ENTRY A0745 20160303 A084A074500000001 SUBENT A0745001 20160303 A084A074500100001 BIB 12 24 A074500100002 TITLE Effect of entrance channel parameters on the fusion of A074500100003 two heavy ions: excitation functions of reaction A074500100004 products in 16-O + 66-Zn and 37-Cl + 45-Sc reactions A074500100005 AUTHOR (Suparna Sodaye, B.S.Tomar, A.Goswami) A074500100006 REFERENCE (J,PRM,66,985,2006) A074500100007 INSTITUTE (3INDTRM) Radiochemistry division. A074500100008 DETECTOR (HPGE) A074500100009 FACILITY (VDGT,3INDTRM) A074500100010 METHOD (EXTB) A074500100011 (SITA) See sample A074500100012 (GSPEC) The counting was followed for two weeks. A074500100013 ERR-ANALYS (DATA-ERR) Errors in the measurement of detection A074500100014 efficiency, target thickness and counting statistics A074500100015 result in around 10-15% error on the experimental data.A074500100016 (ERR-1) Uncertainty of target thickness A074500100017 MISC-COL (MISC) Excitation energy of compound nucleus. A074500100018 ADD-RES (COMP) PACE2-calculation. A074500100019 (POT) A074500100020 STATUS (TABLE) Data tables were received from Dr. A.Goswami. A074500100021 HISTORY (20060626C) A074500100022 (20060619R) Data tables were received from A074500100023 Dr. A.Goswami. A074500100024 (20070528U) Last checking has been done. A074500100025 (20160303A) SD: DECAY-DATA corrected in Subents 023,024A074500100026 ENDBIB 24 0 A074500100027 COMMON 1 3 A074500100028 ERR-1 A074500100029 PER-CENT A074500100030 5. A074500100031 ENDCOMMON 3 0 A074500100032 ENDSUBENT 31 0 A074500199999 SUBENT A0745002 20070528 A062A074500200001 BIB 4 9 A074500200002 REACTION (30-ZN-66(8-O-16,X)37-RB-79,CUM,SIG) A074500200003 DECAY-DATA (37-RB-79,22.9MIN,DG,182.8,0.192) A074500200004 SAMPLE Self-supporting metal foils of 99.5% enriched 66-Zn A074500200005 (thickness 2.5 mg/cm2), were irradiated with 16-O A074500200006 beam. A074500200007 METHOD (ACTIV) A short (5 min) and a long (60 min) irradiationA074500200008 were carried out at each of the beam energies. A074500200009 (REC) The recoiling products were collected on A074500200010 aluminium catcher foils of thickness 2 mg/cm2. A074500200011 ENDBIB 9 0 A074500200012 NOCOMMON 0 0 A074500200013 DATA 4 7 A074500200014 EN DATA DATA-ERR MISC A074500200015 MEV MB MB MEV A074500200016 61.26 433. 8. 51.68283 A074500200017 66.43 268. 5. 55.84405 A074500200018 71.58 222. 4. 59.98917 A074500200019 76.69 163. 4. 64.1021 A074500200020 81.8 77. 3. 68.21502 A074500200021 86.92 27.4 2.3 72.336 A074500200022 93.04 11.2 1.3 77.26185 A074500200023 ENDDATA 9 0 A074500200024 ENDSUBENT 23 0 A074500299999 SUBENT A0745003 20070528 A062A074500300001 BIB 5 16 A074500300002 REACTION (30-ZN-66(8-O-16,X)37-RB-78,CUM,SIG) A074500300003 DECAY-DATA (37-RB-78-M,5.74MIN,DG,455.0,0.810) Isomer transition A074500300004 10%. A074500300005 (37-RB-78-G,17.66MIN,DG,455.0,0.625) A074500300006 METHOD (ACTIV) A short (5 min) and a long (60 min) irradiationA074500300007 were carried out at each of the beam energies. A074500300008 (REC) The recoiling products were collected on A074500300009 aluminium catcher foils of thickness 2 mg/cm2. A074500300010 SAMPLE Self-supporting metal foils of 99.5% enriched 66-Zn A074500300011 (thickness 2.5 mg/cm2), were irradiated