ENTRY C1695 20171113 C171C169500000001 SUBENT C1695001 20171113 C171C169500100001 BIB 6 8 C169500100002 TITLE Total Cross Section and Stellar Reaction Rates for C169500100003 the 58Ni(p,gamma)59Cu Reaction C169500100004 AUTHOR (T.H.Hall,J.M.Cameron,R.H.McCamis,G.A.Moss) C169500100005 REFERENCE (J,CJP,53,(5),445,1975) C169500100006 #doi:10.1139/p75-056 C169500100007 INSTITUTE (1CANALA) C169500100008 FACILITY (ACCEL,1CANALA) C169500100009 HISTORY (20171113C) BP C169500100010 ENDBIB 8 0 C169500100011 NOCOMMON 0 0 C169500100012 ENDSUBENT 11 0 C169500199999 SUBENT C1695002 20171113 C171C169500200001 BIB 7 17 C169500200002 REACTION (28-NI-58(P,G)29-CU-59,,SIG) C169500200003 SAMPLE (28-NI-58,ENR=0.9989) A natural nickel foil (65 keV C169500200004 thick to 3 MeV protons) and three enriched 58Ni C169500200005 targets (25-33 keV thick to 3 MeV protons), the C169500200006 latter made by electroplating Ni enriched to 99.89% C169500200007 in 58Ni onto gold. C169500200008 DETECTOR (GELI) The gamma rays were detected with 76 cc C169500200009 coaxial Ge(Li) detector. C169500200010 METHOD (ACTIV) C169500200011 ERR-ANALYS (ERR-T) Absolute errors. This includes errors due to C169500200012 counting statistics and determination of peak C169500200013 intensities, and three additional systematic errors: C169500200014 (ERR-1) Target thickness. C169500200015 (ERR-2) Efficiency error. C169500200016 (ERR-3) Charge integration. C169500200017 DECAY-DATA (29-CU-59,82.SEC,DG,1301.5,0.146) C169500200018 STATUS (TABLE) Table 1, page 447. C169500200019 ENDBIB 17 0 C169500200020 COMMON 3 3 C169500200021 ERR-1 ERR-2 ERR-3 C169500200022 PER-CENT PER-CENT PER-CENT C169500200023 2.0 7.0 5.0 C169500200024 ENDCOMMON 3 0 C169500200025 DATA 3 31 C169500200026 EN-CM DATA ERR-T C169500200027 MEV MICRO-B MICRO-B C169500200028 1.355 1.8 1.1 C169500200029 1.405 27.0 3.4 C169500200030 1.455 9.4 1.4 C169500200031 1.504 1.0 1.4 C169500200032 1.553 2.4 1.2 C169500200033 1.602 1.3 1.1 C169500200034 1.653 3.2 1.2 C169500200035 1.703 5.8 0.8 C169500200036 1.752 1.1 0.4 C169500200037 1.812 47.5 4.7 C169500200038 1.901 10.0 1.1 C169500200039 2.000 2.4 1.1 C169500200040 2.049 16.0 1.6 C169500200041 2.123 19.5 2.0 C169500200042 2.245 28.5 2.9 C169500200043 2.322 18.0 1.8 C169500200044 2.443 17.0 1.7 C169500200045 2.521 19.0 1.9 C169500200046 2.640 29.5 3.0 C169500200047 2.735 9.0 0.9 C169500200048 2.834 23.5 2.4 C169500200049 2.917 59.6 5.4 C169500200050 3.114 42.0 4.2 C169500200051 3.313 88.0 9.0 C169500200052 3.511 139.0 14.0 C169500200053 3.708 85.0 9.0 C169500200054 3.906 96.0 10.0 C169500200055 4.103 106.0 11.0 C169500200056 4.300 95.0 10.0 C169500200057 4.498 116.0 12.0 C169500200058 4.695 153.0 15.0 C169500200059 ENDDATA 33 0 C169500200060 ENDSUBENT 59 0 C169500299999 SUBENT C1695003 20171113 C171C169500300001 BIB 4 12 C169500300002 REACTION (28-NI-58(P,G)29-CU-59,,SGV) C169500300003 ERR-ANALYS (DATA-ERR) The error in the present results was C169500300004 determined by evaluating each integral two additional C169500300005 times; once employing the lowest possible C169500300006 experimental cross sections in the entire range of C169500300007 integration and again employing the highest values. C169500300008 No partial uncertainties are given. C169500300009 COMMENT Compiler's comment: The original reaction rate units C169500300010 cm3/s/g were converted to cm3/s/mol by multiplying C169500300011 the original values by 58. C169500300012 STATUS (DEP,C1695002) C169500300013 (TABLE) Table 2, page 448. C169500300014 ENDBIB 12 0 C169500300015 NOCOMMON 0 0 C169500300016 DATA 3 9 C169500300017 KT DATA DATA-ERR C169500300018 K9 CM3/S/MOL CM3/S/MOL C169500300019 2.0 2.262E+03 290. C169500300020 2.5 7.656E+03 928. C169500300021 3.0 1.7632E+04 1.914E+03 C169500300022 3.5 3.4452E+04 3.77E+03 C169500300023 4.0 5.684E+04 5.684E+03 C169500300024 4.5 8.816E+04 8.816E+03 C169500300025 5.0 1.2598E+05 1.2586E+04 C169500300026 5.5 1.7174E+05 1.7168E+04 C169500300027 6.0 2.2295E+05 2.2272E+04 C169500300028 ENDDATA 11 0 C169500300029 ENDSUBENT 28 0 C169500399999 ENDENTRY 3 0 C169599999999