ENTRY D4334 20210929 D132D433400000001 SUBENT D4334001 20210929 D132D433400100001 BIB 13 52 D433400100002 TITLE Excitation functions for (d,x) reactions on 133Cs up D433400100003 to Ed=40 MeV D433400100004 AUTHOR (F.Tarkanyi,F.Ditroi,S.Takacs,A.Hermanne,M.Baba, D433400100005 A.V.Ignatyuk) D433400100006 INSTITUTE (3HUNDEB,2BLGVUB,2JPNTOH,4RUSFEI) D433400100007 REFERENCE (J,ARI,110,109,2016) D433400100008 #doi:10.1016/j.apradiso.2016.01.007 D433400100009 FACILITY (ISOCY,2JPNTOH) D433400100010 SAMPLE Pellets (120mg/cm2) of CsCl targets were made by D433400100011 pressing. A 100 microns thick Al backing and D433400100012 10 microns thick Al protecting covers were applied. D433400100013 METHOD (ACTIV,EDEG,EXTB,GSPEC,STTA) D433400100014 The stack was bombarded with deuterons of 40 MeV. D433400100015 irradiation time: 40 minutes D433400100016 beam intensities: 25nA D433400100017 The stack was mounted in a Faraday-cup like target D433400100018 holder equipped with a suppressor of secondary D433400100019 electrons. D433400100020 The activities of the produced radionuclides were D433400100021 measured non-destructively, without physical separationD433400100022 of target and covering foils and without chemical D433400100023 separation. D433400100024 The source-detector distance was kept large enough to D433400100025 minimize dead time and pile-up effects and possible D433400100026 influence of the non point-like geometry of the D433400100027 samples compared to calibration standards. D433400100028 The energy degradation as a function of depth in the D433400100029 stack was calculated from the input energy and target D433400100030 thicknesses. D433400100031 MONITOR (13-AL-27(P,X)11-NA-22,,SIG) D433400100032 (13-AL-27(P,X)11-NA-24,,SIG) D433400100033 MONIT-REF (,K.Gul+,R,IAEA-TECDOC-1211,2001) Chapter 4 D433400100034 DETECTOR (HPGE) D433400100035 ERR-ANALYS (EN-ERR) The monitoring method allows estimating the D433400100036 uncertainty on the primary beam energy (+-0.2 MeV) D433400100037 which is continuously rising in each foil through the D433400100038 stack. D433400100039 (ERR-T) D433400100040 Typical total uncertainty is between 12-15%. D433400100041 (ERR-1)number of bombarding particles(7%) D433400100042 (ERR-2)surface density of target atoms(5%) D433400100043 (ERR-3)detector efficiency (5%) D433400100044 (ERR-4,1.0,3.0)nuclear decay and branching data(1-3%) D433400100045 (ERR-S,0.1,10.0)statistical and peak fitting (0.1-10%) D433400100046 ADD-RES (THEO) The experimental results were compared to the D433400100047 result calculated by the ALICE-D, EMPIRE-D and TENDL D433400100048 theoretical model codes. D433400100049 (TTY-C) Integral yields were calculated from the D433400100050 fitted experimental cross sections. D433400100051 HISTORY (20160504C) TS D433400100052 (20210927A) VS. SF3 corrected in 002-004. D433400100053 DECAY-DATA in 001 deleted. D433400100054 ENDBIB 52 0 D433400100055 COMMON 3 3 D433400100056 ERR-1 ERR-2 ERR-3 D433400100057 PER-CENT PER-CENT PER-CENT D433400100058 7. 5. 5. D433400100059 ENDCOMMON 3 0 D433400100060 ENDSUBENT 59 0 D433400199999 SUBENT D4334002 20210929 D132D433400200001 BIB 4 4 D433400200002 REACTION (55-CS-133(D,2N)56-BA-133-M,,SIG) D433400200003 DECAY-DATA (56-BA-133-M,38.93HR,DG,275.925,0.1769) D433400200004 STATUS (TABLE) Data are taken from Table2 of the article. D433400200005 HISTORY (20210927A) VS. SF3 X -> 2N c.f. Memo CP-D/1017. D433400200006 ENDBIB 4 0 D433400200007 NOCOMMON 0 0 D433400200008 DATA 4 10 D433400200009 EN EN-ERR DATA ERR-T D433400200010 MEV MEV MB MB D433400200011 0.6 1.2 0.1 0.01 D433400200012 8.0 1.0 97.6 9.3 D433400200013 14.5 0.9 404.5 38.4 D433400200014 19.3 0.8 262.8 24.9 D433400200015 23.3 0.7 140.2 13.3 D433400200016 26.9 0.6 89.8 8.5 D433400200017 30.2 0.5 70.3 6.7 D433400200018 33.3 0.4 65.3 6.2 D433400200019 36.2 0.4 65.9 6.3 D433400200020 38.9 0.3 50.9 4.9 D433400200021 ENDDATA 12 0 D433400200022 ENDSUBENT 