with 16-O A074500300012 beam. A074500300013 COMMENT -By authors. The cross-sections of the two 78-Rb A074500300014 isomers, 78-Rb-M (jpi=4-) and 78-Rb-G (jpi=0+) were A074500300015 deduced by fitting the common gamma-line of 455 keV A074500300016 into two independently decaying radionuclides. The 10% A074500300017 it-decay of 78-Rb-M to 78-Rb-G was neglected. A074500300018 ENDBIB 16 0 A074500300019 NOCOMMON 0 0 A074500300020 DATA 4 7 A074500300021 EN DATA DATA-ERR MISC A074500300022 MEV MB MB MEV A074500300023 61.26 6.44 1.2 51.68283 A074500300024 66.43 17.1 3.5 55.84405 A074500300025 71.58 35.5 2.1 59.98917 A074500300026 76.69 60.4 3.1 64.1021 A074500300027 81.8 64.6 4.2 68.21502 A074500300028 86.92 41.4 2.5 72.336 A074500300029 93.04 34.2 2.7 77.26185 A074500300030 ENDDATA 9 0 A074500300031 ENDSUBENT 30 0 A074500399999 SUBENT A0745004 20070528 A062A074500400001 BIB 4 9 A074500400002 REACTION (30-ZN-66(8-O-16,X)36-KR-77,CUM,SIG) A074500400003 DECAY-DATA (36-KR-77,1.24HR,DG,129.7,0.810) A074500400004 SAMPLE Self-supporting metal foils of 99.5% enriched 66-Zn A074500400005 (thickness 2.5 mg/cm2), were irradiated with 16-O A074500400006 beam. A074500400007 METHOD (ACTIV) A short (5 min) and a long (60 min) irradiationA074500400008 were carried out at each of the beam energies. A074500400009 (REC) The recoiling products were collected on A074500400010 aluminium catcher foils of thickness 2 mg/cm2. A074500400011 ENDBIB 9 0 A074500400012 NOCOMMON 0 0 A074500400013 DATA 4 7 A074500400014 EN DATA DATA-ERR MISC A074500400015 MEV MB MB MEV A074500400016 61.26 49.8 2.6 51.68283 A074500400017 66.43 37.3 0.9 55.84405 A074500400018 71.58 30.5 1.4 59.98917 A074500400019 76.69 35.6 5. 64.1021 A074500400020 81.8 59.7 3.1 68.21502 A074500400021 86.92 88.4 5. 72.336 A074500400022 93.04 148.4 4.6 77.26185 A074500400023 ENDDATA 9 0 A074500400024 ENDSUBENT 23 0 A074500499999 SUBENT A0745005 20070528 A062A074500500001 BIB 4 9 A074500500002 REACTION (30-ZN-66(8-O-16,X)36-KR-76,CUM,SIG) A074500500003 SAMPLE Self-supporting metal foils of 99.5% enriched 66-Zn A074500500004 (thickness 2.5 mg/cm2), were irradiated with 16-O A074500500005 beam. A074500500006 METHOD (ACTIV) A short (5 min) and a long (60 min) irradiationA074500500007 were carried out at each of the beam energies. A074500500008 (REC) The recoiling products were collected on A074500500009 aluminium catcher foils of thickness 2 mg/cm2. A074500500010 DECAY-DATA (36-KR-76,14.8HR,DG,315.7,0.39) A074500500011 ENDBIB 9 0 A074500500012 NOCOMMON 0 0 A074500500013 DATA 4 7 A074500500014 EN DATA DATA-ERR MISC A074500500015 MEV MB MB MEV A074500500016 61.26 38. 2. 51.68283 A074500500017 66.43 62.3 2.1 55.84405 A074500500018 71.58 69. 2. 59.98917 A074500500019 76.69 74.66 2.66 64.1021 A074500500020 81.8 55.6 3.5 68.21502 A074500500021 86.92 37.33 1.5 72.336 A074500500022 93.04 25.3 2.6 77.26185 A074500500023 ENDDATA 9 0 A074500500024 ENDSUBENT 23 0 A074500599999 SUBENT A0745006 20070528 A062A074500600001 BIB 5 14 A074500600002 REACTION (30-ZN-66(8-O-16,X)35-BR-77,CUM,SIG) A074500600003 SAMPLE Self-supporting metal foils of 99.5% enriched 66-Zn A074500600004 (thickness 2.5 mg/cm2), were irradiated with 16-O A074500600005 beam. A074500600006 METHOD (ACTIV) A