ENTRY O2536 20220223 O089O253600000001 SUBENT O2536001 20220223 O089O253600100001 BIB 8 17 O253600100002 TITLE An investigation of Radiative proton--capture O253600100003 reactions in the Cd--In mass region O253600100004 AUTHOR (P.Vasileiou, T.J.Mertzimekis, A.Chalil, C.Fakiola, O253600100005 I.Karakasis, A.Kotsovolou, S.Pelonis, A.Zyriliou, O253600100006 M.Axiotis, A.Lagoyannis) O253600100007 INSTITUTE (2GRCATH) O253600100008 (2GRCGRC) National and Kapodistrian University of O253600100009 Athens, Zografou Campus, Athens. O253600100010 REFERENCE (J,NP/A,1015,122298,2021) O253600100011 #doi:10.1016/j.nuclphysa.2021.122298 O253600100012 FACILITY (VDGT,2GRCATH) 5.5MV T11 Tandem Van de Graaff O253600100013 accelerator of NCSR ?Demokritos? O253600100014 METHOD (GSPEC) O253600100015 DETECTOR (HPGE) An array of three HPGe detectors positioned at O253600100016 55, 90 and 165 degree, respectively, with reference O253600100017 to the beam direction. O253600100018 HISTORY (20220223C) VS O253600100019 ENDBIB 17 0 O253600100020 NOCOMMON 0 0 O253600100021 ENDSUBENT 20 0 O253600199999 SUBENT O2536002 20220223 O089O253600200001 BIB 5 21 O253600200002 REACTION (48-CD-112(P,G)49-IN-113-G,,SIG) O253600200003 SAMPLE (48-CD-112,ENR=0.997) A multi-layer target comprising O253600200004 a front layer of 99.7% enriched 112Cd evaporated on a O253600200005 natBi layer, backed by an natIn layer, and a thick O253600200006 natCu layer. Effective 112Cd target thickness was (1.14O253600200007 +- 0.06) mg/cm2. O253600200008 METHOD In-beam measurement O253600200009 The absolute yield of five transitions feeding the O253600200010 ground state were measured. O253600200011 5/2+ -> 9/2+gs Eg = 1024 keV O253600200012 5/2+ -> 9/2+gs Eg = 1132 keV O253600200013 7/2+ -> 9/2+gs Eg = 1191 keV O253600200014 (7/2+,9/2+) -> 9/2+gs Eg = 1509 keV O253600200015 unknown -> 9/2+gs Eg = 1676 keV O253600200016 ERR-ANALYS (ERR-T) The main contributions to the cross section O253600200017 uncertainty arise from: O253600200018 (ERR-1,,10.) the detection efficiency O253600200019 (ERR-2,,50.) the peak area determination O253600200020 (ERR-3) Partial uncertainty due to the target O253600200021 thickness - 5% O253600200022 STATUS (TABLE) Table 1 of Nucl.Phys.A1015(2021)122298 O253600200023 ENDBIB 21 0 O253600200024 COMMON 1 3 O253600200025 ERR-3 O253600200026 PER-CENT O253600200027 5. O253600200028 ENDCOMMON 3 0 O253600200029 DATA 3 3 O253600200030 EN DATA ERR-T O253600200031 MEV MB MB O253600200032 3.400 0.143 0.017 O253600200033 3.500 0.181 0.023 O253600200034 3.600 0.154 0.018 O253600200035 ENDDATA 5 0 O253600200036 ENDSUBENT 35 0 O253600299999 SUBENT O2536003 20220223 O089O253600300001 BIB 6 17 O253600300002 REACTION (48-CD-112(P,G)49-IN-113-M,,SIG) O253600300003 SAMPLE (48-CD-112,ENR=0.997) A multi-layer target comprising O253600300004 a front layer of 99.7% enriched 112Cd evaporated on a O253600300005 natBi layer, backed by an natIn layer, and a thick O253600300006 natCu layer. Effective 112Cd target thickness was (1.14O253600300007 +- 0.06) mg/cm2. O253600300008 METHOD (ACTIV) Irradiation time = 4*T1/2. O253600300009 DECAY-DATA (49-IN-113-M,99.476MIN,DG,391.7,0.6494) O253600300010 ERR-ANALYS (ERR-T) The main contributions to the cross section O253600300011 uncertainty arise from: O253600300012 (ERR-1,,10.) the detection efficiency O253600300013 (ERR-2,,50.) the peak area determination