ENTRY 33111 20190402 31883311100000001 SUBENT 33111001 20190402 31883311100100001 BIB 15 60 3311100100002 TITLE Measurements of the cross sections of the 3311100100003 186W(n,gamma)187W, 182W(n,p)182Ta, 154Gd(n,2n)153Gd, 3311100100004 and 160Gd(n,2n)159Gd reactions at neutron energies of 3311100100005 5 to 17 MeV 3311100100006 AUTHOR (R.Makwana, S.Mukherjee, P.Mishra, H.Naik, N.L.Singh, 3311100100007 M.Mehta, K.Katovsky, S.V.Suryanarayana, V.Vansola, 3311100100008 Y.S.Sheela, M.Karkera, R.Acharya, S.Khirwadkar) 3311100100009 INSTITUTE (3INDBDA,3INDTRM,3INDMNP) 3311100100010 (3INDIND) Institute for Plasma Research, Gandhinagar 3311100100011 (3CZRCZR) Brno University of Technology, Brno 3311100100012 REFERENCE (J,PR/C,96,024608,2017) 3311100100013 FACILITY (VDGT,3INDTRM) BARC-TIFR Pelletron facility 3311100100014 SAMPLE The natural samples of W (99.97%) with thickness 1.0 3311100100015 mm and about a quarter of a circle with radius 1 to 3 3311100100016 cm were used. 3311100100017 The Gd samples were made in the form of a pellet with 3311100100018 radius of 0.65 cm and thickness from 0.5 to 1.0 mm 3311100100019 using Gd2O3 (99.9%) powder. 3311100100020 DETECTOR (HPGE) A precalibrated high purity germanium (HPGe) 3311100100021 detector with 4-K channels was used to measure the 3311100100022 gamma ray spectra. The detector was calibrated using 3311100100023 standard 152Eu multi-gamma-ray source. 3311100100024 METHOD (ACTIV) Samples of W in different set of irradiation 3311100100025 EN Mass Irrad.time Beam current 3311100100026 MEV g (h:min) nA 3311100100027 5.08 0.7826 11:15 110 3311100100028 8.96 0.504 16:05 120 3311100100029 12.47 0.8344 7:00 150 3311100100030 16.63 3.6689 5:00 150 3311100100031 Samples of Gd in different set of irradiation 3311100100032 EN Mass Irrad.time Beam current 3311100100033 MEV g (h:min) nA 3311100100034 12.47 0.9102 7:00 150 3311100100035 16.63 0.4071 5:00 150 3311100100036 MONITOR (49-IN-115(N,INL)49-IN-115-M,,SIG) 3311100100037 (90-TH-232(N,F)40-ZR-97,,SIG) 3311100100038 DECAY-MON (49-IN-115-M,4.486HR,DG,336.24,0.458) 3311100100039 (40-ZR-97,16.749HR,DG,743.36,0.930) 3311100100040 MONIT-REF (,G.Loevestam+,J,NIM/A,580,1400,2007) 3311100100041 (,Y.Agus+,J,RCA,92,63,2004) 3311100100042 (,M.S.Uddin+,J,RCA,101,613,2013) 3311100100043 (,O.A.Shcherbakov+,S,ISINN-9,257,2001) 3311100100044 (,R.K.Jain+,J,PRM,49,515,1997) 3311100100045 (,I.Garlea+,J,RRP,37,19,1992) 3311100100046 (,F.Manabe,J,TRTU,52,97,1998) 3311100100047 INC-SOURCE (P-LI7) The natural lithium foil of thickness 8.0 3311100100048 mg/cm2 was wrapped with tantalum, 3.7 mg/cm2 in front 3311100100049 and 4.12 mg/cm2 on the back. 3311100100050 The proton beam energies were 7.0, 11.0 15.0 and 3311100100051 18.8 MeV. 3311100100052 ERR-ANALYS (ERR-T) The uncertainties associated to measure 3311100100053 reaction cross sections propagated from: 3311100100054 (ERR-1,,5.) Counting rate (<=4-5%) 3311100100055 (ERR-2,,3.) Efficiency calibration (<=3%) 3311100100056 (ERR-3,,0.2) Self-absorption (<=0.2%) 3311100100057 (ERR-4,,0.001) Sample mass (<=0.001%) 3311100100058 (ERR-5,,6.) Neutron flux (<=6%) 3311100100059 (ERR-6,,3.) Intensity of gamma-ray transition (<=3%) 3311100100060 CORRECTION Low energy neutron contribution subtracted. 