short (5 min) and a long (60 min) irradiationA074500600007 were carried out at each of the beam energies. A074500600008 (REC) The recoiling products were collected on A074500600009 aluminium catcher foils of thickness 2 mg/cm2. A074500600010 DECAY-DATA (35-BR-77-G,2.38D,DG,520.7,0.224) A074500600011 COMMENT -By authors. In the case of 77-Br, the high-spin A074500600012 isomer 77-Br-M decays by isomer transition (100%) to A074500600013 ground state 77-Br-G and hence the cross-section of A074500600014 77-Br-G represents the sum of the cross-sections of A074500600015 both the isomers. A074500600016 ENDBIB 14 0 A074500600017 NOCOMMON 0 0 A074500600018 DATA 4 7 A074500600019 EN DATA DATA-ERR MISC A074500600020 MEV MB MB MEV A074500600021 61.26 30.2 6.5 51.68283 A074500600022 66.43 16.7 1.3 55.84405 A074500600023 71.58 11.7 3.1 59.98917 A074500600024 76.69 18.5 5.7 64.1021 A074500600025 81.8 27.6 4.9 68.21502 A074500600026 86.92 47.8 7.7 72.336 A074500600027 93.04 62.6 6.8 77.26185 A074500600028 ENDDATA 9 0 A074500600029 ENDSUBENT 28 0 A074500699999 SUBENT A0745007 20070528 A062A074500700001 BIB 5 13 A074500700002 REACTION (30-ZN-66(8-O-16,X)35-BR-76,(CUM),SIG) A074500700003 SAMPLE Self-supporting metal foils of 99.5% enriched 66-Zn A074500700004 (thickness 2.5 mg/cm2), were irradiated with 16-O A074500700005 beam. A074500700006 METHOD (ACTIV) A short (5 min) and a long (60 min) irradiationA074500700007 were carried out at each of the beam energies. A074500700008 (REC) The recoiling products were collected on A074500700009 aluminium catcher foils of thickness 2 mg/cm2. A074500700010 DECAY-DATA (35-BR-76,16.2HR,DG,559.1,0.740) A074500700011 COMMENT -By authors. The cross-section of 76-Br-G representsA074500700012 the sum of cross-sections of both the isomers due to A074500700013 >99% isomer transition decay of short-lived 76-Br-M A074500700014 (4+) to 76-Br-g (1-). A074500700015 ENDBIB 13 0 A074500700016 NOCOMMON 0 0 A074500700017 DATA 4 7 A074500700018 EN DATA DATA-ERR MISC A074500700019 MEV MB MB MEV A074500700020 61.26 149. 6. 51.68283 A074500700021 66.43 195.4 8.2 55.84405 A074500700022 71.58 183. 7. 59.98917 A074500700023 76.69 207. 9.6 64.1021 A074500700024 81.8 153. 5. 68.21502 A074500700025 86.92 133.7 11. 72.336 A074500700026 93.04 66. 8. 77.26185 A074500700027 ENDDATA 9 0 A074500700028 ENDSUBENT 27 0 A074500799999 SUBENT A0745008 20070528 A062A074500800001 BIB 4 9 A074500800002 REACTION (30-ZN-66(8-O-16,X)35-BR-75,CUM,SIG) A074500800003 SAMPLE Self-supporting metal foils of 99.5% enriched 66-Zn A074500800004 (thickness 2.5 mg/cm2), were irradiated with 16-O A074500800005 beam. A074500800006 METHOD (ACTIV) A short (5 min) and a long (60 min) irradiationA074500800007 were carried out at each of the beam energies. A074500800008 (REC) The recoiling products were collected on A074500800009 aluminium catcher foils of thickness 2 mg/cm2. A074500800010 DECAY-DATA (35-BR-75,1.62HR,DG,286.5,0.88) A074500800011 ENDBIB 9 0 A074500800012 NOCOMMON 0 0 A074500800013 DATA 4 7 A074500800014 EN DATA DATA-ERR MISC A074500800015 MEV MB MB MEV A074500800016 61.26 15.3 2.4 51.68283 A074500800017 66.43 28.4 0.5 55.84405 A074500800018 71.58 77.3 7.3 59.98917 A074500800019 76.69 150.6 4. 64.1021 A074500800020 81.8 239. 