ENTRY D6228 20150122 D100D622800000001 SUBENT D6228001 20150122 D100D622800100001 BIB 10 30 D622800100002 TITLE Evaporation residue excitation function and spin D622800100003 distribution for 31P + 170Er D622800100004 AUTHOR (G.Mohanto, N.Madhavan, S.Nath, J.Gehlot, Ish Mukul, D622800100005 A.Jhingan, T.Varughese, A.Roy, R.K.Bhowmik, D622800100006 I.Mazumdar, D.A.Gothe, P.B.Chavan, J.Sadhukhan, S.Pal,D622800100007 Maninder Kaur, Varinderjit Singh, A.K.Sinha, D622800100008 V.S.Ramamurthy) D622800100009 INSTITUTE (3INDNSD,3INDTAT,1USATEN,1USAORL,3INDPUC) D622800100010 (3INDIND) CS-6/1, Golf Green, Kolkata D622800100011 (3INDIND) UGC-DAE CSR, Kolkata Centre, 3/LB-8, Bidhan D622800100012 Nagar, Kolkata D622800100013 (3INDIND)National Institute of Advanced Studies, D622800100014 Indian Institute of Science Campus, Bangalore D622800100015 REFERENCE (J,PR/C,88,034606,2013) D622800100016 FACILITY (VDGT,3INDNSD) 15UD Pelletron facility D622800100017 SAMPLE Enriched (>97%) 170Er target of thickness 130 ug/cm2 D622800100018 DETECTOR (MWPC,SISD)Focal Plane detectors:MWPC with an active D622800100019 area of 5x15cm2. A double sided silicon strip detector D622800100020 with 16 strips of on each side and area 5x5cm2, was D622800100021 placed behind the MWPC. These two detector measure D622800100022 energy loss(delta E) and residual energy of th ERs D622800100023 respectively. D622800100024 METHOD (ASEP)Experimet carried using Hybrid Recoil Mass D622800100025 Analyser (HYRA) set-up; a dual-mode, dual-stage D622800100026 recoil mass separator and spectrometer. Ers produced D622800100027 separated from the intense beam background and D622800100028 collected at the focal plane detector. D622800100029 ERR-ANALYS (ERR-1) Uncertainty in the estimation of transnission D622800100030 efficiency of the HYRA(~15%) D622800100031 HISTORY (20150122C) Compiled by Parveen D622800100032 ENDBIB 30 0 D622800100033 COMMON 1 3 D622800100034 ERR-1 D622800100035 PER-CENT D622800100036 15. D622800100037 ENDCOMMON 3 0 D622800100038 ENDSUBENT 37 0 D622800199999 SUBENT D6228002 20150122 D100D622800200001 BIB 2 2 D622800200002 REACTION (68-ER-170(14-SI-30,FUS),,SIG,ER) D622800200003 STATUS (TABLE) Plotted in Fig.3 of Phy.Rev.C,88(2013)034606 D622800200004 ENDBIB 2 0 D622800200005 NOCOMMON 0 0 D622800200006 DATA 2 8 D622800200007 EN DATA D622800200008 MEV MB D622800200009 126.0 11.54743 D622800200010 130.1 77.04022 D622800200011 135.2 99.91207 D622800200012 140.3 199.0113 D622800200013 145.4 168.30357 D622800200014 150.5 207.38767 D622800200015 155.6 222.06688 D622800200016 160.7 209. D622800200017 ENDDATA 10 0 D622800200018 ENDSUBENT 17 0 D622800299999 SUBENT D6228003 20150122 D100D622800300001 BIB 2 2 D622800300002 REACTION (68-ER-170(15-P-31,FUS),,SIG,ER) D622800300003 STATUS (TABLE) Plotted in Fig.5 of Phy.Rev.C,88(2013)034606 D622800300004 ENDBIB 2 0 D622800300005 NOCOMMON 0 0 D622800300006 DATA 2 10 D622800300007 EN DATA D622800300008 MEV MB D622800300009 134.424 16.19 D622800300010 136.489 25.2 D622800300011 141.648 64.92 D622800300012 146.701 112.71 D622800300013 151.955 116.8 D622800300014 156.999 118.66 D622800300015 162.142 151.11 D622800300016 167.281 175.16 D622800300017 172.008 177.78 D622800300018 177.243 165.32 D622800300019 ENDDATA 12 0 D622800300020 ENDSUBENT 19 0 D622800399999 ENDENTRY 3 0 D622899999999