ENTRY D4403 20200210 D127D440300000001 SUBENT D4403001 20200210 D127D440300100001 BIB 13 54 D440300100002 TITLE Deuteron induced reactions on tellurium: An alternativeD440300100003 for production of 123I? D440300100004 AUTHOR (A.Hermanne,F.Tarkanyi,S.Takacs,F.Ditroi,A.Ignatyuk) D440300100005 INSTITUTE (2BLGVUB,3HUNDEB,4RUSFEI) D440300100006 REFERENCE (J,NIM/B,466,20,2020) D440300100007 #doi:10.1016/j.nimb.2019.11.040 D440300100008 FACILITY (CYCLO,2BLGVUB) D440300100009 SAMPLE Natural Te (6-12 um) D440300100010 electroplated on 25 um Ti backing D440300100011 DETECTOR (LEGE) D440300100012 METHOD (ACTIV,EXTB,EDEG,GSPEC,MOSEP,STTA) D440300100013 Thickness of Te layer was deduced from weight and are D440300100014 of the electroplated Te. A stack containing 11 Te/Ti D440300100015 targets interleaved with 26 um Al degrader foils was D440300100016 irradiated in a Faraday cup like target holder at D440300100017 22 MeV deuteron beam of average intensity of 250nA D440300100018 for 2700 sec. D440300100019 The initial beam parameters were corrected according D440300100020 to the comparison to monitor rections as: beam energy D440300100021 21.5+-02MeV, beam intensity 220+-5 nA. D440300100022 The activity was measured without chemical separation. D440300100023 The energy loss was calculated by SRIM 2006 code. D440300100024 Activity measurements started 30 min after EOB. D440300100025 The activities were determined from the photo-peak D440300100026 areas. D440300100027 Decay data were taken from NUDAT or LUND database. D440300100028 MONITOR (13-AL-27(D,X)11-NA-24,,SIG) D440300100029 (22-TI-0(D,X)23-V-48,,SIG) D440300100030 (22-TI-0(D,X)21-SC-46,,SIG) D440300100031 MONIT-REF (,A.Hermanne+,J,NDS,148,338,2018) D440300100032 ERR-ANALYS (EN-ERR)The uncertainty of the initial energy of the D440300100033 bombarding beam was +- 0.2 MeV. The energy uncertainty D440300100034 in the middle of each foil was estimated combining D440300100035 the uncertainty of the energy degradation and energy D440300100036 straggling. D440300100037 The uncertainty of the energy for the last foil D440300100038 increases up to 1.0 MeV. D440300100039 (ERR-T)The uncertainty of the cross sections D440300100040 are estimated in the standard way as the square root D440300100041 of the quadratic summation of the independently D440300100042 contributing parameters. D440300100043 (ERR-1) number of target atoms (5%) D440300100044 (ERR-2) detector efficiency (5%) D440300100045 (ERR-3) beam current (5%) D440300100046 (ERR-4,1.,3.7) gamma intensities (1-3.7%) D440300100047 (ERR-S,1.,8.) statistical uncertainty (1-8%) D440300100048 ADD-RES (THEO) The experimental data were compared to the D440300100049 results of the theoretical model codes