6. 68.21502 A074500800021 86.92 255.5 5.8 72.336 A074500800022 93.04 268. 14. 77.26185 A074500800023 ENDDATA 9 0 A074500800024 ENDSUBENT 23 0 A074500899999 SUBENT A0745009 20070528 A062A074500900001 BIB 5 12 A074500900002 REACTION (30-ZN-66(8-O-16,X)34-SE-73,CUM,SIG) A074500900003 SAMPLE Self-supporting metal foils of 99.5% enriched 66-Zn A074500900004 (thickness 2.5 mg/cm2), were irradiated with 16-O A074500900005 beam. A074500900006 METHOD (ACTIV) A short (5 min) and a long (60 min) irradiationA074500900007 were carried out at each of the beam energies. A074500900008 (REC) The recoiling products were collected on A074500900009 aluminium catcher foils of thickness 2 mg/cm2. A074500900010 DECAY-DATA (34-SE-73-G,7.15HR,DG,361.2,1.082) A074500900011 COMMENT -By compiler. According to ENSDF, 361.2-keV abundanceA074500900012 is equal 0.97. 1.082 value is one for radioactive A074500900013 equilibrum isomer and ground states decays. A074500900014 ENDBIB 12 0 A074500900015 NOCOMMON 0 0 A074500900016 DATA 4 7 A074500900017 EN DATA DATA-ERR MISC A074500900018 MEV MB MB MEV A074500900019 61.26 10.3 0.7 51.68283 A074500900020 66.43 24.1 0.5 55.84405 A074500900021 71.58 41.5 1.2 59.98917 A074500900022 76.69 59.5 1.9 64.1021 A074500900023 81.8 61.4 1.7 68.21502 A074500900024 86.92 57.8 1.7 72.336 A074500900025 93.04 47.9 1.3 77.26185 A074500900026 ENDDATA 9 0 A074500900027 ENDSUBENT 26 0 A074500999999 SUBENT A0745010 20070528 A062A074501000001 BIB 4 9 A074501000002 REACTION (30-ZN-66(8-O-16,X)31-GA-67,CUM,SIG) A074501000003 SAMPLE Self-supporting metal foils of 99.5% enriched 66-Zn A074501000004 (thickness 2.5 mg/cm2), were irradiated with 16-O A074501000005 beam. A074501000006 METHOD (ACTIV) A short (5 min) and a long (60 min) irradiationA074501000007 were carried out at each of the beam energies. A074501000008 (REC) The recoiling products were collected on A074501000009 aluminium catcher foils of thickness 2 mg/cm2. A074501000010 DECAY-DATA (31-GA-67,78.3HR,DG,184.6,0.212) A074501000011 ENDBIB 9 0 A074501000012 NOCOMMON 0 0 A074501000013 DATA 4 7 A074501000014 EN DATA DATA-ERR MISC A074501000015 MEV MB MB MEV A074501000016 61.26 24.7 2.6 51.68283 A074501000017 66.43 32.8 1.9 55.84405 A074501000018 71.58 37.7 2.6 59.98917 A074501000019 76.69 49.6 1.9 64.1021 A074501000020 81.8 44.8 4.1 68.21502 A074501000021 86.92 56.8 4.6 72.336 A074501000022 93.04 69. 5. 77.26185 A074501000023 ENDDATA 9 0 A074501000024 ENDSUBENT 23 0 A074501099999 SUBENT A0745011 20070528 A062A074501100001 BIB 4 9 A074501100002 REACTION (30-ZN-66(8-O-16,X)31-GA-66,CUM,SIG) A074501100003 SAMPLE Self-supporting metal foils of 99.5% enriched 66-Zn A074501100004 (thickness 2.5 mg/cm2), were irradiated with 16-O A074501100005 beam. A074501100006 METHOD (ACTIV) A short (5 min) and a long (60 min) irradiationA074501100007 were carried out at each of the beam energies. A074501100008 (REC) The recoiling products were collected on A074501100009 aluminium catcher foils of thickness 2 mg/cm2. A074501100010 DECAY-DATA (31-GA-66,9.4HR,DG,1039.3,0.37) A074501100011 ENDBIB 9 0 A074501100012 NOCOMMON 0 0 A074501100013 DATA 4 5 A074501100014 EN DATA DATA-ERR MISC A074501100015 MEV MB MB MEV A074501100016 71.58 1.7 0.3 59.98917 A074501100017 76.69 3.9 1.1 64.1021 A074501100018 81.8 5.1 0.7 68.21502 A074501100019 86.92 5.8 0.7 72.336 A074501100020 93.04 9. 