ENTRY 14787 20220730 150514787000 1 SUBENT 14787001 20220730 150514787001 1 BIB 12 36 14787001 2 TITLE Direct measurement of 59Ni(n,p)59Co and 59Ni(n,a) 14787001 3 56Fe at fast-neutron energies from 500 keV to 10 MeV 14787001 4 AUTHOR (S.A.Kuvin,H.Y.Lee,B.DiGiovine,C.Eiroa-Lledo, 14787001 5 A.Georgiadou,M.Herman,T.Kawano,V.Mocko,S.Mosby, 14787001 6 C.Vermeulen,D.Votaw,M.White,L.Zavorka,G.Perdikakis, 14787001 7 P.Tsintari,H.I.Kim) 14787001 8 INSTITUTE (1USALAS,3KORKAE) 14787001 9 (1USAUSA) Central Michigan University, Mount Pleasant 14787001 10 REFERENCE (J,PR/C,105,044608,2022) 14787001 11 FACILITY (LINAC,1USALAS) Experiment performed at the WNR 14787001 12 facility at the Los Alamos Neutron Science Center 14787001 13 SAMPLE (28-NI-59,ENR=0.95) The target thicknes was 91 mu- 14787001 14 g/cm2. A 59Ni target with an additional 104 mu-g/cm2 14787001 15 6LiF deposit was used to check the overall flux 14787001 16 normalization via the 6Li(n,t) 4He reaction 14787001 17 DETECTOR (SISD) Charged particles were detected using two S1 14787001 18 detectors from Micron Semiconductors Ltd., located 14787001 19 downstream of the sample, covering forward laboratory 14787001 20 angles 15-30 deg and 45-65 deg. 14787001 21 METHOD (TOF) Neutron energy was determined by time-of- 14787001 22 flight. The time structure of the proton beam 14787001 23 consisted of 100 macropulses/sec, with each 625 mu-s 14787001 24 long macropulse consisting of approximately 340 14787001 25 micropulses, each separated by 1.8 mu-s. Measurements 14787001 26 were made at flight path 15R, at a distance of 15m. 14787001 27 MONITOR (92-U-238(N,F),,SIG) 14787001 28 INC-SOURCE (SPALL) The LANSCE accelerator delivers 800 MeV 14787001 29 protons to the un moderated tungsten target at WNR, 14787001 30 generating neutrons with a broad energy spectrum via 14787001 31 spallation 14787001 32 ERR-ANALYS These systematic uncertainties are included in 14787001 33 systematic uncertainties in individual subentries. 14787001 34 (ERR-1) Systematic unc. in neutron flux normalization 14787001 35 (ERR-2) Systematic unc. in detection efficiency 14787001 36 (ERR-3) Systematic unc. in number of target atoms 14787001 37 HISTORY (20220730C) Compiled by S.H. 14787001 38 ENDBIB 36 0 14787001 39 COMMON 3 3 14787001 40 ERR-1 ERR-2 ERR-3 14787001 41 PER-CENT PER-CENT PER-CENT 14787001 42 5. 4. 5. 