D440300100050 ALICE-D, EMPIRE-D and TALYS1.6(TENDL-2017). D440300100051 (COMP) The measured experimental data were compared to D440300100052 those found in the literature. D440300100053 (TTY-C) Fitted excitation functions were used for D440300100054 determination of integral physical yields. D440300100055 HISTORY (20200210C) TS D440300100056 ENDBIB 54 0 D440300100057 COMMON 3 3 D440300100058 ERR-1 ERR-2 ERR-3 D440300100059 PER-CENT PER-CENT PER-CENT D440300100060 5.0 5.0 8.0 D440300100061 ENDCOMMON 3 0 D440300100062 ENDSUBENT 61 0 D440300199999 SUBENT D4403002 20200210 D127D440300200001 BIB 4 4 D440300200002 SAMPLE (52-TE-122,NAT=0.0255) D440300200003 REACTION (52-TE-122(D,3N)53-I-121,,SIG) D440300200004 DECAY-DATA (53-I-121,2.12HR,DG,212.2,0.843) D440300200005 STATUS (TABLE) Table 2 of Nucl.Instrum.Meth.B466(2020)20 D440300200006 ENDBIB 4 0 D440300200007 NOCOMMON 0 0 D440300200008 DATA 4 6 D440300200009 EN EN-ERR DATA ERR-T D440300200010 MEV MEV MB MB D440300200011 21.4 0.2 434. 48. D440300200012 20.8 0.2 292. 32. D440300200013 20.1 0.3 232. 26. D440300200014 19.4 0.4 163. 18. D440300200015 18.6 0.5 106. 12. D440300200016 17.9 0.6 54. 6. D440300200017 ENDDATA 8 0 D440300200018 ENDSUBENT 17 0 D440300299999 SUBENT D4403003 20200210 D127D440300300001 BIB 3 3 D440300300002 REACTION (52-TE-0(D,X)53-I-123,,SIG) D440300300003 DECAY-DATA (53-I-123,13.2235HR,DG,158.97,0.833) D440300300004 STATUS (TABLE) Table 2 of Nucl.Instrum.Meth.B466(2020)20 D440300300005 ENDBIB 3 0 D440300300006 NOCOMMON 0 0 D440300300007 DATA 4 11 D440300300008 EN EN-ERR DATA ERR-T D440300300009 MEV MEV MB MB D440300300010 21.4 0.2 41. 5. D440300300011 20.8 0.2 32. 4. D440300300012 20.1 0.3 31. 3. D440300300013 19.4 0.4 26. 3. D440300300014 18.6 0.5 25. 3. D440300300015 17.9 0.6 22. 2. D440300300016 17.1 0.7 18. 2. D440300300017 16.2 0.8 15. 2. D440300300018 15.4 0.9 14. 2. D440300300019 14.4 1.0 11. 1. D440300300020 13.5 1.1 13. 1. D440300300021 ENDDATA 13 0 D440300300022 ENDSUBENT 21 0 D440300399999 SUBENT D4403004 20200210 D127D440300400001 BIB 3 4 D440300400002 REACTION (52-TE-0(D,X)53-I-124,,SIG) D440300400003 DECAY-DATA (53-I-124,4.176D,DG,602.73,0.629, D440300400004 DG,722.78,0.1036) D440300400005 STATUS (TABLE) Table 2 of Nucl.Instrum.Meth.B466(2020)20 D440300400006 ENDBIB 4 0 D440300400007 NOCOMMON 0 0 D440300400008 DATA 4 11 D440300400009 EN EN-ERR DATA ERR-T D440300400010 MEV MEV MB MB D440300400011 21.4 0.2 91. 10. D440300400012 20.8 0.2 73. 8. D440300400013 20.1 0.3 81. 9. D440300400014 19.4 0.4 74. 8. D440300400015 18.6 0.5 76. 8. D440300400016 17.9 0.6 79. 9. D440300400017 17.1 0.7 74. 8. D440300400018 16.2 0.8 67. 7. D440300400019 15.4 0.9 61. 7. D440300400020 14.4 1.0 40. 4. D440300400021 13.5 1.1 40. 