21 0 D433400299999 SUBENT D4334003 20210929 D132D433400300001 BIB 4 5 D433400300002 REACTION (55-CS-133(D,2N)56-BA-133-G,M+,SIG) D433400300003 DECAY-DATA (56-BA-133-G,10.551YR,DG,276.4,0.0716,DG,302.8,0.1834, D433400300004 DG,356.0,0.6205,DG,383.8,0.0894) D433400300005 STATUS (TABLE) Data are taken from Table2 of the article. D433400300006 HISTORY (20210927A) VS. SF3 X -> 2N c.f. Memo CP-D/1017. D433400300007 ENDBIB 5 0 D433400300008 NOCOMMON 0 0 D433400300009 DATA 4 6 D433400300010 EN EN-ERR DATA ERR-T D433400300011 MEV MEV MB MB D433400300012 8.0 1.0 192.4 19.9 D433400300013 14.5 0.9 586.8 57.4 D433400300014 19.3 0.8 345.2 35.1 D433400300015 23.3 0.7 173.8 22.4 D433400300016 26.9 0.6 156.6 28.8 D433400300017 30.2 0.5 52.2 11.9 D433400300018 ENDDATA 8 0 D433400300019 ENDSUBENT 18 0 D433400399999 SUBENT D4334004 20210929 D132D433400400001 BIB 4 5 D433400400002 REACTION (55-CS-133(D,4N)56-BA-131-G,M+,SIG) D433400400003 DECAY-DATA (56-BA-131-G,11.5D,DG,123.8,0.298,DG,216.1,0.204, D433400400004 DG,373.3,0.144,DG,496.3,0.48) D433400400005 STATUS (TABLE) Data are taken from Table2 of the article. D433400400006 HISTORY (20210927A) VS. SF3 X -> 4N c.f. Memo CP-D/1017. D433400400007 ENDBIB 5 0 D433400400008 NOCOMMON 0 0 D433400400009 DATA 4 6 D433400400010 EN EN-ERR DATA ERR-T D433400400011 MEV MEV MB MB D433400400012 23.3 0.7 8.1 0.9 D433400400013 26.9 0.6 146.5 15.9 D433400400014 30.2 0.5 392.8 42.5 D433400400015 33.3 0.4 617.3 66.8 D433400400016 36.2 0.4 821.1 88.8 D433400400017 38.9 0.3 666.1 72.1 D433400400018 ENDDATA 8 0 D433400400019 ENDSUBENT 18 0 D433400499999 SUBENT D4334005 20160505 D104D433400500001 BIB 3 3 D433400500002 REACTION (55-CS-133(D,X)55-CS-132,,SIG) D433400500003 DECAY-DATA (55-CS-132,6.479D,DG,667.714,0.9759) D433400500004 STATUS (TABLE) Data are taken from Table2 of the article. D433400500005 ENDBIB 3 0 D433400500006 NOCOMMON 0 0 D433400500007 DATA 4 10 D433400500008 EN EN-ERR DATA ERR-T D433400500009 MEV MEV MB MB D433400500010 0.6 1.2 3.7 0.4 D433400500011 8.0 1.0 5.4 0.6 D433400500012 14.5 0.9 23.1 2.5 D433400500013 19.3 0.8 34.8 3.8 D433400500014 23.3 0.7 69.4 7.5 D433400500015 26.9 0.6 118.4 12.8 D433400500016 30.2 0.5 170.7 18.5 D433400500017 33.3 0.4 230.6 24.9 D433400500018 36.2 0.4 304.5 32.9 D433400500019 38.9 0.3 277.1 30.0 D433400500020 ENDDATA 12 0 D433400500021 ENDSUBENT 20 0 D433400599999 SUBENT D4334006 20160505 D104D433400600001 BIB 3 7 D433400600002 REACTION (55-CS-133(D,X)55-CS-134-G,M+,SIG) D433400600003 DECAY-DATA (55-CS-134-G,2.0652YR,DG,563.2,0.08338, D433400600004 DG,569.3,0.15373, D433400600005 DG,604.7,0.9762, D433400600006 DG,795.9,0.8546, D433400600007 DG,801.9,0.08688) D433400600008 STATUS (TABLE) Data are taken from Table2 of the article. D433400600009 ENDBIB 7 0 D433400600010 NOCOMMON 0 0 D433400600011 DATA 4 10 D433400600012 EN EN-ERR DATA ERR-T D433400600013 MEV MEV MB MB D433400600014 0.6 1.2 1.0 0.1 D433400600015 8.0 1.0 120.3 13.3 D433400600016 14.5 0.9 132.0 14.8 D433400600017 19.3 0.8 103.8 11.5 D433400600018 23.3 0.7 81.0 9.2 D433400600019 26.9 0.6 64.8 7.5 D433400600020 30.2 0.5 67.1 7.7 D433400600021 33.3 0.4 50.7 7.3 D433400600022 36.2 0.4 48.6 7.1 D433400600023 38.9 0.3 42.4 6.1 D433400600024 ENDDATA 12 0 D433400600025 ENDSUBENT 24 0 D433400699999 SUBENT D4334007 20160505 D104D433400700001 BIB 3 3 D433400700002 REACTION (55-CS-133(D,X)54-XE-129-M,,SIG) D433400700003 DECAY-DATA (54-XE-129-M,8.88D,DG,196.56,0.0459) D433400700004 STATUS (TABLE) Data are taken from Table2 of the article. D433400700005 ENDBIB 3 0 D433400700006 NOCOMMON 0 0 D433400700007 DATA 4 6 D433400700008 EN EN-ERR DATA ERR-T D433400700009 MEV MEV MB MB D433400700010 23.3 0.7 1.7 0.4 D433400700011 26.9 0.6 8.6 4.4 D433400700012 30.2 0.5 6.5 3.3 D433400700013 33.3 0.4 12.0 4.8 D433400700014 36.2 0.4 10.9 4.3 D433400700015 38.9 0.3 8.1 4.2 D433400700016 ENDDATA 8 0 D433400700017 ENDSUBENT 16 0 D433400799999 ENDENTRY 7 0 D433499999999