3311100100061 HISTORY (20190402C) VT 3311100100062 ENDBIB 60 0 3311100100063 NOCOMMON 0 0 3311100100064 ENDSUBENT 63 0 3311100199999 SUBENT 33111002 20190402 31883311100200001 BIB 4 5 3311100200002 REACTION (74-W-186(N,G)74-W-187,,SIG,,SPA) 3311100200003 SAMPLE (74-W-186,NAT=0.2843) 3311100200004 DECAY-DATA (74-W-187,24.0HR,DG,479.5,0.266, 3311100200005 DG,685.7,0.332) 3311100200006 STATUS (TABLE) Table VI of Phys. Rev. C, 96 (2017) 024608 3311100200007 ENDBIB 5 0 3311100200008 NOCOMMON 0 0 3311100200009 DATA 6 4 3311100200010 EN EN-RSL-HW DATA ERR-T MONIT1 MONIT2 3311100200011 MEV MEV MB MB MB MB 3311100200012 5.08 0.165 5.079 0.39 223.88 99.043311100200013 8.96 0.77 2.767 0.19 302.85 220.013311100200014 12.47 0.825 1.620 0.11 253.79 269.583311100200015 16.63 0.95 0.257 0.02 188.94 341.673311100200016 ENDDATA 6 0 3311100200017 ENDSUBENT 16 0 3311100299999 SUBENT 33111003 20190402 31883311100300001 BIB 4 4 3311100300002 REACTION (74-W-182(N,P)73-TA-182,,SIG,,SPA) 3311100300003 SAMPLE (74-W-182,NAT=0.2650) 3311100300004 DECAY-DATA (73-TA-182-G,114.74D,DG,1121.3,0.3524) 3311100300005 STATUS (TABLE) Table VI of Phys. Rev. C, 96 (2017) 024608 3311100300006 ENDBIB 4 0 3311100300007 NOCOMMON 0 0 3311100300008 DATA 6 3 3311100300009 EN EN-RSL-HW DATA ERR-T MONIT1 MONIT2 3311100300010 MEV MEV MB MB MB MB 3311100300011 8.96 0.77 0.043 0.003 302.85 220.013311100300012 12.47 0.825 0.793 0.06 253.79 269.583311100300013 16.63 0.95 4.092 0.28 188.94 341.673311100300014 ENDDATA 5 0 3311100300015 ENDSUBENT 14 0 3311100399999 SUBENT 33111004 20190402 31883311100400001 BIB 4 4 3311100400002 REACTION (64-GD-154(N,2N)64-GD-153,,SIG,,SPA) 3311100400003 SAMPLE (64-GD-154,NAT=0.0218) 3311100400004 DECAY-DATA (64-GD-153,240.4D,DG,103.1,0.211) 3311100400005 STATUS (TABLE) Table VI of Phys. Rev. C, 96 (2017) 024608 3311100400006 ENDBIB 4 0 3311100400007 NOCOMMON 0 0 3311100400008 DATA 6 2 3311100400009 EN EN-RSL-HW DATA ERR-T MONIT1 MONIT2 3311100400010 MEV MEV MB MB MB MB 3311100400011 12.47 0.825 1265. 98. 253.79 269.583311100400012 16.63 0.95 1973. 153. 188.94 341.673311100400013 ENDDATA 4 0 3311100400014 ENDSUBENT 13 0 3311100499999 SUBENT 33111005 20190402 31883311100500001 BIB 4 4 3311100500002 REACTION (64-GD-160(N,2N)64-GD-159,,SIG,,SPA) 3311100500003 SAMPLE (64-GD-160,NAT=0.2186) 3311100500004 DECAY-DATA (64-GD-159,18.479HR,DG,363.5,0.1178) 3311100500005 STATUS (TABLE) Table VI of Phys. Rev. C, 96 (2017) 024608 3311100500006 ENDBIB 4 0 3311100500007 NOCOMMON 0 0 3311100500008 DATA 6 2 3311100500009 EN EN-RSL-HW DATA ERR-T MONIT1 MONIT2 3311100500010 MEV MEV MB MB MB MB 3311100500011 12.47 0.825 1913. 143. 253.79 269.583311100500012 16.63 0.95 435. 33. 188.94 341.673311100500013 ENDDATA 4 0 3311100500014 ENDSUBENT 13 0 3311100599999 ENDENTRY 5 0 3311199999999