ENTRY C0244 20171024 C170C024400000001 SUBENT C0244001 20171024 C170C024400100001 BIB 12 52 C024400100002 TITLE (p,pn) reactions at proton energies from 0.3 to 3.0 C024400100003 Bev C024400100004 AUTHOR (S.S.Markowitz,F.S.Rowland,G.Friedlander) C024400100005 REFERENCE (J,PR,112,1295,1958) C024400100006 (J,BAP,1,224,1956) Preliminary results. C024400100007 INSTITUTE (1USAPTN,1USABNL) C024400100008 FACILITY (SYNCH,1USABNL) Most of the irradiations were carried C024400100009 out in the circulating beam of the Brookhaven C024400100010 Cosmotron with protons of energies between 0.4 and C024400100011 3.0 GeV. C024400100012 (ISOCY,1USACOL) A few bombardments were performed C024400100013 with 0.28- and 0.38-GeV protons at the nevis C024400100014 synchrocyclotron at Columbia university. C024400100015 METHOD (ACTIV,STTA) C024400100016 DETECTOR (GEMUC) C024400100017 SAMPLE All of the target materials were of sufficiently high C024400100018 purity that only negligible quantities of the observed C024400100019 (p,pn) products could have been formed by reactions C024400100020 with other elements present. C024400100021 The enriched isotopes were electroplated onto C024400100022 0.0005-inch gold foil by standard procedures. C024400100023 The target foils and the 21-mg/cm2 aluminum monitor C024400100024 foil where lined up in a target holder and always C024400100025 irradiated with the aluminum foil "upstream" with C024400100026 respect to the beam direction, i.e., the aluminum was C024400100027 struck first by the protons. C024400100028 The Na22 standard sample used was prepared from a C024400100029 solution whose positron emission rate had been C024400100030 calibrated by the national bureau of standards. C024400100031 MONITOR (13-AL-27(P,X)11-NA-24,,SIG) C024400100032 ERR-ANALYS (DATA-ERR) The root-mean-squares errors resulting C024400100033 from uncertainties in counting efficiencies, chemical C024400100034 yields, decay curve resolutions,and branching ratios C024400100035 were estimated to be +-10% except in the cases of N-13 C024400100036 and Ta-180, where they were assumed to be +-20% and C024400100037 +25%, respectively. These errors didn't include the C024400100038 uncertainty of 0.6 mb in the 10.7-mb cross section for C024400100039 Al-27(p,n+3p) Na-24 monitor reaction. C024400100040 (MONIT-ERR) Uncertainty in monitor reaction C024400100041 STATUS (TABLE) Data taken from Pr,112,1295,1958 - table II C024400100042 and III. C024400100043 HISTORY (19870515C) C024400100044 (19881005A) Common data headings corrected. Reactions C024400100045 corrected. C024400100046 (20111128A) SD: updated to new date formats,lower case.C024400100047 Corrected according to last EXFOR rules andC024400100048 dict. SAMPLE and DATA-ERR were added in C024400100049 subents 2-10. REACTION code in Subents 2-10C024400100050 corrected (SF3=X). C024400100051 (20131022A) OS. Correction in sub.10 C024400100052 (20160804U) OS. DECAY-DATA in sub.4 corrected C024400100053 (20171024A) BP: Added preliminary results reference. C024400100054 ENDBIB 52 0 C024400100055 COMMON 4 3 C024400100056 EN-NRM-MIN EN-NRM-MAX MONIT MONIT-ERR C024400100057 GEV GEV MB MB C024400100058 0.28 3.0 10.7 0.6 C024400100059 ENDCOMMON 3 0 C024400100060 ENDSUBENT 59 0 C024400199999 SUBENT C0244002 20111128 C113C024400200001 BIB 4 5 C024400200002 REACTION (7-N-14(P,X)7-N-13,,SIG) C024400200003 DECAY-DATA (7-N-13,10.1MIN,B+,,1.0) C024400200004 SAMPLE N-14 of natural abundance, chemical state of target C024400200005 material is 40 mg/cm2 thick Be3N2 powder C024400200006 HISTORY (20111128A) SD:REACTION code was corrected (SF3=X). C024400200007 ENDBIB 5 0 