4. D440300400022 ENDDATA 13 0 D440300400023 ENDSUBENT 22 0 D440300499999 SUBENT D4403005 20200210 D127D440300500001 BIB 3 3 D440300500002 REACTION (52-TE-0(D,X)53-I-125,,SIG) D440300500003 DECAY-DATA (53-I-125,59.407D,DG,35.4925,0.0668) D440300500004 STATUS (TABLE) Table 2 of Nucl.Instrum.Meth.B466(2020)20 D440300500005 ENDBIB 3 0 D440300500006 NOCOMMON 0 0 D440300500007 DATA 4 11 D440300500008 EN EN-ERR DATA ERR-T D440300500009 MEV MEV MB MB D440300500010 21.4 0.2 181. 20. D440300500011 20.8 0.2 157. 17. D440300500012 20.1 0.3 117. 13. D440300500013 19.4 0.4 151. 17. D440300500014 18.6 0.5 111. 12. D440300500015 17.9 0.6 146. 16. D440300500016 17.1 0.7 136. 15. D440300500017 16.2 0.8 91. 10. D440300500018 15.4 0.9 77. 8. D440300500019 14.4 1.0 70. 8. D440300500020 13.5 1.1 38. 4. D440300500021 ENDDATA 13 0 D440300500022 ENDSUBENT 21 0 D440300599999 SUBENT D4403006 20200210 D127D440300600001 BIB 3 4 D440300600002 REACTION (52-TE-0(D,X)53-I-126,,SIG) D440300600003 DECAY-DATA (53-I-126,12.93D,DG,388.633,0.356, D440300600004 DG,666.331,0.329) D440300600005 STATUS (TABLE) Table 2 of Nucl.Instrum.Meth.B466(2020)20 D440300600006 ENDBIB 4 0 D440300600007 NOCOMMON 0 0 D440300600008 DATA 4 11 D440300600009 EN EN-ERR DATA ERR-T D440300600010 MEV MEV MB MB D440300600011 21.4 0.2 81. 9. D440300600012 20.8 0.2 71. 8. D440300600013 20.1 0.3 91. 10. D440300600014 19.4 0.4 97. 11. D440300600015 18.6 0.5 115. 13. D440300600016 17.9 0.6 146. 16. D440300600017 17.1 0.7 176. 19. D440300600018 16.2 0.8 189. 21. D440300600019 15.4 0.9 219. 24. D440300600020 14.4 1.0 160. 18. D440300600021 13.5 1.1 174. 19. D440300600022 ENDDATA 13 0 D440300600023 ENDSUBENT 22 0 D440300699999 SUBENT D4403007 20200210 D127D440300700001 BIB 4 6 D440300700002 REACTION (52-TE-0(D,X)53-I-128,,SIG) D440300700003 DECAY-DATA (53-I-128,24.99MIN,DG,442.9,0.17) Decay data are from D440300700004 LUND online data base. D440300700005 FLAG (1.) 4+/-10 mb in Table 2 should read 94+/-10 mb D440300700006 (Alex Hermanne, 2020-07-24). D440300700007 STATUS (TABLE) Table 2 of Nucl.Instrum.Meth.B466(2020)20 D440300700008 ENDBIB 6 0 D440300700009 NOCOMMON 0 0 D440300700010 DATA 5 11 D440300700011 EN EN-ERR DATA ERR-T FLAG D440300700012 MEV MEV MB MB NO-DIM D440300700013 21.4 0.2 61. 7. D440300700014 20.8 0.2 60. 7. D440300700015 20.1 0.3 74. 8. D440300700016 19.4 0.4 75. 8. D440300700017 18.6 0.5 94. 10. 1. D440300700018 17.9 0.6 106. 12. D440300700019 17.1 0.7 136. 15. D440300700020 16.2 0.8 171. 19. D440300700021 15.4 0.9 215. 24. D440300700022 14.4 1.0 215. 24. D440300700023 13.5 1.1 232. 