O253600300014 (ERR-3) Partial uncertainty due to the target O253600300015 thickness - 5% O253600300016 (ERR-4,,1.) Partial uncertainty due to the irradiation,O253600300017 counting, and waiting times O253600300018 STATUS (TABLE) Table 1 of Nucl.Phys.A1015(2021)122298 O253600300019 ENDBIB 17 0 O253600300020 COMMON 1 3 O253600300021 ERR-3 O253600300022 PER-CENT O253600300023 5. O253600300024 ENDCOMMON 3 0 O253600300025 DATA 3 3 O253600300026 EN DATA ERR-T O253600300027 MEV MB MB O253600300028 3.400 0.25 0.023 O253600300029 3.500 0.35 0.03 O253600300030 3.600 0.336 0.026 O253600300031 ENDDATA 5 0 O253600300032 ENDSUBENT 31 0 O253600399999 SUBENT O2536004 20220223 O089O253600400001 BIB 5 12 O253600400002 REACTION 1(48-CD-112(P,G)49-IN-113,,SIG) O253600400003 2(48-CD-112(P,G)49-IN-113,,SIG,,SFC) O253600400004 SAMPLE (48-CD-112,ENR=0.997) A multi-layer target comprising O253600400005 a front layer of 99.7% enriched 112Cd evaporated on a O253600400006 natBi layer, backed by an natIn layer, and a thick O253600400007 natCu layer. Effective 112Cd target thickness was (1.14O253600400008 +- 0.06) mg/cm2. O253600400009 ANALYSIS Sum of the g.s. and i.s. cross sections O253600400010 ERR-ANALYS (DATA-ERR) No information on uncertainty propagation. O253600400011 STATUS (TABLE) Table 1 of Nucl.Phys.A1015(2021)122298 O253600400012 (DEP,O2536002) g.s. cross section O253600400013 (DEP,O2536003) i.s. cross section O253600400014 ENDBIB 12 0 O253600400015 NOCOMMON 0 0 O253600400016 DATA 5 3 O253600400017 EN DATA 1DATA-ERR 1DATA 2DATA-ERR 2 O253600400018 MEV MB MB B*MEV B*MEV O253600400019 3.4 0.393 0.029 2.47E+8 1.8E+7 O253600400020 3.5 0.53 0.04 2.36E+8 1.7E+7 O253600400021 3.6 0.49 0.03 1.56E+8 1.0E+7 O253600400022 ENDDATA 5 0 O253600400023 ENDSUBENT 22 0 O253600499999 SUBENT O2536005 20220223 O089O253600500001 BIB 5 16 O253600500002 REACTION (48-CD-114(P,G)49-IN-115-G,,SIG) O253600500003 SAMPLE (48-CD-114,ENR=0.997) A thin front layer of 99.7% O253600500004 enriched 114Cd evaporated on a natTa layer. Effective O253600500005 114Cd target thickness was (0.557 +- 0.016) mg/cm2. O253600500006 METHOD In-beam measurement O253600500007 The absolute yield of two transitions feeding the O253600500008 ground state were measured. O253600500009 7/2+ -> 9/2+gs Eg = 934 keV O253600500010 5/2+ -> 9/2+gs Eg = 941 keV O253600500011 ERR-ANALYS (ERR-T) The main contributions to the cross section O253600500012 uncertainty arise from: O253600500013 (ERR-1,,10.) the detection efficiency O253600500014 (ERR-2,,50.) the peak area determination O253600500015 (ERR-3) Partial uncertainty due to the target O253600500016 thickness - 3% O253600500017 STATUS (TABLE) Table 2 of Nucl.Phys.A1015(2021)122298 O253600500018 ENDBIB 16 0 O253600500019 COMMON 1 3 O253600500020 ERR-3 O253600500021 PER-CENT O253600500022 3. O253600500023 ENDCOMMON 3 0 O253600500024 DATA 3 3 O253600500025 EN DATA ERR-T O253600500026 MEV MB MB O253600500027 3.000 0.017 0.008 O253600500028 3.500 0.045 0.007 O253600500029 3.600 0.112 0.009 O253600500030 ENDDATA 5 0 O253600500031 ENDSUBENT 30 0 O253600599999 SUBENT O2536006 20220223 O089O253600600001 BIB 6 15 O253600600002 REACTION (48-CD-114(P,G)49-IN-115-M,,SIG) O253600600003 SAMPLE (48-CD-114,ENR=0.997) A thin front layer of 99.7% O253600600004 enriched 114Cd evaporated on a natTa layer. Effective O253600600005 114Cd target thickness was (0.557 +- 