ENTRY F1461 20220321 F088F146100000001 SUBENT F1461001 20220321 F088F146100100001 BIB 12 30 F146100100002 TITLE Cross sections and production yields of 117mSn and F146100100003 other radionuclides generated in natural and enriched F146100100004 antimony with protons up to 145 MeV F146100100005 AUTHOR (S.V.Ermolaev,B.L.Zhuikov,V.M.Kokhanyuk,V.L.Matushko, F146100100006 S.C.Srivastava) F146100100007 REFERENCE (J,RCA,108,327,2020) F146100100008 #doi:10.1515/ract-2019-3158 F146100100009 INSTITUTE (4RUSJIA,1USABNL) F146100100010 FACILITY (LINAC,4RUSJIA) For initial proton energies about 159, F146100100011 113 and 94 MeV F146100100012 (LINAC,4RUSFVE) For proton energies 73 and 38 MeV F146100100013 DETECTOR (HPGE) F146100100014 METHOD (ACTIV) F146100100015 (STTA,CHSEP,GSPEC) F146100100016 SAMPLE Every Sb-target was placed together with aluminum F146100100017 (100+ -4 mu-m thickness) or/and copper (40+ -2 mu-m) F146100100018 foils of the same form for beam intensity monitoring F146100100019 and wrapped in aluminum foil envelopes. F146100100020 MONITOR (13-AL-27(P,X)11-NA-22,,SIG) F146100100021 (29-CU-0(P,X)30-ZN-62,,SIG) F146100100022 ERR-ANALYS (EN-ERR) The error in proton energy comprised F146100100023 uncertainty of initial accelerator energy, target F146100100024 thickness, proton straggling and scattering in the F146100100025 targets, degraders and water or air gaps. F146100100026 (DATA-ERR) Errors in cross section values include F146100100027 uncertainty in proton flux determination, detector F146100100028 efficiency, statistics in gamma-ray spectra, and F146100100029 geometry in gamma-ray measurement. F146100100030 STATUS (APRVD) Entry was approved by Dr. S.V. Ermolaev F146100100031 HISTORY (20220321C) F146100100032 ENDBIB 30 0 F146100100033 NOCOMMON 0 0 F146100100034 ENDSUBENT 33 0 F146100199999 SUBENT F1461002 20220321 F088F146100200001 BIB 5 17 F146100200002 REACTION (51-SB-0(P,X)50-SN-117-M,,SIG) F146100200003 DECAY-DATA (50-SN-117-M,14.0D,DG,156.0,0.021,DG,158.6,0.864) F146100200004 INC-SOURCE Initial proton energies were 158.8 +- 0.3, 94.4 +- 0.3,F146100200005 72.7 +- 0.7, and 37.8 +- 0.4 MeV; beam currents (mu-A) F146100200006 and irradiation times (h) were 1.2, 0.5, 0.07, F146100200007 0.03 and 5.2, 9.8, 7.9, 8.2, correspondingly. F146100200008 SAMPLE Thin metallic antimony foils of natural isotopic F146100200009 composition (121Sb 57.21 %, 123Sb 42.79 %, purity F146100200010 more or equal to 95 %) were used. Foils with F146100200011 dimensions of 17 * 50 mm and nominal Sb thickness of F146100200012 40 mu-m on 130 mu-m polyester backing were prepared F146100200013 for irradiation with protons of initial energy 159 MeV F146100200014 and 94 MeV; and 25 mu-m foils (170 mu-m of F146100200015 polyester backing) with dimensions of 17 * 17 mm for F146100200016 irradiation with normal to target surface beam of 73 F146100200017 MeV and 38 MeV protons. F146100200018 STATUS (TABLE) Tbl. 4 from Radiochim. Acta, 108,327,2020 F146100200019 ENDBIB 17 0 F146100200020 NOCOMMON 0 0 F146100200021 DATA 4 34 F146100200022 EN EN-ERR DATA DATA-ERR F146100200023 MEV MEV MB MB F146100200024 145. 0.6 15. 2.3 F146100200025 133. 1.0 14. 2.1 F146100200026 121. 1.5 19. 2.9 F146100200027 108. 2.2 18. 2.7 F146100200028 101. 2.5 15. 2.3 F146100200029 95. 3.0 18. 2.8 F146100200030 88. 3.5 14. 2.2 F146100200031 81. 4.2 13. 2.2 F146100200032 75. 0.8 10.7 1.6 F146100200033 71.4 0.2 7.5 1.1 F146100200034 68.1 0.4 7.9 1.2 F146100200035 68. 1.2 9.1 1.4 F146100200036 64.8 0.6 6.5 1.0 F146100200037 61.4 0.7 6.0 0.9 F146100200038 59. 1.9 7.6 1.2 F146100200039 57.8 0.8 6.7 1.0 F146100200040 54.8 0.8 6.6 1.0 F146100200041 51.6 0.9 6.5 1.0 F146100200042 48.4 0.9 7.6 1.2 F146100200043 44.8 1.0 7.8 1.3 F146100200044 41.1 1.1 6.2 1.0 F146100200045 36.4 1.2 5.0 0.8 F146100200046 34.9 1.3 4.0 0.7 F146100200047 32.4 0.2 2.8 0.4 F146100200048 30.9 0.3 3.5 0.5 F146100200049 29.3 0.3 3.8 0.6 F146100200050 28.1 0.4 3.5 0.5 F146100200051 26.8 0.4 3.4 0.5 F146100200052 25.6 0.4 2.9 0.4 F146100200053 24.2 0.5 1.9 0.3 F146100200054 22.8 0.5 1.5 0.2 F146100200055 21.4 0.5 1.6 0.3 F146100200056 19.8 0.6 0.8 0.1 F146100200057 18.1 0.6 0.9 0.2 F146100200058 ENDDATA 36 0 F146100200059 ENDSUBENT 58 0 F146100299999 SUBENT F1461003 20220321 F088F146100300001 BIB 6 20 F146100300002 REACTION (51-SB-0(P,X)50-SN-113,CUM,SIG) F146100300003 DECAY-DATA (50-SN-113-G,115.1D,DG,255.1,0.021) F146100300004 (49-IN-113-M,,DG,391.7,0.650) F146100300005 RAD-DET (50-SN-113-G,DG) F146100300006 (49-IN-113-M,DG) F146100300007 INC-SOURCE Initial proton energies were 158.8 +- 0.3, 94.4 +- 0.3,F146100300008 72.7 +- 0.7, and 37.8 +- 0.4 MeV; beam currents (mu-A) F146100300009 and irradiation times (h) were 1.2, 0.5, 0.07, F146100300010 0.03 and 5.2, 9.8, 7.9, 8.2, correspondingly. F146100300011 SAMPLE Thin metallic antimony foils of natural isotopic F146100300012 composition (121Sb 57.21 %, 123Sb 42.79 %, purity F146100300013 more or equal to 95 %) were used. Foils with F146100300014 dimensions of 17 * 50 mm and nominal Sb thickness of F146100300015 40 mu-m on 130 mu-m polyester backing were prepared F146100300016 for irradiation with protons of initial energy 159 MeV F146100300017 and 94 MeV; and 25 mu-m foils (170 mu-m of F146100300018 polyester backing) with dimensions of 17 * 17 mm for F146100300019 irradiation with normal to target surface beam of 73 F146100300020 MeV and 38 MeV protons. F146100300021 STATUS (TABLE) Tbl. 4 from Radiochim. Acta, 108,327,2020 F146100300022 ENDBIB 20 0 F146100300023 NOCOMMON 0 0 F146100300024 DATA 4 19 F146100300025 EN EN-ERR DATA DATA-ERR F146100300026 MEV MEV MB MB F146100300027 145. 0.6 32. 4.8 F146100300028 133. 1.0 29. 4.4 F146100300029 121. 1.5 38. 5.7 F146100300030 108. 2.2 29. 4.4 F146100300031 101. 2.5 21. 3.2 F146100300032 95. 3.0 17. 2.7 F146100300033 88. 3.5 15. 2.4 F146100300034 81. 4.2 14. 2.3 F146100300035 75. 0.8 17.1 2.6 F146100300036 71.4 0.2 11.6 1.7 F146100300037 68.1 0.4 10.3 1.5 F146100300038 68. 1.2 12.6 2.0 F146100300039 64.8 0.6 5.9 0.9 F146100300040 61.4 0.7 2.3 0.4 F146100300041 59. 1.9 3.5 0.6 F146100300042 57.8 0.8 1.1 0.2 F146100300043 54.8 0.8 0.21 0.04 F146100300044 51.6 0.9 0.15 0.04 F146100300045 48.4 0.9 0.01 0.01 F146100300046 ENDDATA 21 0 F146100300047 ENDSUBENT 46 0 F146100399999 SUBENT F1461004 20220321 F088F146100400001 BIB 5 18 F146100400002 REACTION (51-SB-0(P,X)51-SB-120-M,,SIG) F146100400003 DECAY-DATA (51-SB-120-M,5.8D,DG,197.3,0.870,DG,1023.3,0.994, F146100400004 DG,1171.3,1.000) F146100400005 INC-SOURCE Initial proton energies were 158.8 +-0.3, 94.4+-0.3, F146100400006 72.7 +- 0.7, and 37.8 +- 0.4 MeV; beam currents (mu-A) F146100400007 and irradiation times (h) were 1.2, 0.5, 0.07, F146100400008 0.03 and 5.2, 9.8, 7.9, 8.2, correspondingly. F146100400009 SAMPLE Thin metallic antimony foils of natural isotopic F146100400010 composition (121Sb 57.21 %, 123Sb 42.79 %, purity F146100400011 more or equal to 95 %) were used. Foils with F146100400012 dimensions of 17 * 50 mm and nominal Sb thickness of F146100400013 40 mu-m on 130 mu-m polyester backing were prepared F146100400014 for irradiation with protons of initial energy 159 MeV F146100400015 and 94 MeV; and 25 mu-m foils (170 mu-m of F146100400016 polyester backing) with dimensions of 17 * 17 mm for F146100400017 irradiation with normal to target surface beam of 73 F146100400018 MeV and 38 MeV protons. F146100400019 STATUS (TABLE) Tbl. 4 from Radiochim. Acta, 108,327,2020 F146100400020 ENDBIB 18 0 F146100400021 NOCOMMON 0 0 F146100400022 DATA 4 35 F146100400023 EN EN-ERR DATA DATA-ERR F146100400024 MEV MEV MB MB F146100400025 145. 