ENTRY D4332 20160504 D104D4332 0 1 SUBENT D4332001 20160504 D104D4332 1 1 BIB 14 61 D4332 1 2 TITLE Extension of the energy range of experimental D4332 1 3 activation cross-sections data of deuteron induced D4332 1 4 nuclear reactions on indium up to 50 MeV D4332 1 5 AUTHOR (F.Tarkanyi,F.Ditroi,S.Takacs,A.Hermanne,A.V.Ignatyuk) D4332 1 6 INSTITUTE (3HUNDEB,2BLGVUB,4RUSFEI) D4332 1 7 REFERENCE (J,ARI,105,26,2015) D4332 1 8 #doi:10.1016/j.apradiso.2015.07.015 D4332 1 9 FACILITY (CYCLO,2BLGLVN) D4332 1 10 SAMPLE Indium metal foils (commercial). D4332 1 11 The 50 micron thick In foils were placed onto a D4332 1 12 50 micron Al backing and wrapped with 6 micron Al for D4332 1 13 protection. D4332 1 14 METHOD (ACTIV,EDEG,EXTB,GSPEC,STTA) D4332 1 15 Three stacks were bombarded with deuterons. D4332 1 16 Beam energies: 50 MeV, irradiation time: 1 h D4332 1 17 beam intensities: 32 nA. D4332 1 18 The stack was mounted in a Faraday-cup like target D4332 1 19 holder equipped with a suppressor of secondary D4332 1 20 electrons. D4332 1 21 The activities of the produced radionuclides were D4332 1 22 measured nondestructively, without physical separation D4332 1 23 of target and covering foils and without chemical D4332 1 24 separation. D4332 1 25 The source-detector distance was kept large enough to D4332 1 26 minimize dead time and pile-up effects and possible D4332 1 27 influence of the non point-like geometry of the D4332 1 28 samples compared to calibration standards. D4332 1 29 The energy degradation as a function of depth in the D4332 1 30 stack was calculated from the input energy and target D4332 1 31 thicknesses. D4332 1 32 MONITOR (13-AL-27(D,X)11-NA-22,,SIG) D4332 1 33 (13-AL-27(D,X)11-NA-24,,SIG) D4332 1 34 (22-TI-0(D,X)23-V-48,,SIG) D4332 1 35 Al and Ti foils. D4332 1 36 MONIT-REF (,F.Tarkanyi+,R,IAEA-TECDOC-1211,2001) Chapter 4 D4332 1 37 DETECTOR (HPGE) D4332 1 38 DECAY-DATA Decay data were taken from NuDat2.6 database. D4332 1 39 ERR-ANALYS (EN-ERR) The monitoring method allows estimating the D4332 1 40 uncertainty on the primary beam energy (+-0.3 MeV) D4332 1 41 which is continuously rising in each foil through the D4332 1 42 stack and attains +-0.7 MeV in the last In foil. D4332 1 43 (ERR-T) The following experimental uncertainties D4332 1 44 were considered: D4332 1 45 (ERR-1) number of target nuclei including D4332 1 46 non-uniformity (5%) D4332 1 47 (ERR-2) incident particle flux (7%), D4332 1 48 (ERR-5,0.1,20.) peak area including statistical 0.1-20%D4332 1 49 (ERR-3) detector efficiency (5%) and D4332 1 50 (ERR-4) gamma-ray abundance and branching rate D4332 1 51 data (3%). D4332 1 52 Typical total uncertainty is between 10-15%. D4332 1 53 Possible additional uncertainties due to non-linear