ENTRY C1515 20070302 C080C151500000001 SUBENT C1515001 20070302 C080C151500100001 BIB 9 20 C151500100002 INSTITUTE (1CANUWO) C151500100003 REFERENCE (J,NIM/B,61,1,1991) C151500100004 AUTHOR (W.N.Lennard,G.R.Massoumi,P.F.A.Alkemade,I.V.Mitchell, C151500100005 S.Y.Tong) C151500100006 TITLE Revisiting the 12C(d,p)13C reaction cross section C151500100007 using condensed gas targets C151500100008 FACILITY (VDG,1CANUWO) the 2.5 MV Van de Graaff accelerator at C151500100009 the University of Western Ontario. C151500100010 INC-SPECT Deuteron beam of 735-1182 keV energy C151500100011 SAMPLE The gases chosen for these experiments were CO, CO2 C151500100012 and CH3OH, i.e. all contain both carbon and oxygen C151500100013 atoms. The freezing points at atmospheric pressure C151500100014 are 74, 195 and 179 K, respectively. The cooling C151500100015 stage temperature was held at - 56 K, adequate to C151500100016 maintain the gas layers in the condensed phase. C151500100017 DETECTOR (SIBAR) A Bi-implanted Si standard was used to C151500100018 determine the detection solid angle via a C151500100019 measurement of the elastic scattering yield for C151500100020 incident 1 MeV 4He+ ions. C151500100021 HISTORY (20070302C) DR C151500100022 ENDBIB 20 0 C151500100023 NOCOMMON 0 0 C151500100024 ENDSUBENT 23 0 C151500199999 SUBENT C1515002 20070302 C080C151500200001 BIB 3 3 C151500200002 REACTION (6-C-12(D,P)6-C-13,,DA) C151500200003 STATUS (TABLE) Data taken from Table 3 C151500200004 ERR-ANALYS (DATA-ERR) The typical uncertainty is +/- 5% C151500200005 ENDBIB 3 0 C151500200006 COMMON 2 3 C151500200007 DATA-ERR ANG C151500200008 PER-CENT ADEG C151500200009 5. 150. C151500200010 ENDCOMMON 3 0 C151500200011 DATA 2 31 C151500200012 EN DATA C151500200013 KEV MB/SR C151500200014 735. 2.2 C151500200015 760. 2.9 C151500200016 784. 4.2 C151500200017 809. 5.9 C151500200018 833. 8.8 C151500200019 858. 13.0 C151500200020 883. 20.5 C151500200021 907. 25.9 C151500200022 915. 32.8 C151500200023 932. 31.0 C151500200024 942. 30.9 C151500200025 952. 30.0 C151500200026 956. 29.6 C151500200027 961. 29.0 C151500200028 966. 28.3 C151500200029 970. 21.9 C151500200030 972. 27.8 C151500200031 976. 21.2 C151500200032 981. 26.1 C151500200033 991. 26.1 C151500200034 1001. 25.9 C151500200035 1011. 26.1 C151500200036 1021. 26.1 C151500200037 1031. 27.6 C151500200038 1035. 28.0 C151500200039 1059. 32.4 C151500200040 1084. 41.7 C151500200041 1109. 53.4 C151500200042 1133. 69.6 C151500200043 1158. 83.7 C151500200044 1182. 93.0 C151500200045 ENDDATA 33 0 C151500200046 ENDSUBENT 45 0 C151500299999 SUBENT C1515003 20070302 C080C151500300001 BIB 3 3 C151500300002 REACTION (8-O-16(D,P)8-O-17,PAR,DA) C151500300003 STATUS (TABLE) Data taken from Table 3 C151500300004 ERR-ANALYS (DATA-ERR) The typical uncertainty is +/- 5% C151500300005 ENDBIB 3 0 C151500300006 COMMON 3 3 C151500300007 E-EXC DATA-ERR ANG C151500300008 MEV PER-CENT ADEG C151500300009 0.870 5. 150. C151500300010 ENDCOMMON 3 0 C151500300011 DATA 2 31 C151500300012 EN DATA C151500300013 KEV MB/SR C151500300014 735. 3.3 C151500300015 760. 3.9 C151500300016 784. 5.0 C151500300017 809. 5.0 C151500300018 833. 5.2 C151500300019 858. 5.1 C151500300020 883. 5.0 C151500300021 907. 5.1 C151500300022 915. 5.3 C151500300023 932. 5.8 C151500300024 942. 6.1 C151500300025 952. 8.7 C151500300026 956. 10.3 C151500300027 961. 10.9 C151500300028 966. 12.6 C151500300029 970. 12.9 C151500300030 972. 13.4 C151500300031 976. 12.3 C151500300032 981. 11.8 C151500300033 991. 10.3 C151500300034 1001. 8.9 C151500300035 1011. 8.3 C151500300036 1021. 7.1 C151500300037 1031. 6.0 C151500300038 1035. 5.6 C151500300039 1059. 4.0 C151500300040 1084. 2.9 C151500300041 1109. 2.4 C151500300042 1133. 2.4 C151500300043 1158. 2.5 C151500300044 1182. 2.1 C151500300045 ENDDATA 33 0 C151500300046 ENDSUBENT 45 0 C151500399999 ENDENTRY 3 0 C151599999999