0.6 20. 3.1 F146100400026 133. 1.0 21. 3.2 F146100400027 121. 1.5 32. 4.9 F146100400028 108. 2.2 39. 5.9 F146100400029 101. 2.5 33. 5.1 F146100400030 95. 3.0 35. 5.5 F146100400031 88. 3.5 35. 5.6 F146100400032 81. 4.2 35. 5.9 F146100400033 75. 0.8 45. 6.8 F146100400034 71.4 0.2 40.1 6.0 F146100400035 68.1 0.4 43.2 6.5 F146100400036 68. 1.2 45. 7.0 F146100400037 64.8 0.6 39.9 6.0 F146100400038 61.4 0.7 39.3 6.1 F146100400039 59. 1.9 42. 6.7 F146100400040 57.8 0.8 46.4 7.2 F146100400041 54.8 0.8 46.0 7.1 F146100400042 51.6 0.9 43.4 6.7 F146100400043 48.4 0.9 46.8 7.5 F146100400044 48. 3.1 51. 9.3 F146100400045 44.8 1.0 49.3 7.9 F146100400046 41.1 1.1 39.8 6.5 F146100400047 36.4 1.2 37.8 6.4 F146100400048 34.9 1.3 33.6 5.7 F146100400049 32.4 0.2 25.3 3.8 F146100400050 30.9 0.3 26.2 4.0 F146100400051 29.3 0.3 25.7 4.0 F146100400052 28.1 0.4 22. 3.5 F146100400053 26.8 0.4 21.9 3.4 F146100400054 25.6 0.4 19.2 3.0 F146100400055 24.2 0.5 12.5 2.0 F146100400056 22.8 0.5 9.8 1.6 F146100400057 21.4 0.5 11.1 1.8 F146100400058 19.8 0.6 5.6 1.0 F146100400059 18.1 0.6 5.6 1.2 F146100400060 ENDDATA 37 0 F146100400061 ENDSUBENT 60 0 F146100499999 SUBENT F1461005 20220321 F088F146100500001 BIB 5 17 F146100500002 REACTION (51-SB-0(P,X)51-SB-122,,SIG) F146100500003 DECAY-DATA (51-SB-122-G,2.7D,DG,564.2,0.707,DG,692.7,0.039) F146100500004 INC-SOURCE Initial proton energies were 158.8 +-0.3, 94.4+-0.3, F146100500005 72.7 +- 0.7, and 37.8 +- 0.4 MeV; beam currents (mu-A) F146100500006 and irradiation times (h) were 1.2, 0.5, 0.07, F146100500007 0.03 and 5.2, 9.8, 7.9, 8.2, correspondingly. F146100500008 SAMPLE Thin metallic antimony foils of natural isotopic F146100500009 composition (121Sb 57.21 %, 123Sb 42.79 %, purity F146100500010 more or equal to 95 %) were used. Foils with F146100500011 dimensions of 17 * 50 mm and nominal Sb thickness of F146100500012 40 mu-m on 130 mu-m polyester backing were prepared F146100500013 for irradiation with protons of initial energy 159 MeV F146100500014 and 94 MeV; and 25 mu-m foils (170 mu-m of F146100500015 polyester backing) with dimensions of 17 * 17 mm for F146100500016 irradiation with normal to target surface beam of 73 F146100500017 MeV and 38 MeV protons. F146100500018 STATUS (TABLE) Tbl. 4 from Radiochim. Acta, 108,327,2020 F146100500019 ENDBIB 17 0 F146100500020 NOCOMMON 0 0 F146100500021 DATA 4 35 F146100500022 EN EN-ERR DATA DATA-ERR F146100500023 MEV MEV MB MB F146100500024 145. 0.6 32. 8.4 F146100500025 133. 1.0 35. 8.7 F146100500026 121. 1.5 51. 10.2 F146100500027 108. 2.2 53. 8.7 F146100500028 101. 2.5 49. 8.1 F146100500029 95. 3.0 57. 9.6 F146100500030 88. 3.5 50. 7.9 F146100500031 81. 4.2 51. 8.6 F146100500032 75. 0.8 54. 8.1 F146100500033 71.4 0.2 47.5 7.1 F146100500034 68.1 0.4 50.4 7.6 F146100500035 68. 1.2 52. 7.9 F146100500036 64.8 0.6 46.8 7.0 F146100500037 61.4 0.7 46.5 7.2 F146100500038 59. 1.9 50. 7.8 F146100500039 57.8 0.8 52.7 8.2 F146100500040 54.8 0.8 52.0 8.1 F146100500041 51.6 0.9 50.3 7.8 F146100500042 48.4 0.9 56.1 9.0 F146100500043 48. 3.1 60. 10.5 F146100500044 44.8 1.0 59.4 9.6 F146100500045 41.1 1.1 56.9 9.2 F146100500046 36.4 1.2 66.1 11.2 F146100500047 34.9 1.3 63.1 10.7 F146100500048 32.4 0.2 61.5 9.2 F146100500049 30.9 0.3 66.6 10.0 F146100500050 29.3 0.3 62.8 9.7 F146100500051 28.1 0.4 54.6 8.4 F146100500052 26.8 0.4 55.5 8.6 F146100500053 25.6 0.4 50.5 7.9 F146100500054 24.2 0.5 37.9 6.1 F146100500055 22.8 0.5 32.0 5.1 F146100500056 21.4 0.5 33.4 5.6 F146100500057 19.8 0.6 18.5 3.3 F146100500058 18.1 0.6 17.2 3.6 F146100500059 ENDDATA 37 0 F146100500060 ENDSUBENT 59 0 F146100599999 SUBENT F1461006 20220321 F088F146100600001 BIB 5 13 F146100600002 REACTION (51-SB-123(P,X)50-SN-117-M,,SIG) F146100600003 DECAY-DATA (50-SN-117-M,14.0D,DG,156.0,0.021,DG,158.6,0.864) F146100600004 INC-SOURCE Initial proton energies were 113.3 +- 0.3, 72.7 +- 0.7 F146100600005 MeV (as well as calculated from experiments with F146100600006 natSb and 121Sb); beam currents (mu-A) and F146100600007 irradiation times (h) were 0.5, 0.02 and 9.9, 5.3, F146100600008 correspondingly. F146100600009 SAMPLE (51-SB-123,ENR=0.9820) Enriched material was in the F146100600010 form of dispersed metallic grains. The material was F146100600011 pounded in a mortar to fine powder and then it was F146100600012 utilized for preparation of target with thickness F146100600013 27-49 mg/cm by different methods. F146100600014 STATUS (TABLE) Tbl. 5 from Radiochim. Acta, 108,327,2020 F146100600015 ENDBIB 13 0 F146100600016 NOCOMMON 0 0 F146100600017 DATA 4 20 F146100600018 EN EN-ERR DATA DATA-ERR F146100600019 MEV MEV MB MB F146100600020 88.4 1.0 10.2 1.5 F146100600021 79.5 1.4 6.6 1.0 F146100600022 71.2 0.2 4.6 0.7 F146100600023 69.7 2.1 5.7 0.9 F146100600024 67.6 0.5 4.8 0.7 F146100600025 63.8 0.7 5.4 0.8 F146100600026 59.8 0.8 6.7 1.0 F146100600027 58.7 3.2 7.2 1.3 F146100600028 55.8 1.0 7.1 1.1 F146100600029 52.2 1.0 10.8 1.7 F146100600030 48.5 1.0 12.3 1.9 F146100600031 44.5 1.1 16.2 2.5 F146100600032 40.3 1.2 14.2 2.3 F146100600033 35.9 1.3 9.0 1.5 F146100600034 34.4 1.4 6.9 1.2 F146100600035 32.9 1.4 6.2 1.1 F146100600036 30. 0.4 0.8 0.2 F146100600037 28. 0.5 0.4 0.1 F146100600038 26. 0.6 0.12 0.04 F146100600039 24. 0.7 0.09 0.04 F146100600040 ENDDATA 22 0 F146100600041 ENDSUBENT 40 0 F146100699999 SUBENT F1461007 20220321 F088F146100700001 BIB 6 16 F146100700002 REACTION (51-SB-123(P,X)50-SN-113,CUM,SIG) F146100700003 DECAY-DATA (50-SN-113-G,115.1D,DG,255.1,0.021) F146100700004 (49-IN-113-M,,DG,391.7,0.650) F146100700005 RAD-DET (50-SN-113-G,DG) F146100700006 (49-IN-113-M,DG) F146100700007 INC-SOURCE Initial proton energies were 113.3 +- 0.3, 72.7 +- 0.7 F146100700008 MeV (as well as calculated from experiments with F146100700009 natSb and 121Sb); beam currents (mu-A) and F146100700010 irradiation times (h) were 0.5, 0.02 and 9.9, 5.3, F146100700011 correspondingly. F146100700012 SAMPLE (51-SB-123,ENR=0.9820) Enriched material was in the F146100700013 form of dispersed metallic grains. The material was F146100700014 pounded in a mortar to fine powder and then it was F146100700015 utilized for preparation of target with thickness F146100700016 27-49 mg/cm by different methods. F146100700017 STATUS (TABLE) Tbl. 5 from Radiochim. Acta, 108,327,2020 F146100700018 ENDBIB 16 0 F146100700019 NOCOMMON 0 0 F146100700020 DATA 4 4 F146100700021 EN EN-ERR DATA DATA-ERR F146100700022 MEV MEV MB MB F146100700023 88.4 1.0 5.3 0.8 F146100700024 79.5 1.4 1.4 0.2 F146100700025 71.2 0.2 0.43 0.07 F146100700026 69.7 2.1 0.14 0.08 F146100700027 ENDDATA 6 0 F146100700028 ENDSUBENT 27 0 F146100799999 SUBENT F1461008 20220321 F088F146100800001 BIB 5 14 F146100800002 REACTION (51-SB-123(P,X)51-SB-120-M,,SIG) F146100800003 DECAY-DATA (51-SB-120-M,5.8D,DG,197.3,0.870,DG,1023.3,0.994, F146100800004 DG,1171.3,1.000) F146100800005 INC-SOURCE Initial proton energies were 113.3 +- 0.3, 72.7 +- 0.7 F146100800006 MeV (as well as calculated from experiments with F146100800007 natSb and 121Sb); beam currents (mu-A) and F146100800008 irradiation times (h) were 0.5, 0.02 and 9.9, 5.3, F146100800009 correspondingly. F146100800010 SAMPLE (51-SB-123,ENR=0.9820) Enriched material was in the F146100800011 form of dispersed metallic grains. The material was F146100800012 pounded in a mortar to fine powder and then it was F146100800013 utilized for preparation of target with thickness F146100800014 27-49 mg/cm by different methods. F146100800015 STATUS (TABLE) Tbl. 5 from Radiochim. Acta, 108,327,2020 F146100800016 ENDBIB 14 0 F146100800017 NOCOMMON 0 0 F146100800018 DATA 4 20 F146100800019 EN EN-ERR DATA DATA-ERR F146100800020 MEV MEV MB MB F146100800021 88.4 1.0 50. 