ENTRY A0682 20170211 A087A068200000001 SUBENT A0682001 20170211 A087A068200100001 BIB 14 45 A068200100002 TITLE Incomplete fusion reactions in 12-C + 103-Rh at A068200100003 4-7 MeV/nucleon A068200100004 REFERENCE (J,PR/C,59,2923,1999) A068200100005 REL-REF (R,,U.Reus+,J,AND,29,1,1983) Decay data A068200100006 AUTHOR (B.Bindu Kumar, Anil Sharma, S.Mukherjee, A068200100007 S.Chakrabarty, P.K.Pujari, B.S.Tomar, A.Goswami, A068200100008 S.B.Manohar, S.K.Datta) A068200100009 INSTITUTE (3INDVUU) School of Studies in Physics. A068200100010 (3INDTRM) Radiochemistry division. A068200100011 (3INDNSD) Nuclear Science Centre. A068200100012 FACILITY (VDGT,3INDTRM) The experiments at 76-84 MeV A068200100013 (VDGT,3INDNSD) The experiments at 50-71 MeV A068200100014 SAMPLE In NSD experiment stacks of three self-supporting A068200100015 ~600 mug/cm2 rhodium metal foils interspersed with A068200100016 2-mg/cm2-thick Al foils were used. A068200100017 In TRM targets of metallic rhodium of thickness A068200100018 around 100 mu-gm/cm2 with 100 mu-gm/cm2 Al backing A068200100019 were used. The catchers used were evaporated aluminum A068200100020 foils, typically 100 mugm/cm2 thick. A068200100021 DETECTOR (HPGE) precalibrated 60cc HPGe detector coupled A068200100022 to a 4 K MCA. A068200100023 ANALYSIS (DECAY,AREA) A068200100024 METHOD (EXTB) 12-C beam. A068200100025 (ACTIV) An irradiation time of about 1-2 hours was A068200100026 selected according to the half lives of the A068200100027 radioisotopes produced. The total charge collected for A068200100028 each irradiation was about 400-600 microCoulombs. A068200100029 (BCINT) A068200100030 (STTA) A068200100031 (GSPEC) A068200100032 STATUS (TABLE) Data were received from authors. A068200100033 ADD-RES (COMP) PACE2 code. A068200100034 ERR-ANALYS (ERR-T) The errors on the cross section arises mostly A068200100035 from: A068200100036 (ERR-S,1.,4.) Uncertainty in counting statistics (1-4%)A068200100037 (ERR-1,5.,6.) Uncertainty in target thickness (5 - 8%),A068200100038 (ERR-2) Uncertainty in detection efficiency (4%), A068200100039 (ERR-3,,5.) Uncertainty in beam fluence (<5%), A068200100040 (ERR-4,5.,10.) Uncertainty in gamma-ray intensity A068200100041 values (5-10%).A068200100042 HISTORY (20040705C) A068200100043 (20040713R) Data tables were received from S.Mukherjee A068200100044 (20050120A) Reaction line is corrected in A0682008 A068200100045 (20050120U) Last checking has been done. A068200100046 (20170211U) SD: Institute code corrected. BIB update. A068200100047 ENDBIB 45 0 A068200100048 COMMON 1 3 A068200100049 ERR-2 A068200100050 PER-CENT A068200100051 4. A068200100052 ENDCOMMON 3 0 A068200100053 ENDSUBENT 52 0 A068200199999 SUBENT A0682002 20050120 0000A068200200001 BIB 2 5 A068200200002 REACTION (45-RH-103(6-C-12,X)50-SN-111,CUM,SIG) A068200200003 COMMENT -By authors. The excitation functions for the 111Sn A068200200004 agree well with the PACE code calculations. It is A068200200005 quite obvious as the Sn products originate from A068200200006 the Complete Fusion process. A068200200007 ENDBIB 5 0 A068200200008 NOCOMMON 0 0 A068200200009 DATA 3 8 A068200200010 EN DATA ERR-T A068200200011 MEV MB MB A068200200012 83.8 111.03 15.9 A068200200013 79.8 271. 39.02 A068200200014 76.4 308. 44.35 A068200200015 71.8 550.1 79.2 A068200200016 67.7 591.6 85.19 A068200200017 63.4 362.7 52.22 A068200200018 59.5 198.03 28.53 A068200200019 54.8 146.07 21. A068200200020 ENDDATA 10 0 A068200200021 ENDSUBENT 20 0 A068200299999 SUBENT A0682003 20050120 0000A068200300001 BIB 2 5 A068200300002 REACTION (45-RH-103(6-C-12,X)50-SN-110,CUM,SIG) A068200300003 COMMENT -By authors. The excitation functions for the 110-Sn A068200300004 agree well with the PACE code calculations. It is A068200300005 quite obvious as the Sn products originate from A068200300006 the Complete Fusion process. A068200300007 ENDBIB 5 0 A068200300008 NOCOMMON 0 0 A068200300009 DATA 3 8 A068200300010 EN DATA ERR-T A068200300011 MEV MB MB A068200300012 83.8 368. 