C024400200008 COMMON 1 3 C024400200009 DATA-ERR C024400200010 PER-CENT C024400200011 20. C024400200012 ENDCOMMON 3 0 C024400200013 DATA 2 4 C024400200014 EN DATA C024400200015 GEV MB C024400200016 0.4 5.6 C024400200017 0.4 6.6 C024400200018 3.0 3.1 C024400200019 3.0 5.0 C024400200020 ENDDATA 6 0 C024400200021 ENDSUBENT 20 0 C024400299999 SUBENT C0244003 20111128 C113C024400300001 BIB 4 5 C024400300002 REACTION (9-F-19(P,X)9-F-18,,SIG) C024400300003 DECAY-DATA (9-F-18,112.MIN,B+,,0.97) C024400300004 SAMPLE F-19 of natural abundance, chemical state of target C024400300005 material is 2.7 mg/cm2 thick (CF2)N foil powder C024400300006 HISTORY (20111128A) SD:REACTION code was corrected (SF3=X). C024400300007 ENDBIB 5 0 C024400300008 COMMON 1 3 C024400300009 DATA-ERR C024400300010 PER-CENT C024400300011 10. C024400300012 ENDCOMMON 3 0 C024400300013 DATA 2 11 C024400300014 EN DATA C024400300015 GEV MB C024400300016 0.28 28. C024400300017 0.38 27. C024400300018 0.4 26. C024400300019 0.6 26. C024400300020 0.8 25. C024400300021 1.0 21. C024400300022 1.2 23. C024400300023 1.4 24. C024400300024 1.6 24. C024400300025 2.2 27. C024400300026 3.0 28. C024400300027 ENDDATA 13 0 C024400300028 ENDSUBENT 27 0 C024400399999 SUBENT C0244004 20160809 C161C024400400001 BIB 5 7 C024400400002 REACTION (26-FE-54(P,X)26-FE-53,,SIG) C024400400003 DECAY-DATA (26-FE-53-G,8.9MIN,B+,,0.98) C024400400004 SAMPLE (26-FE-54,ENR=0.967) Fe-54 (96.7%), is 3.4 mg/cm2 C024400400005 thick plated on Au C024400400006 METHOD (CHSEP) C024400400007 HISTORY (20111128A) SD:REACTION code was corrected (SF3=X). C024400400008 (20160804U) Isomer code in DECAY-DATA corrected C024400400009 ENDBIB 7 0 C024400400010 COMMON 1 3 C024400400011 DATA-ERR C024400400012 PER-CENT C024400400013 10. C024400400014 ENDCOMMON 3 0 C024400400015 DATA 2 4 C024400400016 EN DATA C024400400017 GEV MB C024400400018 0.4 45. C024400400019 0.4 48. C024400400020 3.0 42. C024400400021 3.0 47. C024400400022 ENDDATA 6 0 C024400400023 ENDSUBENT 22 0 C024400499999 SUBENT C0244005 20111128 C113C024400500001 BIB 5 6 C024400500002 REACTION (28-NI-58(P,X)28-NI-57,,SIG) C024400500003 DECAY-DATA (28-NI-57,36.HR,B+,,0.50) C024400500004 SAMPLE (28-NI-58,ENR+0.9984) Ni-58 (98.4%) is 4-30 mg/cm2 C024400500005 thick plated on Au C024400500006 METHOD (CHSEP) C024400500007 HISTORY (20111128A) SD:REACTION code was corrected (SF3=X). C024400500008 ENDBIB 6 0 C024400500009 COMMON 1 3 C024400500010 DATA-ERR C024400500011 PER-CENT C024400500012 10. C024400500013 ENDCOMMON 3 0 C024400500014 DATA 2 4 C024400500015 EN DATA C024400500016 GEV MB C024400500017 0.4 52. C024400500018 0.4 47. C024400500019 3.0 39. C024400500020 3.0 36. C024400500021 ENDDATA 6 0 C024400500022 ENDSUBENT 21 0 C024400599999 SUBENT C0244006 20111128 C113C024400600001 BIB 5 6 C024400600002 REACTION (29-CU-63(P,X)29-CU-62,,SIG) C024400600003 DECAY-DATA (29-CU-62,7.93MIN,B+,,0.98) C024400600004 SAMPLE (29-CU-63,ENR+0.991) Cu-63 (99.1%) metal foil is C024400600005 3-6 mg/cm2 thick C024400600006 METHOD (CHSEP) C024400600007 HISTORY (20111128A) SD:REACTION code was corrected (SF3=X). C024400600008 ENDBIB 6 0 C024400600009 COMMON 1 3 C024400600010 DATA-ERR C024400600011 PER-CENT C024400600012 10. C024400600013 ENDCOMMON 3 0 C024400600014 DATA 2 3 C024400600015 EN DATA C024400600016 GEV MB C024400600017 0.4 73. C024400600018 0.4 64. C024400600019 3.0 66. C024400600020 ENDDATA 5 0 C024400600021 ENDSUBENT 20 0 C024400699999 SUBENT C0244007 20111128 C113C024400700001 BIB 5 6 C024400700002 REACTION (29-CU-65(P,X)29-CU-64,,SIG) C024400700003 DECAY-DATA (29-CU-64,12.80HR,B+,,0.19,B-,,0.43) C024400700004 SAMPLE Cu-65 metal