8. F146100800022 79.5 1.4 44. 7. F146100800023 71.2 0.2 44.4 6.7 F146100800024 69.7 2.1 57. 9. F146100800025 67.6 0.5 46.0 6.9 F146100800026 63.8 0.7 52.3 7.9 F146100800027 59.8 0.8 53.0 8.0 F146100800028 58.7 3.2 65. 11. F146100800029 55.8 1.0 51.8 8.1 F146100800030 52.2 1.0 62.8 9.8 F146100800031 48.5 1.0 58.1 9.1 F146100800032 44.5 1.1 66.3 10.5 F146100800033 40.3 1.2 54.0 8.8 F146100800034 35.9 1.3 33.1 5.5 F146100800035 34.4 1.4 27.4 4.6 F146100800036 32.9 1.4 25.7 4.3 F146100800037 32. 0.3 12. 4.3 F146100800038 30. 0.4 6.3 2.3 F146100800039 28. 0.5 1.3 0.5 F146100800040 26. 0.6 0.08 0.03 F146100800041 ENDDATA 22 0 F146100800042 ENDSUBENT 41 0 F146100899999 SUBENT F1461009 20220321 F088F146100900001 BIB 5 13 F146100900002 REACTION (51-SB-123(P,X)51-SB-122,,SIG) F146100900003 DECAY-DATA (51-SB-122-G,2.7D,DG,564.2,0.707,DG,692.7,0.039) F146100900004 INC-SOURCE Initial proton energies were 113.3 +- 0.3, 72.7 +- 0.7 F146100900005 MeV (as well as calculated from experiments with F146100900006 natSb and 121Sb); beam currents (mu-A) and F146100900007 irradiation times (h) were 0.5, 0.02 and 9.9, 5.3, F146100900008 correspondingly. F146100900009 SAMPLE (51-SB-123,ENR=0.9820) Enriched material was in the F146100900010 form of dispersed metallic grains. The material was F146100900011 pounded in a mortar to fine powder and then it was F146100900012 utilized for preparation of target with thickness F146100900013 27-49 mg/cm by different methods. F146100900014 STATUS (TABLE) Tbl. 5 from Radiochim. Acta, 108,327,2020 F146100900015 ENDBIB 13 0 F146100900016 NOCOMMON 0 0 F146100900017 DATA 4 17 F146100900018 EN EN-ERR DATA DATA-ERR F146100900019 MEV MEV MB MB F146100900020 88.4 1.0 104. 16. F146100900021 79.5 1.4 91. 14. F146100900022 71.2 0.2 93. 14. F146100900023 69.7 2.1 110. 17. F146100900024 67.6 0.5 96. 14. F146100900025 63.8 0.7 107. 16. F146100900026 59.8 0.8 108. 16. F146100900027 58.7 3.2 125. 21. F146100900028 55.8 1.0 105. 16. F146100900029 52.2 1.0 125. 20. F146100900030 48.5 1.0 118. 18. F146100900031 45.8 5.4 116. 26. F146100900032 44.5 1.1 146. 23. F146100900033 40.3 1.2 155. 25. F146100900034 35.9 1.3 147. 24. F146100900035 34.4 1.4 153. 26. F146100900036 32.9 1.4 174. 29. F146100900037 ENDDATA 19 0 F146100900038 ENDSUBENT 37 0 F146100999999 SUBENT F1461010 20220321 F088F146101000001 BIB 5 12 F146101000002 REACTION (51-SB-121(P,X)50-SN-117-M,,SIG) F146101000003 DECAY-DATA (50-SN-117-M,14.0D,DG,156.0,0.021,DG,158.6,0.864) F146101000004 INC-SOURCE Initial proton energy was 37.8 +-0.4 MeV (as well as F146101000005 calculated from experiments with natSb and 123Sb); F146101000006 beam current (mu-A) was 0.05 and irradiation time (h) F146101000007 was 8.0. F146101000008 SAMPLE (51-SB-121,ENR=0.9953) Enriched material was in the F146101000009 form of dispersed metallic grains. The material was F146101000010 pounded in a mortar to fine powder and then it was F146101000011 utilized for preparation of target with thickness F146101000012 27-49 mg/cm by different methods. F146101000013 STATUS (TABLE) Tbl. 6 from Radiochim. Acta, 108,327,2020 F146101000014 ENDBIB 12 0 F146101000015 NOCOMMON 0 0 F146101000016 DATA 4 21 F146101000017 EN EN-ERR DATA DATA-ERR F146101000018 MEV MEV MB MB F146101000019 88. 3.7 17.9 2.9 F146101000020 84. 4.1 17.5 2.8 F146101000021 80. 4.5 16.3 2.7 F146101000022 76. 3.3 14.6 2.6 F146101000023 72. 2.1 12.5 2.4 F146101000024 68. 2.5 10.6 2.2 F146101000025 64. 2.9 8.9 2.0 F146101000026 60. 3.3 7.4 1.7 F146101000027 56. 1.2 5.7 1.2 F146101000028 52. 1.3 4.4 1.0 F146101000029 48. 1.4 4.0 0.9 F146101000030 44. 1.5 2.0 0.5 F146101000031 40. 1.6 1.2 0.3 F146101000032 36. 1.8 1.8 0.4 F146101000033 32.3 0.2 6.0 0.9 F146101000034 27.7 0.4 7.0 1.1 F146101000035 26. 0.5 5.6 0.9 F146101000036 24.6 0.6 4.8 0.8 F146101000037 22.7 0.7 3.7 0.7 F146101000038 19.8 0.8 2.9 0.8 F146101000039 16.8 0.9 2.4 0.8 F146101000040 ENDDATA 23 0 F146101000041 ENDSUBENT 40 0 F146101099999 SUBENT F1461011 20220321 F088F146101100001 BIB 6 15 F146101100002 REACTION (51-SB-121(P,X)50-SN-113,CUM,SIG) F146101100003 DECAY-DATA (50-SN-113-G,115.1D,DG,255.1,0.021) F146101100004 (49-IN-113-M,,DG,391.7,0.650) F146101100005 RAD-DET (50-SN-113-G,DG) F146101100006 (49-IN-113-M,DG) F146101100007 INC-SOURCE Initial proton energy was 37.8 +-0.4 MeV (as well as F146101100008 calculated from experiments with natSb and 123Sb); F146101100009 beam current (mu-A) was 0.05 and irradiation time (h) F146101100010 was 8.0. F146101100011 SAMPLE (51-SB-121,ENR=0.9953) Enriched material was in the F146101100012 form of dispersed metallic grains. The material was F146101100013 pounded in a mortar to fine powder and then it was F146101100014 utilized for preparation of target with thickness F146101100015 27-49 mg/cm by different methods. F146101100016 STATUS (TABLE) Tbl. 6 from Radiochim. Acta, 108,327,2020 F146101100017 ENDBIB 15 0 F146101100018 NOCOMMON 0 0 F146101100019 DATA 4 11 F146101100020 EN EN-ERR DATA DATA-ERR F146101100021 MEV MEV MB MB F146101100022 88. 3.7 22. 4.6 F146101100023 84. 4.1 22. 5.0 F146101100024 80. 4.5 25. 5.7 F146101100025 76. 3.3 28. 6.1 F146101100026 72. 2.1 26. 5.6 F146101100027 68. 2.5 18. 3.9 F146101100028 64. 2.9 11. 2.5 F146101100029 60. 3.3 3.8 0.9 F146101100030 56. 1.2 1.4 0.3 F146101100031 52. 1.3 0.38 0.14 F146101100032 48. 1.4 0.02 0.01 F146101100033 ENDDATA 13 0 F146101100034 ENDSUBENT 33 0 F146101199999 SUBENT F1461012 20220321 F088F146101200001 BIB 5 13 F146101200002 REACTION (51-SB-121(P,X)51-SB-120-M,,SIG) F146101200003 DECAY-DATA (51-SB-120-M,5.8D,DG,197.3,0.870,DG,1023.3,0.994, F146101200004 DG,1171.3,1.000) F146101200005 INC-SOURCE Initial proton energy was 37.8 +-0.4 MeV (as well as F146101200006 calculated from experiments with natSb and 123Sb); F146101200007 beam current (mu-A) was 0.05 and irradiation time (h) F146101200008 was 8.0. F146101200009 SAMPLE (51-SB-121,ENR=0.9953) Enriched material was in the F146101200010 form of dispersed metallic grains. The material was F146101200011 pounded in a mortar to fine powder and then it was F146101200012 utilized for preparation of target with thickness F146101200013 27-49 mg/cm by different methods. F146101200014 STATUS (TABLE) Tbl. 6 from Radiochim. Acta, 108,327,2020 F146101200015 ENDBIB 13 0 F146101200016 NOCOMMON 0 0 F146101200017 DATA 4 19 F146101200018 EN EN-ERR DATA DATA-ERR F146101200019 MEV MEV MB MB F146101200020 84. 