55.2 A068200300013 79.8 306. 45.9 A068200300014 76.4 232. 34.8 A068200300015 71.8 212.7 31.9 A068200300016 67.7 91.5 13.72 A068200300017 63.4 20.19 3.02 A068200300018 59.5 3.45 0.517 A068200300019 54.8 0.27 0.04 A068200300020 ENDDATA 10 0 A068200300021 ENDSUBENT 20 0 A068200399999 SUBENT A0682004 20050120 0000A068200400001 BIB 2 5 A068200400002 REACTION (45-RH-103(6-C-12,X)49-IN-111-G,IND/M+,SIG) A068200400003 COMMENT -By authors. The excitation functions for the 111-In A068200400004 agree well with the PACE code calculations. It is A068200400005 quite obvious as the In products originate from A068200400006 the Complete Fusion process. A068200400007 ENDBIB 5 0 A068200400008 NOCOMMON 0 0 A068200400009 DATA 3 9 A068200400010 EN DATA ERR-T A068200400011 MEV MB MB A068200400012 83.8 292. 35.04 A068200400013 79.8 428. 51.36 A068200400014 76.4 544.3 65.3 A068200400015 71.8 994.1 119. A068200400016 67.7 960.7 115. A068200400017 63.4 637.2 76.4 A068200400018 59.5 378.4 45.4 A068200400019 54.8 260.7 31.2 A068200400020 50.4 30.35 3.64 A068200400021 ENDDATA 11 0 A068200400022 ENDSUBENT 21 0 A068200499999 SUBENT A0682005 20050120 0000A068200500001 BIB 2 9 A068200500002 REACTION (45-RH-103(6-C-12,X)49-IN-110,(CUM),SIG) A068200500003 COMMENT -By authors. The excitation functions for the A068200500004 110-In agree well with the pace code calculations. It A068200500005 is quite obvious as the product originate from A068200500006 the Complete Fusion process. A068200500007 -By compiler. Original text does not permit to A068200500008 understand what isomer (may be both) production cross A068200500009 section has been measured. 110-in has two isomers: A068200500010 69 minutes and 4.9 hours. A068200500011 ENDBIB 9 0 A068200500012 NOCOMMON 0 0 A068200500013 DATA 3 9 A068200500014 EN DATA ERR-T A068200500015 MEV MB MB A068200500016 83.8 67.9 8.14 A068200500017 79.8 50.4 6.04 A068200500018 76.4 35.6 4.27 A068200500019 71.8 28.82 3.4 A068200500020 67.7 10.78 1.2 A068200500021 63.4 5.29 0.63 A068200500022 59.5 5.03 0.6 A068200500023 54.8 14.05 1.6 A068200500024 50.4 13.07 1.5 A068200500025 ENDDATA 11 0 A068200500026 ENDSUBENT 25 0 A068200599999 SUBENT A0682006 20050120 0000A068200600001 BIB 2 11 A068200600002 REACTION (45-RH-103(6-C-12,X)49-IN-109,CUM,SIG) A068200600003 COMMENT -By authors. The cross sections of the products 111-InA068200600004 and 110-In agree with the theoretical predictions whileA068200600005 those of 109-In show an enhancement. It can be A068200600006 inferred that the products 110,111-In are formed from A068200600007 the Complete Fusion process while 109-In have A068200600008 contributions from the Incomplete Fusion involving the A068200600009 breakup of 12-C into alpha+8Be and the subsequent A068200600010 fusion of 8Be with target forming 111In*. This A068200600011 incompletely fused composite nucleus emits further A068200600012 neutrons forming 109-In. A068200600013 ENDBIB 11 0 A068200600014 NOCOMMON 0 0 A068200600015 DATA 3 9 A068200600016 EN DATA ERR-T A068200600017 MEV MB MB A068200600018 83.8 92.5 12.02 A068200600019 79.8 59.5 7.735 A068200600020 76.4 59.8 7.774 A068200600021 71.8 126.2 16.4 A068200600022 67.7 173.1 22.5 A068200600023 63.4 185.6 24.1 A068200600024 59.5 145. 18.8 A068200600025 54.8 219.6 28.5 A068200600026 50.4 87.84 11.4 A068200600027 ENDDATA 11 0 A068200600028 ENDSUBENT 27 0 A068200699999 SUBENT A0682007 20050120 0000A068200700001 BIB 2 15 A068200700002 REACTION (45-RH-103(6-C-12,X)49-IN-108,CUM,SIG) A068200700003 COMMENT -By authors. The cross sections of the products 111-InA068200700004 and 110-In agree with the theoretical predictions whileA068200700005 those of 108-In show an enhancement. It can be A068200700006 inferred that the products 110,111-In are formed from A068200700007 the Complete Fusion process while 108-In have A068200700008 contributions from the Incomplete Fusion involving the A068200700009 breakup of 12-C into alpha+8Be and the subsequent A068200700010 fusion of 8Be with target forming 111In*. This A068200700011 incompletely fused composite nucleus emits further A068200700012 neutrons forming 108-In. A068200700013 -By compiler. Original text does not permit to A068200700014 understand what isomer (may be both) production cross A068200700015 section has been measured. 