR,88,739,1952) B005400600018 REL-REF (C,B0023002,NEWTON+,J,JIN,35,361,1973) B005400600019 Newton Compared these Data to His Own and Other B005400600020 Previous Measurements and Found Meadows Values B005400600021 Systematically Higher. He Concluded That this Might be B005400600022 Due to Poor Energy Resolution, Due to Use of the B005400600023 Stacked-Foil Technique, and Difficulties in Activity B005400600024 Measurements. B005400600025 STATUS (CPX) B005400600026 ADD-RES (COMP) B005400600027 ENDBIB 25 0 B005400600028 NOCOMMON 0 0 B005400600029 DATA 2 18 B005400600030 EN DATA B005400600031 MEV MB B005400600032 9.8 17. B005400600033 19.1 250. B005400600034 20.2 358. B005400600035 21. 449. B005400600036 25. 510. B005400600037 27.6 530. B005400600038 30. 428. B005400600039 32.7 400. B005400600040 38.2 334. B005400600041 43. 318. B005400600042 49.9 270. B005400600043 50.2 268. B005400600044 55.1 262. B005400600045 60.2 242. B005400600046 70.2 230. B005400600047 80.1 202. B005400600048 90.1 180. B005400600049 99.2 157. B005400600050 ENDDATA 20 0 B005400600051 ENDSUBENT 50 0 B005400699999 SUBENT B0054007 20011220 0000B005400700001 BIB 6 17 B005400700002 REACTION (29-CU-65(P,X)29-CU-62,IND,SIG,,,EXP) B005400700003 RAD-DET (29-CU-62,B+) B005400700004 DECAY-DATA (29-CU-62,10.5MIN,B+,3000.) B005400700005 SAMPLE Cu-Oxide Powder Containing Separated Cu-65 Enclosed in B005400700006 Flat Al-Capsules. Thickness of Powder Layer About B005400700007 0.25 mm. The Stack Consisted of 4 to 8 Capsules B005400700008 Interspaced with Al-Absorbers. B005400700009 METHOD (INTB,STTA,EDEG) B005400700010 According to Hintz Et Al.,Phys.Rev.88,19,1952 the B005400700011 Energy at Each Target Foil was Calculated from the B005400700012 Average Radius and Magnetic Field For the Scattered B005400700013 Protons Together with Range Energy Curves Given by B005400700014 W.A.Aron,B.G.Hoffman and F.C.Williams, Ucrl-121(REV.) B005400700015 Initial Proton Energies 100 and 75 MeV, Respectively. B005400700016 STATUS (CPX) B005400700017 (DEP,B0054002) B005400700018 Used As Secondary Monitor B005400700019 ENDBIB 17 0 B005400700020 NOCOMMON 0 0 B005400700021 DATA 2 17 B005400700022 EN DATA B005400700023 MEV MB B005400700024 25. 4. B005400700025 30. 4. B005400700026 35. 10. B005400700027 40.5 60. B005400700028 40.7 68. B005400700029 44. 164. B005400700030 50. 190. B005400700031 56. 151. B005400700032 59.3 130. B005400700033 65. 102. B005400700034 70. 96. B005400700035 75. 94. B005400700036 79.5 97. B005400700037 85. 90. B005400700038 90. 86. B005400700039 95. 80. B005400700040 99.2 76. B005400700041 ENDDATA 19 0 B005400700042 ENDSUBENT 41 0 B005400799999 SUBENT B0054008 20011220 0000B005400800001 BIB 8 19 B005400800002 REACTION (29-CU-65(P,X)29-CU-61,CUM,SIG,,,EXP) B005400800003 RAD-DET (29-CU-61,B+) B005400800004 DECAY-DATA (29-CU-61,,B+) B005400800005 SAMPLE Cu-Oxide Powder Containing Separated Cu-65 Enclosed in B005400800006 Flat Al-Capsules. Thickness of Powder Layer About B005400800007 0.25 mm. The Stack Consisted of 4 to 8 Capsules B005400800008 Interspaced with Al-Absorbers. B005400800009 METHOD (INTB,STTA,MOSEP,EDEG,CHSEP) B005400800010 According to Hintz Et Al.,Phys.Rev.88,19,1952 the B005400800011 Energy at Each Target Foil was Calculated from the B005400800012 Average Radius and Magnetic Field For the Scattered B005400800013 Protons Together with Range Energy Curves Given by B005400800014 W.A.Aron,B.G.Hoffman and F.C.Williams, Ucrl-121(REV.) B005400800015 Initial Proton Energies 100 and 75 MeV, Respectively. B005400800016 MONITOR 1(13-AL-27(P,X)11-NA-24-G,CUM,SIG,,,EXP) B005400800017 2(6-C-12(P,N+P)6-C-11,,SIG) B005400800018 MONIT-REF 1(B0076003,N.M.HINTZ+,J,PR,88,19,1952) B005400800019 2(B0077002,R.L.AAMODT+,J,PR,88,739,1952) B005400800020 STATUS (CPX) B005400800021 ENDBIB 19 0 B005400800022 NOCOMMON 0 0 B005400800023 DATA 2 12 B005400800024 EN DATA B005400800025 MEV MB B005400800026 45. 