4.1 28.4 4.6 F146101200021 80. 4.5 32.0 5.3 F146101200022 76. 3.3 33.2 5.9 F146101200023 72. 2.1 34.2 6.5 F146101200024 68. 2.5 35.3 7.3 F146101200025 64. 2.9 36.1 7.9 F146101200026 60. 3.3 36.7 8.6 F146101200027 56. 1.2 37.6 8.3 F146101200028 52. 1.3 38.5 8.5 F146101200029 48. 1.4 39.2 8.8 F146101200030 44. 1.5 39.7 8.9 F146101200031 40. 1.6 41.9 9.6 F146101200032 36. 1.8 37.9 9.0 F146101200033 32.3 0.2 42.6 6.4 F146101200034 27.7 0.4 43.6 6.6 F146101200035 26. 0.5 34.8 5.4 F146101200036 24.6 0.6 29.7 4.7 F146101200037 22.7 0.7 23.8 3.8 F146101200038 19.8 0.8 18.6 3.0 F146101200039 ENDDATA 21 0 F146101200040 ENDSUBENT 39 0 F146101299999 SUBENT F1461013 20220321 F088F146101300001 BIB 5 17 F146101300002 REACTION (51-SB-0(P,X)49-IN-111,CUM,SIG) F146101300003 DECAY-DATA (49-IN-111-G,2.8D,DG,171.3,0.907,DG,245.4,0.941) F146101300004 INC-SOURCE Initial proton energies were 158.8 +-0.3, 94.4+-0.3, F146101300005 72.7 +- 0.7 MeV; beam currents (mu-A) and irradiation F146101300006 times (h) were 1.2, 0.5, 0.07, and 5.2, 9.8, 7.9, F146101300007 correspondingly. F146101300008 SAMPLE Thin metallic antimony foils of natural isotopic F146101300009 composition (121Sb 57.21 %, 123Sb 42.79 %, purity F146101300010 more or equal to 95 %) were used. Foils with F146101300011 dimensions of 17 * 50 mm and nominal Sb thickness of F146101300012 40 mu-m on 130 mu-m polyester backing were prepared F146101300013 for irradiation with protons of initial energy 159 MeV F146101300014 and 94 MeV; and 25 mu-m foils (170 mu-m of F146101300015 polyester backing) with dimensions of 17 * 17 mm for F146101300016 irradiation with normal to target surface beam of 73 F146101300017 MeV and 38 MeV protons. F146101300018 STATUS (TABLE) Tbl. 7 from Radiochim. Acta, 108,327,2020 F146101300019 ENDBIB 17 0 F146101300020 NOCOMMON 0 0 F146101300021 DATA 4 8 F146101300022 EN EN-ERR DATA DATA-ERR F146101300023 MEV MEV MB MB F146101300024 145. 0.6 22.2 3.3 F146101300025 133. 1.0 18.4 2.8 F146101300026 121. 1.5 21.1 3.2 F146101300027 108. 2.2 18.1 2.8 F146101300028 101. 2.5 13.9 2.1 F146101300029 95. 3.0 11.6 1.8 F146101300030 88. 3.5 8.8 1.4 F146101300031 75. 0.8 0.1 0.06 F146101300032 ENDDATA 10 0 F146101300033 ENDSUBENT 32 0 F146101399999 SUBENT F1461014 20220321 F088F146101400001 BIB 5 18 F146101400002 REACTION (51-SB-0(P,X)49-IN-114-M,,SIG) F146101400003 DECAY-DATA (49-IN-114-M,49.5D,DG,190.3,0.156,DG,558.4,0.044, F146101400004 DG,725.2,0.044) F146101400005 INC-SOURCE Initial proton energies were 158.8 +-0.3, 94.4+-0.3, F146101400006 72.7 +- 0.7 MeV; beam currents (mu-A) and irradiation F146101400007 times (h) were 1.2, 0.5, 0.07, and 5.2, 9.8, 7.9, F146101400008 correspondingly. F146101400009 SAMPLE Thin metallic antimony foils of natural isotopic F146101400010 composition (121Sb 57.21 %, 123Sb 42.79 %, purity F146101400011 more or equal to 95 %) were used. Foils with F146101400012 dimensions of 17 * 50 mm and nominal Sb thickness of F146101400013 40 mu-m on 130 mu-m polyester backing were prepared F146101400014 for irradiation with protons of initial energy 159 MeV F146101400015 and 94 MeV; and 25 mu-m foils (170 mu-m of F146101400016 polyester backing) with dimensions of 17 * 17 mm for F146101400017 irradiation with normal to target surface beam of 73 F146101400018 MeV and 38 MeV protons. F146101400019 STATUS (TABLE) Tbl. 7 from Radiochim. Acta, 108,327,2020 F146101400020 ENDBIB 18 0 F146101400021 NOCOMMON 0 0 F146101400022 DATA 4 10 F146101400023 EN EN-ERR DATA DATA-ERR F146101400024 MEV MEV MB MB F146101400025 145. 0.6 6.0 0.9 F146101400026 133. 1.0 5.7 0.9 F146101400027 101. 2.5 6.0 0.9 F146101400028 88. 3.5 5.6 0.9 F146101400029 71.4 0.2 2.5 0.4 F146101400030 68.1 0.4 2.9 0.5 F146101400031 64.8 0.6 2.1 0.4 F146101400032 61.4 0.7 1.4 0.2 F146101400033 54.8 0.8 0.5 0.1 F146101400034 51.6 0.9 0.2 0.1 F146101400035 ENDDATA 12 0 F146101400036 ENDSUBENT 35 0 F146101499999 SUBENT F1461015 20220321 F088F146101500001 BIB 6 19 F146101500002 REACTION (51-SB-0(P,X)52-TE-118,,SIG) F146101500003 DECAY-DATA (52-TE-118,6.0D) F146101500004 RAD-DET (51-SB-118-G,DG)Gamma-line of 1229.6 keV with intensityF146101500005 2.5 % via 118gSb was detected. F146101500006 INC-SOURCE Initial proton energies were 158.8 +-0.3, 94.4+-0.3, F146101500007 72.7 +- 0.7, and 37.8 +- 0.4 MeV; beam currents (mu-A) F146101500008 and irradiation times (h) were 1.2, 0.5, 0.07, F146101500009 0.03 and 5.2, 9.8, 7.9, 8.2, correspondingly. F146101500010 SAMPLE Thin metallic antimony foils of natural isotopic F146101500011 composition (121Sb 57.21 %, 123Sb 42.79 %, purity F146101500012 more or equal to 95 %) were used. Foils with F146101500013 dimensions of 17 * 50 mm and nominal Sb thickness of F146101500014 40 mu-m on 130 mu-m polyester backing were prepared F146101500015 for irradiation with protons of initial energy 159 MeV F146101500016 and 94 MeV; and 25 mu-m foils (170 mu-m of F146101500017 polyester backing) with dimensions of 17 * 17 mm for F146101500018 irradiation with normal to target surface beam of 73 F146101500019 MeV and 38 MeV protons. F146101500020 STATUS (TABLE) Tbl. 8 from Radiochim. Acta, 108,327,2020 F146101500021 ENDBIB 19 0 F146101500022 NOCOMMON 0 0 F146101500023 DATA 4 25 F146101500024 EN EN-ERR DATA DATA-ERR F146101500025 MEV MEV MB MB F146101500026 145. 0.6 16. 2.4 F146101500027 133. 1.0 18. 2.8 F146101500028 121. 1.5 30. 4.5 F146101500029 108. 2.2 38. 5.8 F146101500030 101. 2.5 35. 5.3 F146101500031 95. 3.0 40. 6.2 F146101500032 88. 3.5 45. 7.2 F146101500033 81. 4.2 48. 8.0 F146101500034 75. 0.8 107. 16. F146101500035 71.4 0.2 93. 14. F146101500036 68.1 0.4 104. 16. F146101500037 68. 1.2 111. 17. F146101500038 64.8 0.6 97. 15. F146101500039 61.4 0.7 90. 14. F146101500040 59. 1.9 101. 16. F146101500041 57.8 0.8 103. 16. F146101500042 54.8 0.8 99. 15. F146101500043 51.6 0.9 113. 18. F146101500044 48.4 0.9 163. 26. F146101500045 48. 3.1 149. 27. F146101500046 44.8 1.0 210. 34. F146101500047 41.1 1.1 219. 36. F146101500048 36.4 1.2 217. 37. F146101500049 34.9 1.3 186. 32. F146101500050 30.9 0.3 28. 4.9 F146101500051 ENDDATA 27 0 F146101500052 ENDSUBENT 51 0 F146101599999 SUBENT F1461016 20220321 F088F146101600001 BIB 5 17 F146101600002 REACTION (51-SB-0(P,X)52-TE-119-G,,SIG) F146101600003 DECAY-DATA (52-TE-119-G,16.1HR,DG,644.0,0.841,DG,699.9,0.101) F146101600004 INC-SOURCE Initial proton energies were 158.8 +-0.3, 94.4+-0.3, F146101600005 72.7 +- 0.7, and 37.8 +- 0.4 MeV; beam currents (mu-A) F146101600006 and irradiation times (h) were 1.2, 0.5, 0.07, F146101600007 0.03 and 5.2, 9.8, 7.9, 8.2, correspondingly. F146101600008 SAMPLE Thin metallic antimony foils of natural isotopic F146101600009 composition (121Sb 57.21 %, 123Sb 42.79 %, purity F146101600010 more or equal to 95 %) were used. Foils with F146101600011 dimensions of 17 * 50 mm and nominal Sb thickness of F146101600012 40 mu-m on 130 mu-m polyester backing were prepared F146101600013 for irradiation with protons of initial energy 159 MeV F146101600014 and 94 MeV; and 25 mu-m foils (170 mu-m of F146101600015 polyester backing) with dimensions of 17 * 17 mm for F146101600016 irradiation with normal to target surface beam of 73 F146101600017 MeV and 38 MeV protons. F146101600018 STATUS (TABLE) Tbl. 8 from Radiochim. Acta, 108,327,2020 F146101600019 ENDBIB 17 0 F146101600020 NOCOMMON 0 0 F146101600021 DATA 4 22 F146101600022 EN EN-ERR DATA DATA-ERR F146101600023 MEV MEV MB MB F146101600024 145. 