108-in has two isomers: A068200700016 58 and 39 minutes. A068200700017 ENDBIB 15 0 A068200700018 NOCOMMON 0 0 A068200700019 DATA 3 8 A068200700020 EN DATA ERR-T A068200700021 MEV MB MB A068200700022 83.8 122.3 15.8 A068200700023 79.8 146.6 19.1 A068200700024 76.4 140.2 18.2 A068200700025 71.8 205.68 26. A068200700026 67.7 156. 20. A068200700027 63.4 79.19 10.2 A068200700028 59.5 29.8 3.87 A068200700029 54.8 9.21 1.19 A068200700030 ENDDATA 10 0 A068200700031 ENDSUBENT 30 0 A068200799999 SUBENT A0682008 20050120 0000A068200800001 BIB 2 10 A068200800002 REACTION (45-RH-103(6-C-12,X)47-AG-106-M,,SIG) A068200800003 COMMENT -By authors. PACE 2 predictions underestimate the crossA068200800004 section for products 106-Ag while it agrees for 104-Ag.A068200800005 It may be due to the Incomplete Fusion reaction A068200800006 involving breaking of 12-C into alpha+8Be and the A068200800007 fusion of alpha with the target. A068200800008 -By compiler. Original text does not permit to A068200800009 understand what isomer (may be both) production cross A068200800010 section has been measured. 106-Ag has two isomers: A068200800011 6.3 days and 24 minutes. A068200800012 ENDBIB 10 0 A068200800013 NOCOMMON 0 0 A068200800014 DATA 3 8 A068200800015 EN DATA ERR-T A068200800016 MEV MB MB A068200800017 83.8 16.7 2.29 A068200800018 79.8 20.5 2.99 A068200800019 76.4 28.7 4.16 A068200800020 71.8 46.2 6.75 A068200800021 67.7 40.6 5.89 A068200800022 63.4 31.5 4.59 A068200800023 59.5 22.3 3.26 A068200800024 54.8 16.4 2.39 A068200800025 ENDDATA 10 0 A068200800026 ENDSUBENT 25 0 A068200899999 SUBENT A0682009 20050120 0000A068200900001 BIB 2 6 A068200900002 REACTION (45-RH-103(6-C-12,X)47-AG-105,CUM,SIG) A068200900003 COMMENT -By authors. PACE 2 predictions underestimate the crossA068200900004 section for products 105-Ag while it agrees for 104-Ag.A068200900005 It may be due to the Incomplete Fusion reaction A068200900006 involving breaking of 12-C into alpha+8Be and the A068200900007 fusion of alpha with the target. A068200900008 ENDBIB 6 0 A068200900009 NOCOMMON 0 0 A068200900010 DATA 3 6 A068200900011 EN DATA ERR-T A068200900012 MEV MB MB A068200900013 83.8 47.2 6.84 A068200900014 79.8 54.1 7.84 A068200900015 76.4 51.2 7.42 A068200900016 71.8 71.3 10.3 A068200900017 67.7 39.7 5.76 A068200900018 63.4 16.8 2.45 A068200900019 ENDDATA 8 0 A068200900020 ENDSUBENT 19 0 A068200999999 SUBENT A0682010 20050120 0000A068201000001 BIB 2 10 A068201000002 REACTION (45-RH-103(6-C-12,X)47-AG-104,(CUM),SIG) A068201000003 COMMENT -By authors. PACE 2 predictions underestimate the crossA068201000004 section for products 106-Ag while it agrees for 104-Ag.A068201000005 It may be due to the Incomplete Fusion reaction A068201000006 involving breaking of 12-C into alpha+8Be and the A068201000007 fusion of alpha with the target. A068201000008 -By compiler. Original text does not permit to A068201000009 understand what isomer (may be both) production cross A068201000010 section has been measured. 104-Ag has two isomers: A068201000011 33 and 69 minutes. A068201000012 ENDBIB 10 0 A068201000013 NOCOMMON 0 0 A068201000014 DATA 3 4 A068201000015 EN DATA ERR-T A068201000016 MEV MB MB A068201000017 83.8 16.1 2.35 A068201000018 79.8 8.63 1.27 A068201000019 76.4 4.31 0.64 A068201000020 71.8 1.87 0.28 A068201000021 ENDDATA 6 0 A068201000022 ENDSUBENT 21 0 A068201099999 ENDENTRY 10 0 A068299999999