foil of natural abundance C024400700005 is 10 mg/cm2 thick C024400700006 METHOD (CHSEP) C024400700007 HISTORY (20111128A) SD:REACTION code was corrected (SF3=X). C024400700008 ENDBIB 6 0 C024400700009 COMMON 1 3 C024400700010 DATA-ERR C024400700011 PER-CENT C024400700012 10. C024400700013 ENDCOMMON 3 0 C024400700014 DATA 2 20 C024400700015 EN DATA C024400700016 GEV MB C024400700017 0.28 69. C024400700018 0.38 68. C024400700019 0.38 83. C024400700020 0.4 67. C024400700021 0.4 73. C024400700022 0.4 71. C024400700023 0.6 51. C024400700024 0.8 60. C024400700025 0.8 60. C024400700026 1.0 56. C024400700027 1.3 59. C024400700028 1.6 62. C024400700029 2.2 58. C024400700030 2.2 65. C024400700031 2.6 54. C024400700032 2.9 58. C024400700033 2.9 65. C024400700034 3.0 62. C024400700035 3.0 71. C024400700036 3.0 73. C024400700037 ENDDATA 22 0 C024400700038 ENDSUBENT 37 0 C024400799999 SUBENT C0244008 20111128 C113C024400800001 BIB 5 6 C024400800002 REACTION (30-ZN-64(P,X)30-ZN-63,,SIG) C024400800003 DECAY-DATA (30-ZN-63,38.3MIN,B+,,0.93) C024400800004 SAMPLE (30-ZN-64,0.931) Zn-64 (93.1%) is 3-5 mg/cm2 thick C024400800005 plated on Au C024400800006 METHOD (CHSEP) C024400800007 HISTORY (20111128A) SD:REACTION code was corrected (SF3=X). C024400800008 ENDBIB 6 0 C024400800009 COMMON 1 3 C024400800010 DATA-ERR C024400800011 PER-CENT C024400800012 10. C024400800013 ENDCOMMON 3 0 C024400800014 DATA 2 4 C024400800015 EN DATA C024400800016 GEV MB C024400800017 0.4 71. C024400800018 0.4 66. C024400800019 3.0 64. C024400800020 3.0 72. C024400800021 ENDDATA 6 0 C024400800022 ENDSUBENT 21 0 C024400899999 SUBENT C0244009 20111128 C113C024400900001 BIB 5 6 C024400900002 REACTION (42-MO-100(P,X)42-MO-99,,SIG) C024400900003 Data included contribution from Mo-100(p,2p) reaction. C024400900004 DECAY-DATA (42-MO-99,67.HR,B-,,1.0) C024400900005 SAMPLE Mo-100 (nat.) metal foil is 32 mg/cm2 thick C024400900006 METHOD (CHSEP) C024400900007 HISTORY (20111128A) SD:REACTION code was corrected (SF3=X). C024400900008 ENDBIB 6 0 C024400900009 COMMON 1 3 C024400900010 DATA-ERR C024400900011 PER-CENT C024400900012 10. C024400900013 ENDCOMMON 3 0 C024400900014 DATA 2 20 C024400900015 EN DATA C024400900016 GEV MB C024400900017 0.28 79. C024400900018 0.38 65. C024400900019 0.4 79. C024400900020 0.4 73. C024400900021 0.6 81. C024400900022 0.8 60. C024400900023 0.8 61. C024400900024 1.0 67. C024400900025 1.3 66. C024400900026 1.3 76. C024400900027 1.6 73. C024400900028 1.9 71. C024400900029 2.2 73. C024400900030 2.2 72. C024400900031 2.6 81. C024400900032 2.6 75. C024400900033 2.6 72. C024400900034 2.9 73. C024400900035 3.0 82. C024400900036 3.0 63. C024400900037 ENDDATA 22 0 C024400900038 ENDSUBENT 37 0 C024400999999 SUBENT C0244010 20131022 C135C024401000001 BIB 5 6 C024401000002 REACTION (73-TA-181(P,X)73-TA-180-G,,SIG) C024401000003 DECAY-DATA (73-TA-180-G,8.2HR,B-,,0.21) C024401000004 SAMPLE Ta-181 (nat.) metal foils is 10, 20 mg/cm2 thick C024401000005 METHOD (CHSEP) C024401000006 HISTORY (20111128A) SD:REACTION code was corrected (SF3=X). C024401000007 (20131022A) Isomer extension corrected to -G C024401000008 ENDBIB 6 0 C024401000009 COMMON 1 3 C024401000010 DATA-ERR C024401000011 PER-CENT C024401000012 25. C024401000013 ENDCOMMON 3 0 C024401000014 DATA 2 10 C024401000015 EN DATA C024401000016 GEV MB C024401000017 0.28 44. C024401000018 0.38 62. C024401000019 0.38 53. C024401000020 0.4 46. C024401000021 1.0 36. C024401000022 1.9 25. C024401000023 1.9 33. C024401000024 2.2 42. C024401000025 2.6 46. C024401000026 3.0 47. C024401000027 ENDDATA 12 0 C024401000028 ENDSUBENT 27 0 C024401099999 ENDENTRY 10 0 C024499999999