0.6 11. 1.7 F146101600025 133. 1.0 13. 1.9 F146101600026 121. 1.5 18. 2.7 F146101600027 108. 2.2 24. 3.7 F146101600028 101. 2.5 18. 2.8 F146101600029 95. 3.0 25. 3.8 F146101600030 88. 3.5 22. 3.5 F146101600031 81. 4.2 31. 5.3 F146101600032 75. 0.8 30. 7.8 F146101600033 68.1 0.4 48. 7.2 F146101600034 61.4 0.7 61. 9.4 F146101600035 54.8 0.8 89. 14. F146101600036 48.4 0.9 107. 17. F146101600037 36.4 1.2 112. 19. F146101600038 32.4 0.2 194. 29. F146101600039 30.9 0.3 230. 35. F146101600040 29.3 0.3 273. 42. F146101600041 28.1 0.4 203. 31. F146101600042 26.8 0.4 226. 35. F146101600043 25.6 0.4 162. 25. F146101600044 24.2 0.5 68. 11. F146101600045 22.8 0.5 43. 6.9 F146101600046 ENDDATA 24 0 F146101600047 ENDSUBENT 46 0 F146101699999 SUBENT F1461017 20220321 F088F146101700001 BIB 5 18 F146101700002 REACTION (51-SB-0(P,X)52-TE-119-M,,SIG) F146101700003 DECAY-DATA (52-TE-119-M,4.7D,DG,153.6,0.660,DG,270.5,0.280, F146101700004 DG,1212.7,0.661) F146101700005 INC-SOURCE Initial proton energies were 158.8 +-0.3, 94.4+-0.3, F146101700006 72.7 +- 0.7, and 37.8 +- 0.4 MeV; beam currents (mu-A) F146101700007 and irradiation times (h) were 1.2, 0.5, 0.07, F146101700008 0.03 and 5.2, 9.8, 7.9, 8.2, correspondingly. F146101700009 SAMPLE Thin metallic antimony foils of natural isotopic F146101700010 composition (121Sb 57.21 %, 123Sb 42.79 %, purity F146101700011 more or equal to 95 %) were used. Foils with F146101700012 dimensions of 17 * 50 mm and nominal Sb thickness of F146101700013 40 mu-m on 130 mu-m polyester backing were prepared F146101700014 for irradiation with protons of initial energy 159 MeV F146101700015 and 94 MeV; and 25 mu-m foils (170 mu-m of F146101700016 polyester backing) with dimensions of 17 * 17 mm for F146101700017 irradiation with normal to target surface beam of 73 F146101700018 MeV and 38 MeV protons. F146101700019 STATUS (TABLE) Tbl. 8 from Radiochim. Acta, 108,327,2020 F146101700020 ENDBIB 18 0 F146101700021 NOCOMMON 0 0 F146101700022 DATA 4 32 F146101700023 EN EN-ERR DATA DATA-ERR F146101700024 MEV MEV MB MB F146101700025 145. 0.6 12. 1.8 F146101700026 133. 1.0 13. 1.9 F146101700027 121. 1.5 21. 3.2 F146101700028 108. 2.2 26. 3.9 F146101700029 101. 2.5 24. 3.7 F146101700030 95. 3.0 27. 4.2 F146101700031 88. 3.5 28. 4.5 F146101700032 81. 4.2 30. 5.0 F146101700033 75. 0.8 55. 8.3 F146101700034 71.4 0.2 49. 7.4 F146101700035 68.1 0.4 61. 9.2 F146101700036 68. 1.2 65. 10. F146101700037 64.8 0.6 67. 10. F146101700038 61.4 0.7 82. 13. F146101700039 59. 1.9 93. 15. F146101700040 57.8 0.8 109. 17. F146101700041 54.8 0.8 119. 18. F146101700042 51.6 0.9 114. 18. F146101700043 48.4 0.9 119. 19. F146101700044 48. 3.1 140. 25. F146101700045 44.8 1.0 107. 17. F146101700046 41.1 1.1 87. 14. F146101700047 36.4 1.2 130. 22. F146101700048 34.9 1.3 145. 25. F146101700049 32.4 0.2 215. 32. F146101700050 30.9 0.3 286. 43. F146101700051 29.3 0.3 260. 40. F146101700052 28.1 0.4 211. 33. F146101700053 26.8 0.4 190. 30. F146101700054 25.6 0.4 151. 23. F146101700055 24.2 0.5 58. 9.3 F146101700056 21.4 0.5 76. 13. F146101700057 ENDDATA 34 0 F146101700058 ENDSUBENT 57 0 F146101799999 SUBENT F1461018 20220321 F088F146101800001 BIB 6 20 F146101800002 REACTION (51-SB-0(P,X)52-TE-121-G,,SIG) F146101800003 CORRECTION Cross section of direct 121gTe formation was determinedF146101800004 by subtracting the contribution of 121mTe decay. F146101800005 DECAY-DATA (52-TE-121-G,19.2D,DG,507.6,0.177,DG,573.1,0.804) F146101800006 INC-SOURCE Initial proton energies were 158.8 +-0.3, 94.4+-0.3, F146101800007 72.7 +- 0.7, and 37.8 +- 0.4 MeV; beam currents (mu-A) F146101800008 and irradiation times (h) were 1.2, 0.5, 0.07, F146101800009 0.03 and 5.2, 9.8, 7.9, 8.2, correspondingly. F146101800010 SAMPLE Thin metallic antimony foils of natural isotopic F146101800011 composition (121Sb 57.21 %, 123Sb 42.79 %, purity F146101800012 more or equal to 95 %) were used. Foils with F146101800013 dimensions of 17 * 50 mm and nominal Sb thickness of F146101800014 40 mu-m on 130 mu-m polyester backing were prepared F146101800015 for irradiation with protons of initial energy 159 MeV F146101800016 and 94 MeV; and 25 mu-m foils (170 mu-m of F146101800017 polyester backing) with dimensions of 17 * 17 mm for F146101800018 irradiation with normal to target surface beam of 73 F146101800019 MeV and 38 MeV protons. F146101800020 STATUS (TABLE) Tbl. 8 from Radiochim. Acta, 108,327,2020 F146101800021 (DEP,F1461019) Sb(p,x)121mTe cross section F146101800022 ENDBIB 20 0 F146101800023 NOCOMMON 0 0 F146101800024 DATA 4 32 F146101800025 EN EN-ERR DATA DATA-ERR F146101800026 MEV MEV MB MB F146101800027 145. 0.6 1.5 0.2 F146101800028 133. 1.0 1.5 0.2 F146101800029 121. 1.5 2.7 0.4 F146101800030 108. 2.2 2.7 0.4 F146101800031 101. 2.5 4.0 0.6 F146101800032 95. 3.0 4.1 0.6 F146101800033 88. 3.5 5.2 0.8 F146101800034 81. 4.2 3.7 0.6 F146101800035 75. 0.8 7.4 1.9 F146101800036 71.4 0.2 12. 1.8 F146101800037 68.1 0.4 13. 2.0 F146101800038 68. 1.2 10.7 1.7 F146101800039 64.8 0.6 13. 2.0 F146101800040 61.4 0.7 13. 2.1 F146101800041 57.8 0.8 16. 2.5 F146101800042 54.8 0.8 17. 2.6 F146101800043 51.6 0.9 17. 2.7 F146101800044 48.4 0.9 22. 3.5 F146101800045 44.8 1.0 25. 4.0 F146101800046 41.1 1.1 28. 4.5 F146101800047 36.4 1.2 43. 7.3 F146101800048 34.9 1.3 47. 8.0 F146101800049 32.4 0.2 91. 14. F146101800050 30.9 0.3 131. 20. F146101800051 29.3 0.3 147. 23. F146101800052 28.1 0.4 140. 22. F146101800053 26.8 0.4 142. 22. F146101800054 25.6 0.4 125. 19. F146101800055 24.2 0.5 85. 14. F146101800056 22.8 0.5 56. 9.0 F146101800057 19.8 0.6 47. 8.3 F146101800058 18.1 0.6 62. 13. F146101800059 ENDDATA 34 0 F146101800060 ENDSUBENT 59 0 F146101899999 SUBENT F1461019 20220321 F088F146101900001 BIB 5 17 F146101900002 REACTION (51-SB-0(P,X)52-TE-121-M,,SIG) F146101900003 DECAY-DATA (52-TE-121-M,164.2D,DG,212.2,0.815,DG,1002.1,0.025) F146101900004 INC-SOURCE Initial proton energies were 158.8 +-0.3, 94.4+-0.3, F146101900005 72.7 +- 0.7, and 37.8 +- 0.4 MeV; beam currents (mu-A) F146101900006 and irradiation times (h) were 1.2, 0.5, 0.07, F146101900007 0.03 and 5.2, 9.8, 7.9, 8.2, correspondingly. F146101900008 SAMPLE Thin metallic antimony foils of natural isotopic F146101900009 composition (121Sb 57.21 %, 123Sb 42.79 %, purity F146101900010 more or equal to 95 %) were used. Foils with F146101900011 dimensions of 17 * 50 mm and nominal Sb thickness of F146101900012 40 mu-m on 130 mu-m polyester backing were prepared F146101900013 for irradiation with protons of initial energy 159 MeV F146101900014 and 94 MeV; and 25 mu-m foils (170 mu-m of F146101900015 polyester backing) with dimensions of 17 * 17 mm for F146101900016 irradiation with normal to target surface beam of 73 F146101900017 MeV and 38 MeV protons. F146101900018 STATUS (TABLE) Tbl. 8 from Radiochim. Acta, 108,327,2020 F146101900019 ENDBIB 17 0 F146101900020 NOCOMMON 0 0 F146101900021 DATA 4 33 F146101900022 EN EN-ERR DATA DATA-ERR F146101900023 MEV MEV MB MB F146101900024 145. 