0.016) mg/cm2. O253600600006 DECAY-DATA (49-IN-115-M,4.486HR,DG,336.241,0.4590) O253600600007 METHOD (ACTIV) Irradiation time T1/2=(1.5-2)*T1/2 O253600600008 ERR-ANALYS (ERR-T) The main contributions to the cross section O253600600009 uncertainty arise from: O253600600010 (ERR-1,,10.) the detection efficiency O253600600011 (ERR-2,,50.) the peak area determination O253600600012 (ERR-3) Partial uncertainty due to the target O253600600013 thickness - 3% O253600600014 (ERR-4,,1.) Partial uncertainty due to the irradiation,O253600600015 counting, and waiting times O253600600016 STATUS (TABLE) Table 2 of Nucl.Phys.A1015(2021)122298 O253600600017 ENDBIB 15 0 O253600600018 COMMON 1 3 O253600600019 ERR-3 O253600600020 PER-CENT O253600600021 3. O253600600022 ENDCOMMON 3 0 O253600600023 DATA 3 3 O253600600024 EN DATA ERR-T O253600600025 MEV MB MB O253600600026 3.000 0.031 0.011 O253600600027 3.500 0.12 0.06 O253600600028 3.600 0.135 0.026 O253600600029 ENDDATA 5 0 O253600600030 ENDSUBENT 29 0 O253600699999 SUBENT O2536007 20220223 O089O253600700001 BIB 5 10 O253600700002 REACTION 1(48-CD-114(P,G)49-IN-115,,SIG) O253600700003 2(48-CD-114(P,G)49-IN-115,,SIG,,SFC) O253600700004 SAMPLE (48-CD-114,ENR=0.997) A thin front layer of 99.7% O253600700005 enriched 114Cd evaporated on a natTa layer. Effective O253600700006 114Cd target thickness was (0.557 +- 0.016) mg/cm2. O253600700007 ANALYSIS Sum of the g.s. and i.s. cross sections O253600700008 ERR-ANALYS (DATA-ERR) No information on uncertainty propagation. O253600700009 STATUS (TABLE) Table 2 of Nucl.Phys.A1015(2021)122298 O253600700010 (DEP,O2536005) g.s. cross section O253600700011 (DEP,O2536006) i.s. cross section O253600700012 ENDBIB 10 0 O253600700013 NOCOMMON 0 0 O253600700014 DATA 5 3 O253600700015 EN DATA 1DATA-ERR 1DATA 2DATA-ERR 2 O253600700016 MEV MB MB B*MEV B*MEV O253600700017 3.400 0.048 0.014 1.4E+8 4.E+7 O253600700018 3.500 0.17 0.06 7.1E+7 2.6E+7 O253600700019 3.600 0.247 0.028 2.3E+7 3.E+6 O253600700020 ENDDATA 5 0 O253600700021 ENDSUBENT 20 0 O253600799999 SUBENT O2536008 20220223 O089O253600800001 BIB 5 17 O253600800002 REACTION (48-CD-114(P,N)49-IN-114-G,,SIG) O253600800003 SAMPLE (48-CD-114,ENR=0.997) A thin front layer of 99.7% O253600800004 enriched 114Cd evaporated on a natTa layer. Effective O253600800005 114Cd target thickness was (0.557 +- 0.016) mg/cm2. O253600800006 METHOD In-beam measurement O253600800007 The absolute yield of three transitions feeding the O253600800008 ground state were measured. O253600800009 2+ -> 1+gs Eg = 288 keV O253600800010 2+ -> 1+gs Eg = 693 keV O253600800011 2+ -> 1+gs Eg = 825 keV O253600800012 ERR-ANALYS (ERR-T) The main contributions to the cross section O253600800013 uncertainty arise from: O253600800014 (ERR-1,,10.) the detection efficiency O253600800015 (ERR-2,,50.) the peak area determination O253600800016 (ERR-3) Partial uncertainty due to the target O253600800017 thickness - 3% O253600800018 STATUS (TABLE) Table 3 of Nucl.Phys.A1015(2021)122298 O253600800019 ENDBIB 17 0 O253600800020 COMMON 1 3 O253600800021 ERR-3 O253600800022 PER-CENT O253600800023 3. O253600800024 ENDCOMMON 3 0 O253600800025 DATA 3 3 O253600800026 EN DATA ERR-T O253600800027 MEV MB MB O253600800028 3.000 0.146 0.026 O253600800029 3.500 0.46 0.05 O253600800030 3.600 0.69 0.08 O253600800031 ENDDATA 5 0 O253600800032 ENDSUBENT 31 0 O253600899999 ENDENTRY 8 0 O253699999999