1. 77.26185 A074501100021 ENDDATA 7 0 A074501100022 ENDSUBENT 21 0 A074501199999 SUBENT A0745012 20070528 A062A074501200001 BIB 4 9 A074501200002 REACTION (30-ZN-66(8-O-16,X)32-GE-69,CUM,SIG) A074501200003 SAMPLE Self-supporting metal foils of 99.5% enriched 66-Zn A074501200004 (thickness 2.5 mg/cm2), were irradiated with 16-O A074501200005 beam. A074501200006 METHOD (ACTIV) A short (5 min) and a long (60 min) irradiationA074501200007 were carried out at each of the beam energies. A074501200008 (REC) The recoiling products were collected on A074501200009 aluminium catcher foils of thickness 2 mg/cm2. A074501200010 DECAY-DATA (32-GE-69,39.05HR,DG,1106.8,0.36) A074501200011 ENDBIB 9 0 A074501200012 NOCOMMON 0 0 A074501200013 DATA 4 7 A074501200014 EN DATA DATA-ERR MISC A074501200015 MEV MB MB MEV A074501200016 61.26 9.1 1.2 51.68283 A074501200017 66.43 14.7 1.7 55.84405 A074501200018 71.58 19.5 1.8 59.98917 A074501200019 76.69 27.7 2. 64.1021 A074501200020 81.8 27.6 2.6 68.21502 A074501200021 86.92 35. 3.5 72.336 A074501200022 93.04 44.2 3.6 77.26185 A074501200023 ENDDATA 9 0 A074501200024 ENDSUBENT 23 0 A074501299999 SUBENT A0745013 20070528 A062A074501300001 BIB 4 9 A074501300002 REACTION (30-ZN-66(8-O-16,X)32-GE-67,CUM,SIG) A074501300003 SAMPLE Self-supporting metal foils of 99.5% enriched 66-Zn A074501300004 (thickness 2.5 mg/cm2), were irradiated with 16-O A074501300005 beam. A074501300006 METHOD (ACTIV) A short (5 min) and a long (60 min) irradiationA074501300007 were carried out at each of the beam energies. A074501300008 (REC) The recoiling products were collected on A074501300009 aluminium catcher foils of thickness 2 mg/cm2. A074501300010 DECAY-DATA (32-GE-67,18.7MIN,DG,167.0,0.843) A074501300011 ENDBIB 9 0 A074501300012 NOCOMMON 0 0 A074501300013 DATA 4 4 A074501300014 EN DATA DATA-ERR MISC A074501300015 MEV MB MB MEV A074501300016 76.69 0.67 0.3 64.1021 A074501300017 81.8 0.9 0.3 68.21502 A074501300018 86.92 1.04 0.2 72.336 A074501300019 93.04 1.42 0.3 77.26185 A074501300020 ENDDATA 6 0 A074501300021 ENDSUBENT 20 0 A074501399999 SUBENT A0745014 20070528 A062A074501400001 BIB 4 8 A074501400002 REACTION (21-SC-45(17-CL-37,X)37-RB-79,CUM,SIG) A074501400003 SAMPLE Self-supporting scandium metal foils of thickness A074501400004 400-700 mug/cm2 A074501400005 DECAY-DATA (37-RB-79,22.9MIN,DG,182.8,0.192) A074501400006 METHOD (ACTIV) Depending on the beam current, the irradiationA074501400007 time was 2-4 hours. A074501400008 (REC) Gold foil of 10 mg/cm2 thickness was used to stopA074501400009 all the recoiling evaporation residues. A074501400010 ENDBIB 8 0 A074501400011 NOCOMMON 0 0 A074501400012 DATA 4 4 A074501400013 EN DATA DATA-ERR MISC A074501400014 MEV MB MB MEV A074501400015 100. 87.3 4.8 58.05705 A074501400016 108. 63.7 3.4 62.44729 A074501400017 116. 60.4 3. 66.83754 A074501400018 124. 