0.6 7.2 1.1 F146101900025 133. 1.0 7.7 1.2 F146101900026 121. 1.5 11.4 1.7 F146101900027 108. 2.2 13.2 2.0 F146101900028 101. 2.5 11.5 1.8 F146101900029 95. 3.0 14.6 2.3 F146101900030 88. 3.5 13.3 2.1 F146101900031 81. 4.2 13.8 2.3 F146101900032 75. 0.8 21.2 3.2 F146101900033 71.4 0.2 16.2 2.4 F146101900034 68.1 0.4 18.9 2.8 F146101900035 68. 1.2 22.5 3.5 F146101900036 64.8 0.6 17.3 2.6 F146101900037 61.4 0.7 17.8 2.7 F146101900038 59. 1.9 23.6 3.8 F146101900039 57.8 0.8 23.3 3.6 F146101900040 54.8 0.8 24.2 3.8 F146101900041 51.6 0.9 23.5 3.7 F146101900042 48.4 0.9 29.2 4.7 F146101900043 48. 3.1 37.3 6.8 F146101900044 44.8 1.0 37.3 6.0 F146101900045 41.1 1.1 45.2 7.3 F146101900046 36.4 1.2 74. 13. F146101900047 34.9 1.3 83. 14. F146101900048 32.4 0.2 158. 24. F146101900049 30.9 0.3 219. 33. F146101900050 29.3 0.3 225. 35. F146101900051 28.1 0.4 202. 31. F146101900052 26.8 0.4 196. 30. F146101900053 25.6 0.4 175. 27. F146101900054 24.2 0.5 109. 17. F146101900055 22.8 0.5 73. 12. F146101900056 21.4 0.5 91. 15. F146101900057 ENDDATA 35 0 F146101900058 ENDSUBENT 57 0 F146101999999 SUBENT F1461020 20220321 F088F146102000001 BIB 5 17 F146102000002 REACTION (51-SB-0(P,X)52-TE-123-M,,SIG) F146102000003 DECAY-DATA (52-TE-123-M,119.2D,DG,159.0,0.840) F146102000004 INC-SOURCE Initial proton energies were 158.8 +-0.3, 94.4+-0.3, F146102000005 72.7 +- 0.7, and 37.8 +- 0.4 MeV; beam currents (mu-A) F146102000006 and irradiation times (h) were 1.2, 0.5, 0.07, F146102000007 0.03 and 5.2, 9.8, 7.9, 8.2, correspondingly. F146102000008 SAMPLE Thin metallic antimony foils of natural isotopic F146102000009 composition (121Sb 57.21 %, 123Sb 42.79 %, purity F146102000010 more or equal to 95 %) were used. Foils with F146102000011 dimensions of 17 * 50 mm and nominal Sb thickness of F146102000012 40 mu-m on 130 mu-m polyester backing were prepared F146102000013 for irradiation with protons of initial energy 159 MeV F146102000014 and 94 MeV; and 25 mu-m foils (170 mu-m of F146102000015 polyester backing) with dimensions of 17 * 17 mm for F146102000016 irradiation with normal to target surface beam of 73 F146102000017 MeV and 38 MeV protons. F146102000018 STATUS (TABLE) Tbl. 8 from Radiochim. Acta, 108,327,2020 F146102000019 ENDBIB 17 0 F146102000020 NOCOMMON 0 0 F146102000021 DATA 4 15 F146102000022 EN EN-ERR DATA DATA-ERR F146102000023 MEV MEV MB MB F146102000024 44.8 1.0 0.2 0.04 F146102000025 41.1 1.1 1.3 0.2 F146102000026 36.4 1.2 2.4 0.4 F146102000027 34.9 1.3 3.7 0.6 F146102000028 32.4 0.2 5.0 0.7 F146102000029 30.9 0.3 5.1 0.8 F146102000030 29.3 0.3 4.4 0.7 F146102000031 28.1 0.4 7.2 1.1 F146102000032 26.8 0.4 8.5 1.3 F146102000033 25.6 0.4 7.4 1.1 F146102000034 24.2 0.5 9.3 1.5 F146102000035 22.8 0.5 8.9 1.4 F146102000036 21.4 0.5 10.0 1.7 F146102000037 19.8 0.6 12.4 2.2 F146102000038 18.1 0.6 17.0 3.6 F146102000039 ENDDATA 17 0 F146102000040 ENDSUBENT 39 0 F146102099999 SUBENT F1461021 20220321 F088F146102100001 BIB 6 15 F146102100002 REACTION (51-SB-123(P,6N)52-TE-118,,SIG) F146102100003 DECAY-DATA (52-TE-118,6.0D) F146102100004 RAD-DET (51-SB-118-G,DG)Gamma-line of 1229.6 keV with intensityF146102100005 2.5 % via 118gSb was detected. F146102100006 INC-SOURCE Initial proton energies were 113.3 +- 0.3, 72.7 +- 0.7 F146102100007 MeV (as well as calculated from experiments with F146102100008 natSb and 121Sb); beam currents (mu-A) and F146102100009 irradiation times (h) were 0.5, 0.02 and 9.9, 5.3, F146102100010 correspondingly. F146102100011 SAMPLE (51-SB-123,ENR=0.9820) Enriched material was in the F146102100012 form of dispersed metallic grains. The material was F146102100013 pounded in a mortar to fine powder and then it was F146102100014 utilized for preparation of target with thickness F146102100015 27-49 mg/cm by different methods. F146102100016 STATUS (TABLE) Tbl. 9 from Radiochim. Acta, 108,327,2020 F146102100017 ENDBIB 15 0 F146102100018 NOCOMMON 0 0 F146102100019 DATA 4 10 F146102100020 EN EN-ERR DATA DATA-ERR F146102100021 MEV MEV MB MB F146102100022 88.4 1.0 59. 9. F146102100023 79.5 1.4 73. 11. F146102100024 71.2 0.2 110. 16. F146102100025 69.7 2.1 138. 22. F146102100026 67.6 0.5 124. 19. F146102100027 63.8 0.7 125. 19. F146102100028 59.8 0.8 94. 14. F146102100029 58.7 3.2 114. 20. F146102100030 55.8 1.0 62. 10. F146102100031 52.2 1.0 38. 9. F146102100032 ENDDATA 12 0 F146102100033 ENDSUBENT 32 0 F146102199999 SUBENT F1461022 20220321 F088F146102200001 BIB 5 13 F146102200002 REACTION (51-SB-123(P,5N)52-TE-119-G,,SIG) F146102200003 DECAY-DATA (52-TE-119-G,16.1HR,DG,644.0,0.841,DG,699.9,0.101) F146102200004 INC-SOURCE Initial proton energies were 113.3 +- 0.3, 72.7 +- 0.7 F146102200005 MeV (as well as calculated from experiments with F146102200006 natSb and 121Sb); beam currents (mu-A) and F146102200007 irradiation times (h) were 0.5, 0.02 and 9.9, 5.3, F146102200008 correspondingly. F146102200009 SAMPLE (51-SB-123,ENR=0.9820) Enriched material was in the F146102200010 form of dispersed metallic grains. The material was F146102200011 pounded in a mortar to fine powder and then it was F146102200012 utilized for preparation of target with thickness F146102200013 27-49 mg/cm by different methods. F146102200014 STATUS (TABLE) Tbl. 9 from Radiochim. Acta, 108,327,2020 F146102200015 ENDBIB 13 0 F146102200016 NOCOMMON 0 0 F146102200017 DATA 4 10 F146102200018 EN EN-ERR DATA DATA-ERR F146102200019 MEV MEV MB MB F146102200020 71.2 0.2 33. 5. F146102200021 67.6 0.5 40. 6. F146102200022 63.8 0.7 58. 9. F146102200023 59.8 0.8 81. 12. F146102200024 55.8 1.0 96. 15. F146102200025 52.2 1.0 137. 21. F146102200026 48.5 1.0 132. 21. F146102200027 44.5 1.1 128. 20. F146102200028 40.3 1.2 79. 15. F146102200029 35.9 1.3 21. 9. F146102200030 ENDDATA 12 0 F146102200031 ENDSUBENT 30 0 F146102299999 SUBENT F1461023 20220321 F088F146102300001 BIB 5 14 F146102300002 REACTION (51-SB-123(P,5N)52-TE-119-M,,SIG) F146102300003 DECAY-DATA (52-TE-119-M,4.7D,DG,153.6,0.660,DG,270.5,0.280, F146102300004 DG,1212.7,0.661) F146102300005 INC-SOURCE Initial proton energies were 113.3 +- 0.3, 72.7 +- 0.7 F146102300006 MeV (as well as calculated from experiments with F146102300007 natSb and 121Sb); beam currents (mu-A) and F146102300008 irradiation times (h) were 0.5, 0.02 and 9.9, 5.3, F146102300009 correspondingly. F146102300010 SAMPLE (51-SB-123,ENR=0.9820) Enriched material was in the F146102300011 form of dispersed metallic grains. The material was F146102300012 pounded in a mortar to fine powder and then it was F146102300013 utilized for preparation of target with thickness F146102300014 27-49 mg/cm by different methods. F146102300015 STATUS (TABLE) Tbl. 9 from Radiochim. Acta, 108,327,2020 F146102300016 ENDBIB 14 0 F146102300017 NOCOMMON 0 0 F146102300018 DATA 4 15 F146102300019 EN EN-ERR DATA DATA-ERR F146102300020 MEV MEV MB MB F146102300021 88.4 1.0 42. 