10. B005400800027 51. 30. B005400800028 55. 62. B005400800029 60. 86. B005400800030 65. 92. B005400800031 71. 80. B005400800032 75. 50. B005400800033 80. 42. B005400800034 85. 40. B005400800035 90. 40. B005400800036 95. 38. B005400800037 99. 34. B005400800038 ENDDATA 14 0 B005400800039 ENDSUBENT 38 0 B005400899999 SUBENT B0054009 20011220 0000B005400900001 BIB 8 19 B005400900002 REACTION (29-CU-65(P,3N)30-ZN-63,,SIG,,,EXP) B005400900003 RAD-DET (30-ZN-63,B+) B005400900004 DECAY-DATA (30-ZN-63,38.MIN,B+,2400.) B005400900005 SAMPLE Cu-Oxide Powder Containing Separated Cu-65 Enclosed in B005400900006 Flat Al-Capsules. Thickness of Powder Layer About B005400900007 0.25 mm. The Stack Consisted of 4 to 8 Capsules B005400900008 Interspaced with Al-Absorbers. B005400900009 METHOD (INTB,STTA,MOSEP,EDEG,CHSEP) B005400900010 According to Hintz Et Al.,Phys.Rev.88,19,1952 the B005400900011 Energy at Each Target Foil was Calculated from the B005400900012 Average Radius and Magnetic Field For the Scattered B005400900013 Protons Together with Range Energy Curves Given by B005400900014 W.A.Aron,B.G.Hoffman and F.C.Williams, Ucrl-121(REV.) B005400900015 Initial Proton Energies 100 and 75 MeV, Respectively. B005400900016 MONITOR 1(13-AL-27(P,X)11-NA-24-G,CUM,SIG,,,EXP) B005400900017 2(6-C-12(P,N+P)6-C-11,,SIG) B005400900018 MONIT-REF 1(B0076003,N.M.HINTZ+,J,PR,88,19,1952) B005400900019 2(B0077002,R.L.AAMODT+,J,PR,88,739,1952) B005400900020 STATUS (CPX) B005400900021 ENDBIB 19 0 B005400900022 NOCOMMON 0 0 B005400900023 DATA 2 11 B005400900024 EN DATA B005400900025 MEV MB B005400900026 29.8 93. B005400900027 33.6 136. B005400900028 38.1 165. B005400900029 43.6 89. B005400900030 54.1 43. B005400900031 59.2 31. B005400900032 65.1 30. B005400900033 69.1 26. B005400900034 79.7 16. B005400900035 89.4 17. B005400900036 99.2 13. B005400900037 ENDDATA 13 0 B005400900038 ENDSUBENT 37 0 B005400999999 SUBENT B0054010 20011220 0000B005401000001 BIB 8 19 B005401000002 REACTION (29-CU-65(P,4N)30-ZN-62,,SIG,,,EXP) B005401000003 RAD-DET (30-ZN-62,B+) B005401000004 DECAY-DATA (30-ZN-62,9.5HR,B+,650.) B005401000005 SAMPLE Cu-Oxide Powder Containing Separated Cu-65 Enclosed in B005401000006 Flat Al-Capsules. Thickness of Powder Layer About B005401000007 0.25 mm. The Stack Consisted of 4 to 8 Capsules B005401000008 Interspaced with Al-Absorbers. B005401000009 METHOD (INTB,STTA,MOSEP,EDEG,CHSEP) B005401000010 According to Hintz Et Al.,Phys.Rev.88,19,1952 the B005401000011 Energy at Each Target Foil was Calculated from the B005401000012 Average Radius and Magnetic Field For the Scattered B005401000013 Protons Together with Range Energy Curves Given by B005401000014 W.A.Aron,B.G.Hoffman and F.C.Williams, Ucrl-121(REV.) B005401000015 Initial Proton Energies 100 and 75 MeV, Respectively. B005401000016 MONITOR 1(13-AL-27(P,X)11-NA-24-G,CUM,SIG,,,EXP) B005401000017 2(6-C-12(P,N+P)6-C-11,,SIG) B005401000018 MONIT-REF 1(B0076003,N.M.HINTZ+,J,PR,88,19,1952) B005401000019 2(B0077002,R.L.AAMODT+,J,PR,88,739,1952) B005401000020 STATUS (CPX) B005401000021 ENDBIB 19 0 B005401000022 NOCOMMON 0 0 B005401000023 DATA 2 11 B005401000024 EN DATA B005401000025 MEV MB B005401000026 34. 1. B005401000027 38. 4. B005401000028 44. 8. B005401000029 50. 20. B005401000030 54. 16. B005401000031 60. 10. B005401000032 65. 8. B005401000033 70. 8. B005401000034 80. 5. B005401000035 90. 4. B005401000036 99. 4. B005401000037 ENDDATA 13 0 B005401000038 ENDSUBENT 37 0 B005401099999 ENDENTRY 10 0 B005499999999