26.7 3.4 71.22778 A074501400019 ENDDATA 6 0 A074501400020 ENDSUBENT 19 0 A074501499999 SUBENT A0745015 20070528 A062A074501500001 BIB 5 14 A074501500002 REACTION (21-SC-45(17-CL-37,X)37-RB-78,CUM,SIG) A074501500003 SAMPLE Self-supporting scandium metal foils of thickness A074501500004 400-700 mug/cm2 A074501500005 DECAY-DATA (37-RB-78-M,5.74MIN,DG,455.0,0.810) A074501500006 (37-RB-78-G,17.66MIN,DG,455.0,0.625) A074501500007 COMMENT -By authors. The cross-sections of the two 78-Rb A074501500008 isomers, 78-Rb-M (jpi=4-) and 78-Rb-G (jpi=0+) were A074501500009 deduced by fitting the common gamma-line of 455 KeV A074501500010 into two independently decaying radionuclides. The 10% A074501500011 it-decay of 78-Rb-M to 78-Rb-G was neglected. A074501500012 METHOD (ACTIV) Depending on the beam current, the irradiationA074501500013 time was 2-4 hours. A074501500014 (REC) Gold foil of 10 mg/cm2 thickness was used to stopA074501500015 all the recoiling evaporation residues. A074501500016 ENDBIB 14 0 A074501500017 NOCOMMON 0 0 A074501500018 DATA 4 4 A074501500019 EN DATA DATA-ERR MISC A074501500020 MEV MB MB MEV A074501500021 100. 20.1 1.5 58.05705 A074501500022 108. 31. 1.5 62.44729 A074501500023 116. 55.1 1.2 66.83754 A074501500024 124. 59.4 2. 71.22778 A074501500025 ENDDATA 6 0 A074501500026 ENDSUBENT 25 0 A074501599999 SUBENT A0745016 20070528 A062A074501600001 BIB 4 8 A074501600002 REACTION (21-SC-45(17-CL-37,X)36-KR-77,CUM,SIG) A074501600003 SAMPLE Self-supporting scandium metal foils of thickness A074501600004 400-700 mug/cm2 A074501600005 DECAY-DATA (36-KR-77,1.24HR,DG,129.7,0.810) A074501600006 METHOD (ACTIV) Depending on the beam current, the irradiation A074501600007 time was 2-4 hours. A074501600008 (REC) Gold foil of 10 mg/cm2 thickness was used to stopA074501600009 all the recoiling evaporation residues. A074501600010 ENDBIB 8 0 A074501600011 NOCOMMON 0 0 A074501600012 DATA 4 4 A074501600013 EN DATA DATA-ERR MISC A074501600014 MEV MB MB MEV A074501600015 100. 3.3 0.2 58.05705 A074501600016 108. 6.3 1. 62.44729 A074501600017 116. 22.7 0.2 66.83754 A074501600018 124. 52.9 0.5 71.22778 A074501600019 ENDDATA 6 0 A074501600020 ENDSUBENT 19 0 A074501699999 SUBENT A0745017 20070528 A062A074501700001 BIB 4 8 A074501700002 REACTION (21-SC-45(17-CL-37,X)36-KR-76,CUM,SIG) A074501700003 SAMPLE Self-supporting scandium metal foils of thickness A074501700004 400-700 mug/cm2 A074501700005 DECAY-DATA (36-KR-76,14.8HR,DG,315.7,0.39) A074501700006 METHOD (ACTIV) Depending on the beam current, the irradiation A074501700007 time was 2-4 hours. A074501700008 (REC) Gold foil of 10 mg/cm2 thickness was used to stopA074501700009 all the recoiling evaporation residues. A074501700010 ENDBIB 8 0 A074501700011 NOCOMMON 0 0 A074501700012 DATA 4 4 A074501700013 EN DATA DATA-ERR MISC A074501700014 MEV MB MB MEV A074501700015 100. 21.7 2.7 58.05705 A074501700016 108. 29.1 2.8 62.44729 A074501700017 116. 35. 3.3 66.83754 A074501700018 124. 30.1 3. 71.22778 A074501700019 ENDDATA 6 0 A074501700020 ENDSUBENT 19 0 A074501799999 SUBENT A0745018 20070528 A062A074501800001 BIB 5 13 A074501800002 REACTION (21-SC-45(17-CL-37,X)35-BR-77,CUM,SIG) A074501800003 SAMPLE Self-supporting scandium metal foils of thickness A074501800004 400-700 mug/cm2 A074501800005 DECAY-DATA (35-BR-77-G,2.38D,DG,520.7,0.224) A074501800006 METHOD (ACTIV) Depending on the beam current, the irradiationA074501800007 time was 2-4 hours. A074501800008 (REC) Gold foil of 10 mg/cm2 thickness was used to stopA074501800009 all the recoiling evaporation residues. A074501800010 COMMENT -By authors. In the case of 77-Br, the high-spin A074501800011 isomer 77-Br-M decays by isomer transition (100%) to A074501800012 ground state 77-Br-G and hence the cross-section of A074501800013 77-Br-G represents the sum of the cross-sections of A074501800014 both the isomers. A074501800015 ENDBIB 13 0 A074501800016 NOCOMMON 0 0 A074501800017 DATA 4 4 A074501800018 EN DATA DATA-ERR MISC A074501800019 MEV MB MB MEV A074501800020 100. 