14787001 43 ENDCOMMON 3 0 14787001 44 ENDSUBENT 43 0 1478700199999 SUBENT 14787002 20220730 150514787002 1 BIB 3 5 14787002 2 REACTION (28-NI-59(N,P)27-CO-59,PAR,SIG) 14787002 3 ERR-ANALYS (ERR-S) Statistical uncertainty 14787002 4 (ERR-SYS) Systematic uncertainty 14787002 5 STATUS (TABLE,,S.A.Kuvin+,J,PR/C,105,044608,2022) 14787002 6 Data taken from tab.1 of the reference 14787002 7 ENDBIB 5 0 14787002 8 COMMON 1 3 14787002 9 E-LVL 14787002 10 KEV 14787002 11 0.0 14787002 12 ENDCOMMON 3 0 14787002 13 DATA 4 24 14787002 14 EN DATA ERR-S ERR-SYS 14787002 15 MEV MB MB MB 14787002 16 0.65 16.2 1.4 1.3 14787002 17 0.95 22.2 1.7 1.8 14787002 18 1.25 31.9 2.2 2.6 14787002 19 1.55 29.4 2.4 2.4 14787002 20 1.85 30.0 2.6 2.4 14787002 21 2.15 29.3 2.6 2.4 14787002 22 2.45 32.6 2.8 2.6 14787002 23 2.75 36.7 3.2 3.0 14787002 24 3.05 34.1 3.3 2.8 14787002 25 3.35 27.9 3.2 2.3 14787002 26 3.65 24.2 3.1 2.0 14787002 27 3.95 24.4 3.3 2.0 14787002 28 4.25 25.0 3.5 2.0 14787002 29 4.55 21.8 3.4 1.8 14787002 30 4.85 16.6 3.2 1.3 14787002 31 5.15 12.0 2.9 1.0 14787002 32 5.45 9.6 2.8 0.8 14787002 33 5.75 7.4 2.6 0.6 14787002 34 6.05 13.1 3.5 1.1 14787002 35 6.35 7.8 3.0 0.6 14787002 36 7.0 5.4 1.1 0.4 14787002 37 8.0 2.1 2.3 0.2 14787002 38 9.0 3.4 1.1 0.3 14787002 39 10.0 1.8 0.9 0.1 14787002 40 ENDDATA 26 0 14787002 41 ENDSUBENT 40 0 1478700299999 SUBENT 14787003 20220730 150514787003 1 BIB 3 5 14787003 2 REACTION (28-NI-59(N,P)27-CO-59,PAR,SIG) 14787003 3 ERR-ANALYS (ERR-S) Statistical uncertainty 14787003 4 (ERR-SYS) Systematic uncertainty 14787003 5 STATUS (TABLE,,S.A.Kuvin+,J,PR/C,105,044608,2022) 14787003 6 Data taken from tab.1 of the reference 14787003 7 ENDBIB 5 0 14787003 8 COMMON 2 3 14787003 9 E-EXC-MIN E-EXC-MAX 14787003 10 MEV MEV 14787003 11 1.0 2.35 14787003 12 ENDCOMMON 3 0 14787003 13 DATA 4 21 14787003 14 EN DATA ERR-S ERR-SYS 14787003 15 MEV MB MB MB 14787003 16 1.55 1.7 3.7 0.2 14787003 17 1.85 6.4 4.7 0.6 14787003 18 2.15 16.2 4.8 1.5 14787003 19 2.45 23.9 5.7 2.3 14787003 20 2.75 38.7 6.7 3.7 14787003 21 3.05 60.3 6.5 5.8 14787003 22 3.35 58.1 6.3 5.5 14787003 23 3.65 61.3 7.5 5.8 14787003 24 3.95 57.3 8.5 5.5 14787003 25 4.25 62.9 9.1 6.0 14787003 26 4.55 66.9 8.2 6.4 14787003 27 4.85 56.0 5.9 5.3 14787003 28 5.15 48.3 9.6 4.6 14787003 29 5.45 55.6 11.3 5.3 14787003 30 5.75 39.5 8.8 3.8 14787003 31 6.05 43.2 6.2 4.1 14787003 32 6.35 45.5 11.9 4.3 14787003 33 7.0 25.2 4.7 2.4 14787003 34 8.0 14.0 5.9 1.3 14787003 35 9.0 11.9 2.1 1.1 14787003 36 10.0 6.8 4.2 0.7 14787003 37 ENDDATA 23 0 14787003 38 ENDSUBENT 37 0 1478700399999 SUBENT 14787004 20220730 150514787004 1 BIB 3 7 14787004 2 REACTION (28-NI-59(N,P)27-CO-59,,SIG) 14787004 3 ERR-ANALYS (ERR-T) Total uncertainty 14787004 4 (ERR-4) Partial statistical uncertainty coming from 14787004 5 overlap correction and the subtractions to the yield 14787004 6 due to natNi(n,p) 14787004 7 STATUS (TABLE,,S.A.Kuvin+,J,PR/C,105,044608,2022) 14787004 8 Data taken from tab.1 of the reference 14787004 9 ENDBIB 7 0 14787004 10 COMMON 1 3 14787004 11 ERR-4 14787004 12 PER-CENT 14787004 13 5. 