ENTRY 30289 20081203 31323028900000001 SUBENT 30289001 20081203 31323028900100001 BIB 10 24 3028900100002 INSTITUTE (3SRBBKB) 3028900100003 REFERENCE (J,BKN,22,(1),1,1971) Full information 3028900100004 AUTHOR (V.Markovic,A.Kocic) 3028900100005 TITLE Measurement of the thermal effective cross section and 3028900100006 the effective resonance integral of copper and tantalum3028900100007 using the pile oscillator method. 3028900100008 FACILITY (OSCIP) Heavy-water RB reactor with oscillator ROB-1. 3028900100009 METHOD Pile oscillator technique with a 36 seconds period and 3028900100010 a transition time less than 1 second. 3028900100011 ANALYSIS Westcott formalism 3028900100012 MONITOR ((MONIT1)5-B-0(N,ABS),,SIG) 3028900100013 The proportionality factor was determined 3028900100014 with B2-O3 samples. 3028900100015 ((MONIT2)79-AU-197(N,G)79-AU-198,,SIG) 3028900100016 ((MONIT3)79-AU-197(N,G)79-AU-198,,RI) 3028900100017 The epithermal fraction of neutrons was 3028900100018 determined using gold foils and 3028900100019 assuming a 'g' factor equal to 1.0053. 3028900100020 HISTORY (19750612C) CA. 3028900100021 (20080423A) BIB section updated 3028900100022 ERR-ANALYS (DATA-ERR) The errors given include 3028900100023 .Statistical error 3028900100024 .Uncertainties on the standard values 3028900100025 .Uncertainty on the number of atoms in the samples. 3028900100026 ENDBIB 24 0 3028900100027 COMMON 7 6 3028900100028 EN-NRM MONIT1 MONIT1-ERR MONIT2 MONIT2-ERR MONIT3 3028900100029 MONIT3-ERR 3028900100030 EV B B B B B 3028900100031 B 3028900100032 2.5300E-02 7.5900E+02 2.0000E+00 9.8900E+01 2.0000E-01 1.5400E+033028900100033 3.0000E+01 3028900100034 ENDCOMMON 6 0 3028900100035 ENDSUBENT 34 0 3028900199999 SUBENT 30289002 20081203 31323028900200001 BIB 1 1 3028900200002 REACTION (29-CU-0(N,G),,SIG,,MXW) 3028900200003 ENDBIB 1 0 3028900200004 COMMON 1 3 3028900200005 EN-DUMMY 3028900200006 EV 3028900200007 2.5300E-02 3028900200008 ENDCOMMON 3 0 3028900200009 DATA 2 1 3028900200010 DATA DATA-ERR 3028900200011 B B 3028900200012 3.8500E+00 5.0000E-02 3028900200013 ENDDATA 3 0 3028900200014 ENDSUBENT 13 0 3028900299999 SUBENT 30289003 20081203 31323028900300001 BIB 1 1 3028900300002 REACTION (29-CU-0(N,G),,RI,,RNV) 3028900300003 ENDBIB 1 0 3028900300004 COMMON 1 3 3028900300005 EN-MIN 3028900300006 EV 3028900300007 5.5000E-01 3028900300008 ENDCOMMON 3 0 3028900300009 DATA 2 1 3028900300010 DATA DATA-ERR 3028900300011 B B 3028900300012 2.0000E+00 3.0000E-01 3028900300013 ENDDATA 3 0 3028900300014 ENDSUBENT 13 0 3028900399999 SUBENT 30289004 20081203 31323028900400001 BIB 1 1 3028900400002 REACTION (73-TA-181(N,G)73-TA-182,,SIG,,MXW) 3028900400003 ENDBIB 1 0 3028900400004 COMMON 1 3 3028900400005 EN-DUMMY 3028900400006 EV 3028900400007 2.5300E-02 3028900400008 ENDCOMMON 3 0 3028900400009 DATA 2 1 3028900400010 DATA DATA-ERR 3028900400011 B B 3028900400012 2.4700E+01 2.0000E-01 3028900400013 ENDDATA 3 0 3028900400014 ENDSUBENT 13 0 3028900499999 SUBENT 30289005 20081203 31323028900500001 BIB 1 1 3028900500002 REACTION (73-TA-181(N,G)73-TA-182,,RI,,RNV) 3028900500003 ENDBIB 1 0 3028900500004 COMMON 1 3 3028900500005 EN-MIN 3028900500006 EV 3028900500007 5.5000E-01 3028900500008 ENDCOMMON 3 0 3028900500009 DATA 2 1 3028900500010 DATA DATA-ERR 3028900500011 B B 3028900500012 5.3700E+02 1.8000E+01 3028900500013 ENDDATA 3 0 3028900500014 ENDSUBENT 13 0 3028900599999 ENDENTRY 5 0 3028999999999