21.7 2.7 58.05705 A074501800021 108. 29.1 2.8 62.44729 A074501800022 116. 35. 3.3 66.83754 A074501800023 124. 30.1 3. 71.22778 A074501800024 ENDDATA 6 0 A074501800025 ENDSUBENT 24 0 A074501899999 SUBENT A0745019 20070528 A062A074501900001 BIB 5 12 A074501900002 REACTION (21-SC-45(17-CL-37,X)35-BR-76,CUM,SIG) A074501900003 SAMPLE Self-supporting scandium metal foils of thickness A074501900004 400-700 mug/cm2 A074501900005 DECAY-DATA (35-BR-76,16.2HR,DG,559.1,0.740) A074501900006 METHOD (ACTIV) Depending on the beam current, the irradiationA074501900007 time was 2-4 hours. A074501900008 (REC) Gold foil of 10 mg/cm2 thickness was used to stopA074501900009 all the recoiling evaporation residues. A074501900010 COMMENT -By authors. The cross-section of 76-Br-G represents A074501900011 the sum of cross-sections of both the isomers due to A074501900012 >99% isomer transition decay of short-lived 76-Br-M A074501900013 (4+) to 76-Br-G (1-). A074501900014 ENDBIB 12 0 A074501900015 NOCOMMON 0 0 A074501900016 DATA 4 4 A074501900017 EN DATA DATA-ERR MISC A074501900018 MEV MB MB MEV A074501900019 100. 2. 1.8 58.05705 A074501900020 108. 4. 2.3 62.44729 A074501900021 116. 4.2 5.7 66.83754 A074501900022 124. 14.5 9.9 71.22778 A074501900023 ENDDATA 6 0 A074501900024 ENDSUBENT 23 0 A074501999999 SUBENT A0745020 20070528 A062A074502000001 BIB 4 8 A074502000002 REACTION (21-SC-45(17-CL-37,X)35-BR-75,CUM,SIG) A074502000003 SAMPLE Self-supporting scandium metal foils of thickness A074502000004 400-700 mug/cm2 A074502000005 DECAY-DATA (35-BR-75,1.62HR,DG,286.5,0.88) A074502000006 METHOD (ACTIV) Depending on the beam current, the irradiation A074502000007 time was 2-4 hours. A074502000008 (REC) Gold foil of 10 mg/cm2 thickness was used to stopA074502000009 all the recoiling evaporation residues. A074502000010 ENDBIB 8 0 A074502000011 NOCOMMON 0 0 A074502000012 DATA 4 4 A074502000013 EN DATA DATA-ERR MISC A074502000014 MEV MB MB MEV A074502000015 100. 17.2 0.72 58.05705 A074502000016 108. 43.9 1.6 62.44729 A074502000017 116. 93.9 2.1 66.83754 A074502000018 124. 159.2 2.4 71.22778 A074502000019 ENDDATA 6 0 A074502000020 ENDSUBENT 19 0 A074502099999 SUBENT A0745021 20070528 A062A074502100001 BIB 4 8 A074502100002 REACTION (21-SC-45(17-CL-37,X)34-SE-73,CUM,SIG) A074502100003 SAMPLE Self-supporting scandium metal foils of thickness A074502100004 400-700 mug/cm2 A074502100005 DECAY-DATA (34-SE-73-G,7.15HR,DG,361.2,1.082) A074502100006 METHOD (ACTIV) Depending on the beam current, the irradiation A074502100007 time was 2-4 hours. A074502100008 (REC) Gold foil of 10 mg/cm2 thickness was used to stopA074502100009 all the recoiling evaporation residues. A074502100010 ENDBIB 8 0 A074502100011 NOCOMMON 0 0 A074502100012 DATA 4 4 A074502100013 EN DATA DATA-ERR MISC A074502100014 MEV MB MB MEV A074502100015 100. 