14787004 14 ENDCOMMON 3 0 14787004 15 DATA 3 24 14787004 16 EN DATA ERR-T 14787004 17 MEV MB MB 14787004 18 0.65 16.7 2.2 14787004 19 0.95 23.4 2.9 14787004 20 1.25 34.8 4.1 14787004 21 1.55 30.9 8.0 14787004 22 1.85 36.4 9.4 14787004 23 2.15 45.9 10.0 14787004 24 2.45 58.2 11.6 14787004 25 2.75 75.0 15.2 14787004 26 3.05 100.3 16.8 14787004 27 3.35 97.9 17.6 14787004 28 3.65 113.2 18.5 14787004 29 3.95 112.7 21.1 14787004 30 4.25 137.6 22.8 14787004 31 4.55 143.2 24.7 14787004 32 4.85 148.2 23.6 14787004 33 5.15 134.0 24.9 14787004 34 5.45 159.6 26.5 14787004 35 5.75 165.7 26.9 14787004 36 6.05 196.8 30.9 14787004 37 6.35 170.5 35.2 14787004 38 7.0 168.5 25.1 14787004 39 8.0 172.0 38.0 14787004 40 9.0 191.3 55.4 14787004 41 10. 187.7 86.1 14787004 42 ENDDATA 26 0 14787004 43 ENDSUBENT 42 0 1478700499999 SUBENT 14787005 20220730 150514787005 1 BIB 3 5 14787005 2 REACTION (28-NI-59(N,A)26-FE-56,PAR,SIG) 14787005 3 ERR-ANALYS (DATA-ERR) Total uncertainty composed of statistical 14787005 4 and systematic uncertainties 14787005 5 STATUS (TABLE) Data shown in fig.8 of the reference 14787005 6 sent by author S.A.K. 14787005 7 ENDBIB 5 0 14787005 8 COMMON 4 3 14787005 9 LVL-NUMB LVL-NUMB LVL-NUMB LVL-NUMB 14787005 10 NO-DIM NO-DIM NO-DIM NO-DIM 14787005 11 0. 1. 2. 3. 14787005 12 ENDCOMMON 3 0 14787005 13 DATA 3 14 14787005 14 EN DATA DATA-ERR 14787005 15 MEV MB MB 14787005 16 0.8 0.9 2.1 14787005 17 1.4 6.7 1.5 14787005 18 2.0 10.1 1.9 14787005 19 2.6 14.7 2.8 14787005 20 3.2 24.9 3.2 14787005 21 3.8 28.5 3.7 14787005 22 4.4 27.1 3.7 14787005 23 5.0 29.5 4.2 14787005 24 5.6 23.5 3.8 14787005 25 6.2 18.3 3.5 14787005 26 7.0 13.4 3.3 14787005 27 8.0 6.7 1.6 14787005 28 9.0 2.3 3.0 14787005 29 10.0 2.3 1.0 14787005 30 ENDDATA 16 0 14787005 31 ENDSUBENT 30 0 1478700599999 SUBENT 14787006 20220730 150514787006 1 BIB 3 5 14787006 2 REACTION (28-NI-59(N,A)26-FE-56,,SIG) 14787006 3 ERR-ANALYS (DATA-ERR) Total uncertainty composed of statistical 14787006 4 and systematic uncertainties 14787006 5 STATUS (TABLE) Data shown in fig.8 of the reference 14787006 6 sent by author S.A.K. 14787006 7 ENDBIB 5 0 14787006 8 NOCOMMON 0 0 14787006 9 DATA 3 14 14787006 10 EN DATA DATA-ERR 14787006 11 MEV MB MB 14787006 12 0.8 0.9 2.1 14787006 13 1.4 6.8 1.5 14787006 14 2.0 10.3 2.0 14787006 15 2.6 15.1 2.8 14787006 16 3.2 30.0 3.8 14787006 17 3.8 33.1 4.3 14787006 18 4.4 33.7 5.3 14787006 19 5.0 47.1 6.0 14787006 20 5.6 51.6 7.7 14787006 21 6.2 47.9 7.9 14787006 22 7.0 55.8 9.2 14787006 23 8.0 55.9 10.0 14787006 24 9.0 63.6 11.3 14787006 25 10.0 60.6 17.1 14787006 26 ENDDATA 16 0 14787006 27 ENDSUBENT 26 0 1478700699999 ENDENTRY 6 0 1478799999999