D4332 1 54 effects (like half-life and waiting time) were not D4332 1 55 accounted for. D4332 1 56 ADD-RES (THEO) The experimental results were compared to the D4332 1 57 curves calculated with the ALICE-D and EMPIRE-D D4332 1 58 theoretical model codes and to the curves given in the D4332 1 59 EAF-2007 and TENDL-2009 and TENDL-2014 databases. D4332 1 60 (TTY-C) Integral yields were calculated from the D4332 1 61 fitted experimental cross sections. D4332 1 62 HISTORY (20160504C) TS D4332 1 63 ENDBIB 61 0 D4332 1 64 COMMON 4 3 D4332 1 65 ERR-1 ERR-2 ERR-3 ERR-4 D4332 1 66 PER-CENT PER-CENT PER-CENT PER-CENT D4332 1 67 5. 7. 5. 3. D4332 1 68 ENDCOMMON 3 0 D4332 1 69 ENDSUBENT 68 0 D4332 199999 SUBENT D4332002 20160504 D104D4332 2 1 BIB 3 8 D4332 2 2 REACTION (49-IN-0(D,X)50-SN-113-G,M+,SIG) D4332 2 3 The excitation function was measured after total decay D4332 2 4 of the short-lived metastable state to the long D4332 2 5 lived ground state; only 91.10% of the higher level D4332 2 6 state feed the ground state. D4332 2 7 DECAY-DATA (50-SN-113-G,115.09D,DG,255.1,0.0211,DG,391.7,0.6497) D4332 2 8 (50-SN-113-M,21.4MIN) D4332 2 9 STATUS (TABLE) Data are taken from Table3 of the article. D4332 2 10 ENDBIB 8 0 D4332 2 11 NOCOMMON 0 0 D4332 2 12 DATA 4 9 D4332 2 13 EN EN-ERR DATA ERR-T D4332 2 14 MEV MEV MB MB D4332 2 15 32.12 0.67 371.7 43.4 D4332 2 16 33.97 0.63 468.5 54.4 D4332 2 17 35.75 0.59 577.8 65.3 D4332 2 18 38.22 0.54 595.6 68.7 D4332 2 19 40.58 0.49 660.4 75.8 D4332 2 20 42.84 0.44 578.6 65.6 D4332 2 21 45.01 0.39 474.7 55.3 D4332 2 22 47.11 0.34 392.3 46.1 D4332 2 23 49.14 0.30 376.0 44.1 D4332 2 24 ENDDATA 11 0 D4332 2 25 ENDSUBENT 24 0 D4332 299999 SUBENT D4332003 20160504 D104D4332 3 1 BIB 3 3 D4332 3 2 REACTION (49-IN-0(D,X)50-SN-110,,SIG) D4332 3 3 DECAY-DATA (50-SN-110,4.11HR,DG,280.462,1.0) D4332 3 4 STATUS (TABLE) Data are taken from Table3 of the article. D4332 3 5 ENDBIB 3 0 D4332 3 6 NOCOMMON 0 0 D4332 3 7 DATA 4 6 D4332 3 8 EN EN-ERR DATA ERR-T D4332 3 9 MEV MEV MB MB D4332 3 10 38.22 0.54 0.07 0.03 D4332 3 11 40.58 0.49 0.54 0.07 D4332 3 12 42.84 0.44 1.7 0.2 D4332 3 13 45.01 0.39 3.2 0.4 D4332 3 14 47.11 0.34 5.1 0.6 D4332 3 15 49.14 0.30 6.9 0.8 D4332 3 16 ENDDATA 8 0 D4332 3 17 ENDSUBENT 16 0 D4332 399999 SUBENT D4332004 20160504 D104D4332 4 1 BIB 3 9 D4332 4 2 REACTION (49-IN-0(D,X)49-IN-116-M1,M+,SIG) D4332 4 3 The short-lived second metastable state decays D4332 4 4 to the first metastable state with 100% IT. D4332 4 5 The production probability of these two states D4332 4 6 together was measured after the second metastable D4332 4 7 state had decayed totally. D4332 4 8 DECAY-DATA (49-IN-116-M1,54.29MIN,DG,1097.3,0.562) D4332 4 9 (49-IN-116-M2,2.18SEC) D4332 4 10 STATUS (TABLE) Data