5.1 0.8 58.05705 A074502100016 108. 11.3 1.1 62.44729 A074502100017 116. 23.8 1. 66.83754 A074502100018 124. 37.3 2.4 71.22778 A074502100019 ENDDATA 6 0 A074502100020 ENDSUBENT 19 0 A074502199999 SUBENT A0745022 20070528 A062A074502200001 BIB 4 8 A074502200002 REACTION (21-SC-45(17-CL-37,X)23-V-48,CUM,SIG) A074502200003 SAMPLE Self-supporting scandium metal foils of thickness A074502200004 400-700 mug/cm2 A074502200005 DECAY-DATA (23-V-48,15.97D,DG,983.5,1.) A074502200006 METHOD (ACTIV) Depending on the beam current, the irradiation A074502200007 time was 2-4 hours. A074502200008 (REC) Gold foil of 10 mg/cm2 thickness was used to stopA074502200009 all the recoiling evaporation residues. A074502200010 ENDBIB 8 0 A074502200011 NOCOMMON 0 0 A074502200012 DATA 4 4 A074502200013 EN DATA DATA-ERR MISC A074502200014 MEV MB MB MEV A074502200015 100. 10.9 2.9 58.05705 A074502200016 108. 11.8 2.6 62.44729 A074502200017 116. 8. 1.9 66.83754 A074502200018 124. 10.3 3.1 71.22778 A074502200019 ENDDATA 6 0 A074502200020 ENDSUBENT 19 0 A074502299999 SUBENT A0745023 20160303 A084A074502300001 BIB 5 11 A074502300002 REACTION (21-SC-45(17-CL-37,X)21-SC-47,CUM,SIG) A074502300003 SAMPLE Self-supporting scandium metal foils of thickness A074502300004 400-700 mug/cm2 A074502300005 DECAY-DATA (21-SC-47,3.34D,DG,159.4,0.680) A074502300006 METHOD (ACTIV) Depending on the beam current, the irradiation A074502300007 time was 2-4 hours. A074502300008 (REC) Gold foil of 10 mg/cm2 thickness was used to stopA074502300009 all the recoiling evaporation residues. A074502300010 HISTORY (20160303A) SD: DECAY-DATA corrected: 3.93HR,DG,1157.1,A074502300011 0.999 -> 3.34D,DG,159.4,0.680. Correction was A074502300012 confirmed by A.Goswami (2014-08-18). A074502300013 ENDBIB 11 0 A074502300014 NOCOMMON 0 0 A074502300015 DATA 4 4 A074502300016 EN DATA DATA-ERR MISC A074502300017 MEV MB MB MEV A074502300018 100. 4.7 0.44 58.05705 A074502300019 108. 6.3 1.11 62.44729 A074502300020 116. 7.7 0.89 66.83754 A074502300021 124. 7.65 2.3 71.22778 A074502300022 ENDDATA 6 0 A074502300023 ENDSUBENT 22 0 A074502399999 SUBENT A0745024 20160303 A084A074502400001 BIB 5 11 A074502400002 REACTION (21-SC-45(17-CL-37,X)21-SC-44-G,CUM,SIG) A074502400003 SAMPLE Self-supporting scandium metal foils of thickness A074502400004 400-700 mug/cm2 A074502400005 DECAY-DATA (21-SC-44-G,3.93HR,DG,1157.1,0.999) A074502400006 METHOD (ACTIV) Depending on the beam current, the irradiation A074502400007 time was 2-4 hours. A074502400008 (REC) Gold foil of 10 mg/cm2 thickness was used to stopA074502400009 all the recoiling evaporation residues. A074502400010 HISTORY (20160303A) SD: DECAY-DATA corrected: 3.34D,DG,159.4, A074502400011 0.680 -> 3.93HR,DG,1157.1,0.999. Correction was A074502400012 confirmed by A.Goswami (2014-08-18). A074502400013 ENDBIB 11 0 A074502400014 NOCOMMON 0 0 A074502400015 DATA 4 4 A074502400016 EN DATA DATA-ERR MISC A074502400017 MEV MB MB MEV A074502400018 100. 0.8 0.13 58.05705 A074502400019 108. 1.9 0.2 62.44729 A074502400020 116. 3.3 0.23 66.83754 A074502400021 124. 6.18 0.6 71.22778 A074502400022 ENDDATA 6 0 A074502400023 ENDSUBENT 22 0 A074502499999 ENDENTRY 24 0 A074599999999