ENTRY C1760 20091228 C100C176000000001 SUBENT C1760001 20091228 C100C176000100001 BIB 11 31 C176000100002 TITLE Experimental study of the 56Ni(3He,d)57Cu reaction C176000100003 in inverse kinematics C176000100004 AUTHOR (C.L.Jiang,K.E.Rehm,D.Ackermann,I.Ahmad,J.P.Greene, C176000100005 B.Harss,D.Henderson,W.F.Henning,R.V.F.Janssens, C176000100006 J.Nolen,R.C.Pardo,P.Reiter,J.P.Schiffer,D.Seweryniak, C176000100007 A.Sonzogni,J.Uusitalo,I.Wiedenhover,A.H.Wuosmaa, C176000100008 F.Brumwell,G.McMichael,M.Paul,R.E.Segel) C176000100009 INSTITUTE (1USAANL,3ISLHEB,1USANWU) C176000100010 REFERENCE (J,PR/C,80,044613,2009) C176000100011 FACILITY (LINAC,1USAANL)Experiment performed using the C176000100012 superconducting heavy-ion accelerator ATLAS. C176000100013 SAMPLE Cylindrical 3He gas cell with diameter of 10mm and C176000100014 thickness of2mm. 3He gas cooled to liquid nitrogen C176000100015 temperatures, to increase the 3He density. The C176000100016 entrance and exit foils of the target consist of 1.9 C176000100017 mg/cm2 thick HAVAR foils. At a temperature of 89 K C176000100018 and a pressure of 700 mbar, the total target C176000100019 thickness is 65 mu-g/cm2 or 1.35E+19 particles/cm2. C176000100020 DETECTOR (SISD) Outgoing deuterons were detected in a barrel- C176000100021 shaped, position-sensitive detector array consisting C176000100022 of six 5x5 cm2 Si strip detectors (with a strip C176000100023 width of 2 mm) arranged as a hexagon in the forward C176000100024 direction, covering the angular range theta-lab = C176000100025 45-76deg and corresponding to a solid angle of about C176000100026 2.7 sr. C176000100027 METHOD Data measured in inverse kinematics C176000100028 ERR-ANALYS (ERR-S) The uncertainties are dominated by counting C176000100029 statistics and estimated to be 40% in most cases. C176000100030 HISTORY (20091228C) Compiled by S.H. C176000100031 COMMENT Bombarding energy was 290 MeV, but the projectile C176000100032 energy in the middle of the target was 250 MeV. C176000100033 ENDBIB 31 0 C176000100034 COMMON 1 3 C176000100035 EN C176000100036 MEV C176000100037 250.0 C176000100038 ENDCOMMON 3 0 C176000100039 ENDSUBENT 38 0 C176000199999 SUBENT C1760002 20091228 C100C176000200001 BIB 3 5 C176000200002 REACTION ((2-HE-3(28-NI-56,D)29-CU-57,PAR,DA,RSD)= C176000200003 (28-NI-56(HE3,D)29-CU-57,PAR,DA)) C176000200004 STATUS (CURVE) Data taken from fig. 6 of the reference C176000200005 Waiting for data from author C176000200006 EN-SEC (E-LVL,29-CU-57) C176000200007 ENDBIB 5 0 C176000200008 COMMON 1 3 C176000200009 E-LVL C176000200010 MEV C176000200011 0.0 C176000200012 ENDCOMMON 3 0 C176000200013 DATA 4 6 C176000200014 ANG ANG-ERR DATA ERR-S C176000200015 ADEG ADEG MB/SR MB/SR C176000200016 36.46 3.81 9.37E-01 9.88E-01 C176000200017 43.49 3.51 2.75E+00 1.47E+00 C176000200018 50.08 3.51 3.80E+00 1.89E+00 C176000200019 56.08 2.93 2.88E+00 1.97E+00 C176000200020 61.79 2.64 3.39E+00 2.42E+00 C176000200021 67.06 2.64 1.09E+00 2.11E+00 C176000200022 ENDDATA 8 0 C176000200023 ENDSUBENT 22 0 C176000299999 SUBENT C1760003 20091228 C100C176000300001 BIB 3 5 C176000300002 REACTION ((2-HE-3(28-NI-56,D)29-CU-57,PAR,DA,RSD)= C176000300003 (28-NI-56(HE3,D)29-CU-57,PAR,DA)) C176000300004 STATUS (CURVE) Data taken from fig. 6 of the reference C176000300005 Waiting for data from author C176000300006 EN-SEC (E-EXC,29-CU-57) C176000300007 ENDBIB 5 0 C176000300008 COMMON 2 3 C176000300009 E-EXC E-EXC C176000300010 MEV MEV C176000300011 1.028 1.106 C176000300012 ENDCOMMON 3 0 C176000300013 DATA 4 7 C176000300014 ANG ANG-ERR DATA ERR-S C176000300015 ADEG ADEG MB/SR MB/SR C176000300016 37.59 4.54 6.14E-01 6.43E-01 C176000300017 46.37 4.10 7.03E-01 8.57E-01 C176000300018 53.66 3.51 1.92E+00 1.36E+00 C176000300019 60.10 2.93 2.03E+00 1.64E+00 C176000300020 65.98 2.49 9.30E-01 1.61E+00 C176000300021 71.26 2.64 5.58E-01 1.68E+00 C176000300022 76.09 2.64 6.56E-01 1.98E+00 C176000300023 ENDDATA 9 0 C176000300024 ENDSUBENT 23 0 C176000399999 ENDENTRY 3 0 C176099999999