are taken from Table3 of the article. D4332 4 11 ENDBIB 9 0 D4332 4 12 NOCOMMON 0 0 D4332 4 13 DATA 4 9 D4332 4 14 EN EN-ERR DATA ERR-T D4332 4 15 MEV MEV MB MB D4332 4 16 32.12 0.67 62.8 7.8 D4332 4 17 33.97 0.63 41.8 5.2 D4332 4 18 35.75 0.59 60.9 7.3 D4332 4 19 38.22 0.54 35.3 4.3 D4332 4 20 40.58 0.49 31.2 5.2 D4332 4 21 42.84 0.44 29.8 4.5 D4332 4 22 45.01 0.39 29.9 4.3 D4332 4 23 47.11 0.34 28.1 3.5 D4332 4 24 49.14 0.30 18.7 4.2 D4332 4 25 ENDDATA 11 0 D4332 4 26 ENDSUBENT 25 0 D4332 499999 SUBENT D4332005 20160504 D104D4332 5 1 BIB 3 4 D4332 5 2 REACTION (49-IN-0(D,X)49-IN-115-M,(CUM),SIG) D4332 5 3 DECAY-DATA (49-IN-115-M,4.486HR,DG,336.241,0.458) D4332 5 4 (48-CD-115-G,53.46HR) D4332 5 5 STATUS (TABLE) Data are taken from Table3 of the article. D4332 5 6 ENDBIB 4 0 D4332 5 7 NOCOMMON 0 0 D4332 5 8 DATA 4 9 D4332 5 9 EN EN-ERR DATA ERR-T D4332 5 10 MEV MEV MB MB D4332 5 11 32.12 0.67 42.1 4.7 D4332 5 12 33.97 0.63 42.1 4.7 D4332 5 13 35.75 0.59 40.7 4.6 D4332 5 14 38.22 0.54 37.2 4.2 D4332 5 15 40.58 0.49 35.5 4.0 D4332 5 16 42.84 0.44 32.3 3.6 D4332 5 17 45.01 0.39 28.7 3.2 D4332 5 18 47.11 0.34 26.5 3.0 D4332 5 19 49.14 0.30 25.8 2.9 D4332 5 20 ENDDATA 11 0 D4332 5 21 ENDSUBENT 20 0 D4332 599999 SUBENT D4332006 20160504 D104D4332 6 1 BIB 3 3 D4332 6 2 REACTION (49-IN-0(D,X)49-IN-114-M,,SIG) D4332 6 3 DECAY-DATA (49-IN-114-M,49.51D,DG,190.27,0.1556) D4332 6 4 STATUS (TABLE) Data are taken from Table3 of the article. D4332 6 5 ENDBIB 3 0 D4332 6 6 NOCOMMON 0 0 D4332 6 7 DATA 4 9 D4332 6 8 EN EN-ERR DATA ERR-T D4332 6 9 MEV MEV MB MB D4332 6 10 32.12 0.67 232.4 26.6 D4332 6 11 33.97 0.63 247.6 28.2 D4332 6 12 35.75 0.59 275.2 31.0 D4332 6 13 38.22 0.54 293.4 33.4 D4332 6 14 40.58 0.49 297.8 33.9 D4332 6 15 42.84 0.44 294.3 33.5 D4332 6 16 45.01 0.39 295.8 33.6 D4332 6 17 47.11 0.34 267.5 30.5 D4332 6 18 49.14 0.30 269.0 30.6 D4332 6 19 ENDDATA 11 0 D4332 6 20 ENDSUBENT 19 0 D4332 699999 SUBENT D4332007 20160504 D104D4332 7 1 BIB 3 4 D4332 7 2 REACTION (49-IN-0(D,X)49-IN-113-M,(CUM),SIG) D4332 7 3 DECAY-DATA (49-IN-113-M,99.476MIN,DG,391.698,0.6494) D4332 7 4 (50-SN-113-G,115.09D) D4332 7 5 STATUS (TABLE) Data are taken from Table3 of the article. D4332 7 6 ENDBIB 4 0 D4332 7 7 NOCOMMON 0 0 D4332 7 8 DATA 4 9 D4332 7 9 EN EN-ERR DATA ERR-T D4332 7 10 MEV MEV MB MB D4332 7 11 32.12 0.67 9.6 1.1 D4332 7 12 33.97 0.63 12.1 1.4 D4332 7 13 35.75 0.59 15.4 1.7 D4332 7 14 38.22 0.54 15.8 1.8 D4332 7 15 40.58 0.49 25.0 2.8 D4332 7 16 42.84 0.44 24.4 2.8 D4332 7 17 45.01 0.39 23.1 2.6 D4332 7 18 47.11 0.34 20.3 2.3 D4332 7 19 49.14 0.30 24.8 2.8 D4332 7 20 ENDDATA 11 0 D4332 7 21 ENDSUBENT 20 0 D4332 799999 SUBENT D4332008 20160504 D104D4332 8 1 BIB 3 7 D4332 8 2 REACTION (49-IN-0(D,X)49-IN-111,CUM,SIG) D4332 