6.4 F146102300022 79.5 1.4 43. 6.8 F146102300023 71.2 0.2 59. 9. F146102300024 69.7 2.1 81. 13. F146102300025 67.6 0.5 75. 11. F146102300026 63.8 0.7 108. 16. F146102300027 59.8 0.8 146. 22. F146102300028 58.7 3.2 159. 28. F146102300029 55.8 1.0 168. 26. F146102300030 52.2 1.0 219. 34. F146102300031 48.5 1.0 192. 30. F146102300032 45.8 5.4 154. 35. F146102300033 44.5 1.1 174. 27. F146102300034 40.3 1.2 86. 17. F146102300035 35.9 1.3 29. 12. F146102300036 ENDDATA 17 0 F146102300037 ENDSUBENT 36 0 F146102399999 SUBENT F1461024 20220321 F088F146102400001 BIB 6 16 F146102400002 REACTION (51-SB-123(P,3N)52-TE-121-G,,SIG) F146102400003 CORRECTION Cross section of direct 121gTe formation was determinedF146102400004 by subtracting the contribution of 121mTe decay. F146102400005 DECAY-DATA (52-TE-121-G,19.2D,DG,507.6,0.177,DG,573.1,0.804) F146102400006 INC-SOURCE Initial proton energies were 113.3 +- 0.3, 72.7 +- 0.7 F146102400007 MeV (as well as calculated from experiments with F146102400008 natSb and 121Sb); beam currents (mu-A) and F146102400009 irradiation times (h) were 0.5, 0.02 and 9.9, 5.3, F146102400010 correspondingly. F146102400011 SAMPLE (51-SB-123,ENR=0.9820) Enriched material was in the F146102400012 form of dispersed metallic grains. The material was F146102400013 pounded in a mortar to fine powder and then it was F146102400014 utilized for preparation of target with thickness F146102400015 27-49 mg/cm by different methods. F146102400016 STATUS (TABLE) Tbl. 9 from Radiochim. Acta, 108,327,2020 F146102400017 (DEP,F1461025) 123Sb(p,3n)121mTe cross section F146102400018 ENDBIB 16 0 F146102400019 NOCOMMON 0 0 F146102400020 DATA 4 25 F146102400021 EN EN-ERR DATA DATA-ERR F146102400022 MEV MEV MB MB F146102400023 88.4 1.0 18. 2.7 F146102400024 79.5 1.4 16. 2.5 F146102400025 71.2 0.2 19. 2.8 F146102400026 69.7 2.1 23. 3.6 F146102400027 67.6 0.5 20. 3.1 F146102400028 63.8 0.7 24. 3.6 F146102400029 59.8 0.8 26. 4.0 F146102400030 58.7 3.2 30. 5.3 F146102400031 55.8 1.0 26. 4.1 F146102400032 52.2 1.0 34. 5.4 F146102400033 48.5 1.0 34. 5.3 F146102400034 45.8 5.4 42. 10. F146102400035 44.5 1.1 47. 7.4 F146102400036 40.3 1.2 58. 9.5 F146102400037 35.9 1.3 72. 12. F146102400038 34.4 1.4 86. 14. F146102400039 32.9 1.4 115. 19. F146102400040 32. 0.3 169. 36. F146102400041 30. 0.4 285. 61. F146102400042 28. 0.5 304. 66. F146102400043 26. 0.6 240. 53. F146102400044 24. 0.7 122. 27. F146102400045 22. 0.8 75. 17. F146102400046 20. 0.9 19. 4.5 F146102400047 18. 1.1 7.2 2.7 F146102400048 ENDDATA 27 0 F146102400049 ENDSUBENT 48 0 F146102499999 SUBENT F1461025 20220321 F088F146102500001 BIB 5 13 F146102500002 REACTION (51-SB-123(P,3N)52-TE-121-M,,SIG) F146102500003 DECAY-DATA (52-TE-121-M,164.2D,DG,212.2,0.815,DG,1002.1,0.025) F146102500004 INC-SOURCE Initial proton energies were 113.3 +- 0.3, 72.7 +- 0.7 F146102500005 MeV (as well as calculated from experiments with F146102500006 natSb and 121Sb); beam currents (mu-A) and F146102500007 irradiation times (h) were 0.5, 0.02 and 9.9, 5.3, F146102500008 correspondingly. F146102500009 SAMPLE (51-SB-123,ENR=0.9820) Enriched material was in the F146102500010 form of dispersed metallic grains. The material was F146102500011 pounded in a mortar to fine powder and then it was F146102500012 utilized for preparation of target with thickness F146102500013 27-49 mg/cm by different methods. F146102500014 STATUS (TABLE) Tbl. 9 from Radiochim. Acta, 108,327,2020 F146102500015 ENDBIB 13 0 F146102500016 NOCOMMON 0 0 F146102500017 DATA 4 24 F146102500018 EN EN-ERR DATA DATA-ERR F146102500019 MEV MEV MB MB F146102500020 88.4 1.0 24. 3.6 F146102500021 79.5 1.4 23. 3.6 F146102500022 71.2 0.2 25. 3.7 F146102500023 69.7 2.1 31. 4.9 F146102500024 67.6 0.5 26. 4.0 F146102500025 63.8 0.7 38. 5.8 F146102500026 59.8 0.8 39. 5.9 F146102500027 58.7 3.2 43. 7.5 F146102500028 55.8 1.0 38. 5.9 F146102500029 52.2 1.0 50. 7.9 F146102500030 48.5 1.0 53. 8.3 F146102500031 45.8 5.4 65. 15. F146102500032 44.5 1.1 75. 12. F146102500033 40.3 1.2 97. 16. F146102500034 35.9 1.3 133. 22. F146102500035 34.4 1.4 161. 27. F146102500036 32.9 1.4 220. 37. F146102500037 32. 0.3 334. 71. F146102500038 30. 0.4 500. 106. F146102500039 28. 0.5 479. 104. F146102500040 26. 0.6 368. 81. F146102500041 24. 0.7 231. 51. F146102500042 22. 0.8 135. 30. F146102500043 20. 0.9 70. 24. F146102500044 ENDDATA 26 0 F146102500045 ENDSUBENT 44 0 F146102599999 SUBENT F1461026 20220321 F088F146102600001 BIB 5 13 F146102600002 REACTION (51-SB-123(P,N)52-TE-123-M,,SIG) F146102600003 DECAY-DATA (52-TE-123-M,119.2D,DG,159.0,0.840) F146102600004 INC-SOURCE Initial proton energies were 113.3 +- 0.3, 72.7 +- 0.7 F146102600005 MeV (as well as calculated from experiments with F146102600006 natSb and 121Sb); beam currents (mu-A) and F146102600007 irradiation times (h) were 0.5, 0.02 and 9.9, 5.3, F146102600008 correspondingly. F146102600009 SAMPLE (51-SB-123,ENR=0.9820) Enriched material was in the F146102600010 form of dispersed metallic grains. The material was F146102600011 pounded in a mortar to fine powder and then it was F146102600012 utilized for preparation of target with thickness F146102600013 27-49 mg/cm by different methods. F146102600014 STATUS (TABLE) Tbl. 9 from Radiochim. Acta, 108,327,2020 F146102600015 ENDBIB 13 0 F146102600016 NOCOMMON 0 0 F146102600017 DATA 4 4 F146102600018 EN EN-ERR DATA DATA-ERR F146102600019 MEV MEV MB MB F146102600020 40.3 1.2 0.6 0.1 F146102600021 35.9 1.3 5.1 0.9 F146102600022 34.4 1.4 5.3 0.9 F146102600023 32.9 1.4 8.7 1.5 F146102600024 ENDDATA 6 0 F146102600025 ENDSUBENT 24 0 F146102699999 SUBENT F1461027 20220321 F088F146102700001 BIB 6 14 F146102700002 REACTION (51-SB-121(P,4N)52-TE-118,,SIG) F146102700003 DECAY-DATA (52-TE-118,6.0D) F146102700004 RAD-DET (51-SB-118-G,DG)Gamma-line of 1229.6 keV with intensityF146102700005 2.5 % via 118gSb was detected. F146102700006 INC-SOURCE Initial proton energy was 37.8 +-0.4 MeV (as well as F146102700007 calculated from experiments with natSb and 123Sb); F146102700008 beam current (mu-A) was 0.05 and irradiation time (h) F146102700009 was 8.0. F146102700010 SAMPLE (51-SB-121,ENR=0.9953) Enriched material was in the F146102700011 form of dispersed metallic grains. The material was F146102700012 pounded in a mortar to fine powder and then it was F146102700013 utilized for preparation of target with thickness F146102700014 27-49 mg/cm by different methods. F146102700015 STATUS (TABLE) Tbl. 10 from Radiochim. Acta, 108,327,2020 F146102700016 ENDBIB 14 0 F146102700017 NOCOMMON 0 0 F146102700018 DATA 4 17 F146102700019 EN EN-ERR DATA DATA-ERR F146102700020 MEV MEV MB MB F146102700021 88. 3.7 42. 7. F146102700022 84. 4.1 43. 7. F146102700023 80. 4.5 51. 8. F146102700024 76. 3.3 65. 11. F146102700025 72. 2.1 80. 14. F146102700026 68. 2.5 81. 16. F146102700027 64. 2.9 79. 16. F146102700028 60. 3.3 89. 19. F146102700029 56. 1.2 124. 27. F146102700030 52. 1.3 179. 40. F146102700031 48. 1.4 280. 45. F146102700032 44. 1.5 376. 60. F146102700033 40. 1.6 421. 68. F146102700034 36. 1.8 355. 60. F146102700035 34. 1.8 236. 40. F146102700036 32.3 0.2 20. 7. F146102700037 32. 1.8 87. 