26. D440300700024 ENDDATA 13 0 D440300700025 ENDSUBENT 24 0 D440300799999 SUBENT D4403008 20200210 D127D440300800001 BIB 4 7 D440300800002 REACTION (52-TE-130(D,2N)53-I-130-G,M+,SIG) D440300800003 SAMPLE (52-TE-130,NAT=0.3408) D440300800004 DECAY-DATA (53-I-130-G,12.36HR,DG,417.93,0.342, D440300800005 DG,536.066,0.99, D440300800006 DG,668.536,0.96, D440300800007 DG,739.512,0.82) D440300800008 STATUS (TABLE) Table 3 of Nucl.Instrum.Meth.B466(2020)20 D440300800009 ENDBIB 7 0 D440300800010 NOCOMMON 0 0 D440300800011 DATA 4 11 D440300800012 EN EN-ERR DATA ERR-T D440300800013 MEV MEV MB MB D440300800014 21.4 0.2 73. 8. D440300800015 20.8 0.2 66. 7. D440300800016 20.1 0.3 81. 9. D440300800017 19.4 0.4 84. 9. D440300800018 18.6 0.5 101. 11. D440300800019 17.9 0.6 122. 13. D440300800020 17.1 0.7 159. 18. D440300800021 16.2 0.8 180. 20. D440300800022 15.4 0.9 226. 25. D440300800023 14.4 1.0 204. 22. D440300800024 13.5 1.1 231. 25. D440300800025 ENDDATA 13 0 D440300800026 ENDSUBENT 25 0 D440300899999 SUBENT D4403009 20200210 D127D440300900001 BIB 4 5 D440300900002 REACTION (52-TE-130(D,N)53-I-131,,SIG) D440300900003 SAMPLE (52-TE-130,NAT=0.3408) D440300900004 DECAY-DATA (53-I-131,8.025D,DG,364.489,0.815, D440300900005 DG,636.989,0.0716) D440300900006 STATUS (TABLE) Table 3 of Nucl.Instrum.Meth.B466(2020)20 D440300900007 ENDBIB 5 0 D440300900008 NOCOMMON 0 0 D440300900009 DATA 4 11 D440300900010 EN EN-ERR DATA ERR-T D440300900011 MEV MEV MB MB D440300900012 21.4 0.2 59. 6. D440300900013 20.8 0.2 43. 5. D440300900014 20.1 0.3 59. 6. D440300900015 19.4 0.4 57. 6. D440300900016 18.6 0.5 65. 7. D440300900017 17.9 0.6 75. 8. D440300900018 17.1 0.7 83. 9. D440300900019 16.2 0.8 85. 9. D440300900020 15.4 0.9 98. 11. D440300900021 14.4 1.0 78. 9. D440300900022 13.5 1.1 96. 11. D440300900023 ENDDATA 13 0 D440300900024 ENDSUBENT 23 0 D440300999999 SUBENT D4403010 20200210 D127D440301000001 BIB 4 7 D440301000002 REACTION (52-TE-130(D,P)52-TE-131-G,,SIG) D440301000003 SAMPLE (52-TE-130,NAT=0.3408) D440301000004 DECAY-DATA (52-TE-131-G,25.0MIN,DG,149.716,0.688) D440301000005 Contribution of 131mTe decay in the 149.7 keV gamma D440301000006 counts is considered as negligible due to absence of D440301000007 the stronger 774 and 852 keV gamma lines. D440301000008 STATUS (TABLE) Table 3 of Nucl.Instrum.Meth.B466(2020)20 D440301000009 ENDBIB 7 0 D440301000010 NOCOMMON 0 0 D440301000011 DATA 4 11 D440301000012 EN EN-ERR DATA ERR-T D440301000013 MEV MEV MB MB D440301000014 21.4 0.2 56. 6. D440301000015 20.8 0.2 53. 6. D440301000016 20.1 0.3 63. 7. D440301000017 19.4 0.4 64. 7. D440301000018 18.6 0.5 76. 8. D440301000019 17.9 0.6 91. 10. D440301000020 17.1 0.7 109. 12. D440301000021 16.2 0.8 127. 14. D440301000022 15.4 0.9 152. 17. D440301000023 14.4 1.0 157. 17. D440301000024 13.5 1.1 170. 19. D440301000025 ENDDATA 13 0 D440301000026 ENDSUBENT 25 0 D440301099999 ENDENTRY 10 0 D440399999999