ENTRY C1871 20111110 C112C187100000001 SUBENT C1871001 20111110 C112C187100100001 BIB 10 29 C187100100002 TITLE Measurement of excitation functions for the C187100100003 natMo(d,x)99Mo and natMo(p,x) 99Mo reactions C187100100004 AUTHOR (P.Chodash,C.T.Angell,J.Benitez,E.B.Norman, C187100100005 M.Pedretti,H.Shugart,E.Swanberg,R.Yee) C187100100006 INSTITUTE (1USABRK,1USALRL) C187100100007 (1USAUSA) University of California, Berkeley C187100100008 REFERENCE (J,ARI,69,1447,2011) C187100100009 FACILITY (CYCLO,1USABRK) Experiment performed at the the C187100100010 88inch cyclotron located at Lawrence Berkeley C187100100011 National Laboratory. C187100100012 DETECTOR (HPGE)The detector had a relative efficiency of 62% at C187100100013 1.33 MeV as compared with a standard NaI crystal.The C187100100014 full width at half maximum resolution of the detector C187100100015 was 1.3keV at 181 keV,2.0keV at 739keV, C187100100016 and 2.9keV at 1368keV. The activity of each C187100100017 foil was measured at a distance of 10cm from the front C187100100018 face of the detector. C187100100019 METHOD (ACTIV) C187100100020 DECAY-DATA (42-MO-99,65.95HR,DG,181.09,0.0601, C187100100021 DG,739.50,0.1212) C187100100022 ERR-ANALYS (ERR-T) Total uncertainty C187100100023 (ERR-1,1.0,5.0) Systematic uncertainty in target C187100100024 thickness C187100100025 (ERR-2,4.0,8.0) Systematic uncertainty in beam C187100100026 current C187100100027 (ERR-3,,2.0) Other syst. uncertainty in decay C187100100028 constant, atomic mass and branching ratio C187100100029 (ERR-S,1.0,3.0) Statistical uncertainty C187100100030 HISTORY (20111110C) Compiled by S.H. C187100100031 ENDBIB 29 0 C187100100032 NOCOMMON 0 0 C187100100033 ENDSUBENT 32 0 C187100199999 SUBENT C1871002 20111110 C112C187100200001 BIB 6 13 C187100200002 REACTION (42-MO-0(D,X)42-MO-99,,SIG) C187100200003 STATUS (TABLE) data taken from tab. 3 of the reference C187100200004 SAMPLE Stack of alternating layers of molybdenum and aluminum C187100200005 foils. The molybdenum foils were 99.95% pure,of C187100200006 natural isotopic composition, and were either 25 or C187100200007 102 mu-m thick. The aluminum foils were used as energy C187100200008 degraders and beam monitors. The thickness of the C187100200009 aluminum foils were 127,229 or 305 mu-m. Several Mo-Al C187100200010 stacks were used to cover the whole energy range C187100200011 MONITOR (13-AL-27(D,X)11-NA-24,,SIG) C187100200012 MONIT-REF (,,R,IAEA-TECDOC-1211,98,2004) C187100200013 DECAY-MON (11-NA-24,14.96HR,DG,1368.63,0.9999, C187100200014 DG,2754.01,0.9987) C187100200015 ENDBIB 13 0 C187100200016 NOCOMMON 0 0 C187100200017 DATA 4 31 C187100200018 EN EN-ERR DATA ERR-T C187100200019 MEV MEV MB MB C187100200020 58.5 0.6 27.7 1.5 C187100200021 56.8 0.7 28.0 1.5 C187100200022 55.1 0.7 28.7 1.6 C187100200023 53.3 0.8 28.9 1.6 C187100200024 51.6 0.8 29.1 1.6 C187100200025 50.4 0.5 32.3 1.8 C187100200026 49.7 1.0 30.5 1.7 C187100200027 48.5 0.6 33.2 1.8 C187100200028 46.6 0.6 34.4 1.9 C187100200029 44.6 0.7 35.4 1.9 C187100200030 42.6 0.8 36.0 1.9 C187100200031 41.8 0.5 36.0 2.7 C187100200032 40.5 0.9 36.7 2.0 C187100200033 39.9 0.5 36.2 2.7 C187100200034 37.8 0.5 35.9 2.7 C187100200035 35.7 0.6 37.6 2.8 C187100200036 33.4 0.7 35.8 2.7 C187100200037 32.8 0.4 39.0 2.9 C187100200038 31.1 0.8 34.9 2.6 C187100200039 30.9 0.4 37.5 2.8 C187100200040 28.9 0.5 34.5 2.5 C187100200041 26.8 0.6 32.3 2.4 C187100200042 24.5 0.7 30.0 2.2 C187100200043 22.1 0.9 29.4 2.2 C187100200044 21.7 0.3 27.9 2.1 C187100200045 20.0 0.3 30.3 2.3 C187100200046 18.2 0.4 29.6 2.2 C187100200047 16.1 0.5 34.7 2.6 C187100200048 13.9 0.6 42.0 3.1 C187100200049 11.4 0.8 48.6 3.5 C187100200050 9.7 0.9 55.1 4.0 C187100200051 ENDDATA 33 0 C187100200052 ENDSUBENT 51 0 C187100299999 SUBENT C1871003 20111110 C112C187100300001 BIB 6 15 C187100300002 REACTION (42-MO-0(P,X)42-MO-99,,SIG) C187100300003 STATUS (TABLE) data taken from tab. 4 of the reference C187100300004 SAMPLE Stack of alternating layers of molybdenum and copper C187100300005 foils. The molybdenum foils were 99.95 %pure ,of C187100300006 natural isotopic composition, and were either 25 or C187100300007 102 mu-m thick The copper foils were used as energy C187100300008 degraders and beam monitors. The thickness of the C187100300009 aluminum foils were 239 or 366 mu-m. Two Mo-Al C187100300010 stacks were used to cover the whole energy range C187100300011 MONITOR (29-CU-0(P,X)30-ZN-62,,SIG) C187100300012 (29-CU-0(P,X)30-ZN-65,,SIG) C187100300013 MONIT-REF (,,R,IAEA-TECDOC-1211,77,2004) C187100300014 DECAY-MON (30-ZN-62,9.26HR,DG,548.36,0.153, C187100300015 DG,596.56,0.26) C187100300016 (30-ZN-65,243.86D,DG,1115.54,0.506) C187100300017 ENDBIB 15 0 C187100300018 NOCOMMON 0 0 C187100300019 DATA 4 11 C187100300020 EN EN-ERR DATA ERR-T C187100300021 MEV MEV MB MB C187100300022 49.6 0.5 16.4 1.5 C187100300023 46.1 0.6 16.2 1.4 C187100300024 42.4 0.8 15.9 1.4 C187100300025 38.4 1.1 15.6 1.4 C187100300026 34.0 1.4 15.9 1.4 C187100300027 29.4 0.4 15.6 1.4 C187100300028 29.2 1.8 15.6 1.4 C187100300029 25.5 0.5 15.4 1.4 C187100300030 21.1 0.7 11.7 1.0 C187100300031 15.8 1.1 4.2 0.4 C187100300032 11.3 1.7 0.2 0.2 C187100300033 ENDDATA 13 0 C187100300034 ENDSUBENT 33 0 C187100399999 ENDENTRY 3 0 C187199999999