8 3 In addition the ground state of 111In is populated by D4332 8 4 decay of its metastable state and the parent 111Sn. D4332 8 5 DECAY-DATA (49-IN-111-G,2.8047D,DG,245.35,0.941) D4332 8 6 (49-IN-111-M,7.7MIN) D4332 8 7 (50-SN-111,35.3MIN) D4332 8 8 STATUS (TABLE) Data are taken from Table3 of the article. D4332 8 9 ENDBIB 7 0 D4332 8 10 NOCOMMON 0 0 D4332 8 11 DATA 4 9 D4332 8 12 EN EN-ERR DATA ERR-T D4332 8 13 MEV MEV MB MB D4332 8 14 32.12 0.67 9.2 1.1 D4332 8 15 33.97 0.63 16.2 1.8 D4332 8 16 35.75 0.59 22.3 2.5 D4332 8 17 38.22 0.54 29.8 3.4 D4332 8 18 40.58 0.49 33.2 3.7 D4332 8 19 42.84 0.44 33.9 3.8 D4332 8 20 45.01 0.39 34.5 3.9 D4332 8 21 47.11 0.34 35.8 4.0 D4332 8 22 49.14 0.30 43.0 4.8 D4332 8 23 ENDDATA 11 0 D4332 8 24 ENDSUBENT 23 0 D4332 899999 SUBENT D4332009 20160504 D104D4332 9 1 BIB 3 5 D4332 9 2 REACTION (49-IN-0(D,X)49-IN-110-G,,SIG) D4332 9 3 DECAY-DATA (49-IN-110-G,4.92HR,DG,641.68,0.26,DG,657.75,0.98, D4332 9 4 DG,707.4,0.295,DG,937.5,0.684, D4332 9 5 DG,997.16,0.105) D4332 9 6 STATUS (TABLE) Data are taken from Table3 of the article. D4332 9 7 ENDBIB 5 0 D4332 9 8 NOCOMMON 0 0 D4332 9 9 DATA 4 6 D4332 9 10 EN EN-ERR DATA ERR-T D4332 9 11 MEV MEV MB MB D4332 9 12 38.22 0.54 0.17 0.08 D4332 9 13 40.58 0.49 0.38 0.11 D4332 9 14 42.84 0.44 0.81 0.15 D4332 9 15 45.01 0.39 1.8 0.2 D4332 9 16 47.11 0.34 2.9 0.3 D4332 9 17 49.14 0.30 4.1 0.5 D4332 9 18 ENDDATA 8 0 D4332 9 19 ENDSUBENT 18 0 D4332 999999 SUBENT D4332010 20160504 D104D4332 10 1 BIB 3 3 D4332 10 2 REACTION (49-IN-0(D,X)49-IN-109,CUM,SIG) D4332 10 3 DECAY-DATA (49-IN-109-G,4.167HR,DG,203.5,0.735,DG,623.5,0.055) D4332 10 4 STATUS (TABLE) Data are taken from Table3 of the article. D4332 10 5 ENDBIB 3 0 D4332 10 6 NOCOMMON 0 0 D4332 10 7 DATA 4 2 D4332 10 8 EN EN-ERR DATA ERR-T D4332 10 9 MEV MEV MB MB D4332 10 10 47.11 0.34 0.09 0.03 D4332 10 11 49.14 0.30 0.12 0.05 D4332 10 12 ENDDATA 4 0 D4332 10 13 ENDSUBENT 12 0 D4332 1099999 SUBENT D4332011 20160504 D104D4332 11 1 BIB 3 4 D4332 11 2 REACTION (49-IN-0(D,X)48-CD-115-G,,SIG) D4332 11 3 115mCd does not decay into the ground state. D4332 11 4 DECAY-DATA (48-CD-115-G,53.46HR,DG,336.241,0.459) D4332 11 5 STATUS (TABLE) Data are taken from Table3 of the article. D4332 11 6 ENDBIB 4 0 D4332 11 7 NOCOMMON 0 0 D4332 11 8 DATA 4 9 D4332 11 9 EN EN-ERR DATA ERR-T D4332 11 10 MEV MEV MB MB D4332 11 11 32.12 0.67 0.38 0.06 D4332 11 12 33.97 0.63 0.51 0.07 D4332 11 13 35.75 0.59 0.66 0.08 D4332 11 14 38.22 0.54 0.77 0.09 D4332 11 15 40.58 0.49 0.82 0.10 D4332 11 16 42.84 0.44 0.88 0.10 D4332 11 17 45.01 0.39 0.91 0.11 D4332 11 18 47.11 0.34 0.99 0.12 D4332 11 19 49.14 0.30 1.03 0.12 D4332 11 20 ENDDATA 11 0 D4332 11 21 ENDSUBENT 20 0 D4332 1199999 ENDENTRY 11 0 D433299999999