18. F146102700038 ENDDATA 19 0 F146102700039 ENDSUBENT 38 0 F146102799999 SUBENT F1461028 20220321 F088F146102800001 BIB 5 12 F146102800002 REACTION (51-SB-121(P,3N)52-TE-119-G,,SIG) F146102800003 DECAY-DATA (52-TE-119-G,16.1HR,DG,644.0,0.841,DG,699.9,0.101) F146102800004 INC-SOURCE Initial proton energy was 37.8 +-0.4 MeV (as well as F146102800005 calculated from experiments with natSb and 123Sb); F146102800006 beam current (mu-A) was 0.05 and irradiation time (h) F146102800007 was 8.0. F146102800008 SAMPLE (51-SB-121,ENR=0.9953) Enriched material was in the F146102800009 form of dispersed metallic grains. The material was F146102800010 pounded in a mortar to fine powder and then it was F146102800011 utilized for preparation of target with thickness F146102800012 27-49 mg/cm by different methods. F146102800013 STATUS (TABLE) Tbl. 10 from Radiochim. Acta, 108,327,2020 F146102800014 ENDBIB 12 0 F146102800015 NOCOMMON 0 0 F146102800016 DATA 4 17 F146102800017 EN EN-ERR DATA DATA-ERR F146102800018 MEV MEV MB MB F146102800019 72. 2.1 47. 9.1 F146102800020 68. 2.5 53. 11. F146102800021 64. 2.9 58. 13. F146102800022 60. 3.3 66. 16. F146102800023 56. 1.2 75. 16. F146102800024 52. 1.3 80. 18. F146102800025 48. 1.4 81. 18. F146102800026 44. 1.5 94. 21. F146102800027 40. 1.6 126. 32. F146102800028 36. 1.8 186. 52. F146102800029 34. 1.8 262. 63. F146102800030 32.3 0.2 316. 47. F146102800031 32. 1.8 364. 82. F146102800032 27.7 0.4 402. 61. F146102800033 26. 0.5 240. 44. F146102800034 24.6 0.6 214. 41. F146102800035 22.7 0.7 127. 39. F146102800036 ENDDATA 19 0 F146102800037 ENDSUBENT 36 0 F146102899999 SUBENT F1461029 20220321 F088F146102900001 BIB 5 13 F146102900002 REACTION (51-SB-121(P,3N)52-TE-119-M,,SIG) F146102900003 DECAY-DATA (52-TE-119-M,4.7D,DG,153.6,0.660,DG,270.5,0.280, F146102900004 DG,1212.7,0.661) F146102900005 INC-SOURCE Initial proton energy was 37.8 +-0.4 MeV (as well as F146102900006 calculated from experiments with natSb and 123Sb); F146102900007 beam current (mu-A) was 0.05 and irradiation time (h) F146102900008 was 8.0. F146102900009 SAMPLE (51-SB-121,ENR=0.9953) Enriched material was in the F146102900010 form of dispersed metallic grains. The material was F146102900011 pounded in a mortar to fine powder and then it was F146102900012 utilized for preparation of target with thickness F146102900013 27-49 mg/cm by different methods. F146102900014 STATUS (TABLE) Tbl. 10 from Radiochim. Acta, 108,327,2020 F146102900015 ENDBIB 13 0 F146102900016 NOCOMMON 0 0 F146102900017 DATA 4 21 F146102900018 EN EN-ERR DATA DATA-ERR F146102900019 MEV MEV MB MB F146102900020 88. 3.7 25. 4.0 F146102900021 84. 4.1 30. 4.8 F146102900022 80. 4.5 35. 5.8 F146102900023 76. 3.3 39. 7.0 F146102900024 72. 2.1 43. 8.3 F146102900025 68. 2.5 49. 10. F146102900026 64. 2.9 51. 11. F146102900027 60. 3.3 53. 12. F146102900028 56. 1.2 57. 13. F146102900029 52. 1.3 55. 12. F146102900030 48. 1.4 61. 14. F146102900031 44. 1.5 68. 15. F146102900032 40. 1.6 103. 26. F146102900033 36. 1.8 197. 55. F146102900034 34. 1.8 280. 67. F146102900035 32.3 0.2 381. 57. F146102900036 32. 1.8 420. 95. F146102900037 27.7 0.4 361. 55. F146102900038 26. 0.5 250. 46. F146102900039 24.6 0.6 184. 35. F146102900040 22.7 0.7 122. 29. F146102900041 ENDDATA 23 0 F146102900042 ENDSUBENT 41 0 F146102999999 SUBENT F1461030 20220321 F088F146103000001 BIB 6 15 F146103000002 REACTION (51-SB-121(P,N)52-TE-121-G,,SIG) F146103000003 CORRECTION Cross section of direct 121gTe formation was determinedF146103000004 by subtracting the contribution of 121mTe decay. F146103000005 DECAY-DATA (52-TE-121-G,19.2D,DG,507.6,0.177,DG,573.1,0.804) F146103000006 INC-SOURCE Initial proton energy was 37.8 +-0.4 MeV (as well as F146103000007 calculated from experiments with natSb and 123Sb); F146103000008 beam current (mu-A) was 0.05 and irradiation time (h) F146103000009 was 8.0. F146103000010 SAMPLE (51-SB-121,ENR=0.9953) Enriched material was in the F146103000011 form of dispersed metallic grains. The material was F146103000012 pounded in a mortar to fine powder and then it was F146103000013 utilized for preparation of target with thickness F146103000014 27-49 mg/cm by different methods. F146103000015 STATUS (TABLE) Tbl. 10 from Radiochim. Acta, 108,327,2020 F146103000016 (DEP,F1461031) 121Sb(p,n)121mTe cross section F146103000017 ENDBIB 15 0 F146103000018 NOCOMMON 0 0 F146103000019 DATA 4 25 F146103000020 EN EN-ERR DATA DATA-ERR F146103000021 MEV MEV MB MB F146103000022 80. 4.5 0.7 0.1 F146103000023 76. 3.3 1.6 0.3 F146103000024 72. 2.1 2.5 0.5 F146103000025 68. 2.5 3.4 0.7 F146103000026 64. 2.9 4.1 0.9 F146103000027 60. 3.3 4.9 1.1 F146103000028 56. 1.2 5.8 1.3 F146103000029 52. 1.3 6.9 1.5 F146103000030 48. 1.4 7.4 1.7 F146103000031 44. 1.5 8.8 2.0 F146103000032 40. 1.6 11. 2.6 F146103000033 36. 1.8 15. 3.4 F146103000034 34. 1.8 19. 4.6 F146103000035 32.3 0.2 15. 2.2 F146103000036 32. 1.8 23. 6.1 F146103000037 27.7 0.4 32. 4.9 F146103000038 26. 0.5 46. 7.1 F146103000039 24.6 0.6 59. 9.3 F146103000040 22.7 0.7 69. 11. F146103000041 19.8 0.8 80. 13. F146103000042 16.8 0.9 122. 21. F146103000043 14.3 1.1 185. 35. F146103000044 12.2 1.2 209. 45. F146103000045 9.7 1.4 214. 57. F146103000046 6.6 1.7 171. 73. F146103000047 ENDDATA 27 0 F146103000048 ENDSUBENT 47 0 F146103099999 SUBENT F1461031 20220321 F088F146103100001 BIB 5 12 F146103100002 REACTION (51-SB-121(P,N)52-TE-121-M,,SIG) F146103100003 DECAY-DATA (52-TE-121-M,164.2D,DG,212.2,0.815,DG,1002.1,0.025) F146103100004 INC-SOURCE Initial proton energy was 37.8 +-0.4 MeV (as well as F146103100005 calculated from experiments with natSb and 123Sb); F146103100006 beam current (mu-A) was 0.05 and irradiation time (h) F146103100007 was 8.0. F146103100008 SAMPLE (51-SB-121,ENR=0.9953) Enriched material was in the F146103100009 form of dispersed metallic grains. The material was F146103100010 pounded in a mortar to fine powder and then it was F146103100011 utilized for preparation of target with thickness F146103100012 27-49 mg/cm by different methods. F146103100013 STATUS (TABLE) Tbl. 10 from Radiochim. Acta, 108,327,2020 F146103100014 ENDBIB 12 0 F146103100015 NOCOMMON 0 0 F146103100016 DATA 4 27 F146103100017 EN EN-ERR DATA DATA-ERR F146103100018 MEV MEV MB MB F146103100019 88. 3.7 10. 1.6 F146103100020 84. 4.1 10. 1.6 F146103100021 80. 4.5 10. 1.7 F146103100022 76. 3.3 11. 1.9 F146103100023 72. 2.1 10. 2.0 F146103100024 68. 2.5 10. 2.0 F146103100025 64. 2.9 10. 2.2 F146103100026 60. 3.3 10. 2.4 F146103100027 56. 1.2 11. 2.5 F146103100028 52. 1.3 12. 2.7 F146103100029 48. 1.4 14. 3.0 F146103100030 44. 1.5 15. 3.3 F146103100031 40. 1.6 13. 3.1 F146103100032 36. 1.8 17. 4.1 F146103100033 34. 1.8 19. 4.5 F146103100034 32.3 0.2 17. 2.6 F146103100035 32. 1.8 22. 5.8 F146103100036 27.7 0.4 34. 5.2 F146103100037 26. 0.5 46. 7.2 F146103100038 24.6 0.6 55. 8.6 F146103100039 22.7 0.7 64. 10. F146103100040 19.8 0.8 71. 12. F146103100041 16.8 0.9 117. 21. F146103100042 14.3 1.1 164. 31. F146103100043 12.2 1.2 177. 38. F146103100044 9.7 1.4 174. 46. F146103100045 6.6 1.7 140. 60. F146103100046 ENDDATA 29 0 F146103100047 ENDSUBENT 46 0 F146103199999 SUBENT F1461032 20220221 F088F146103200001 BIB 5 6 F146103200002 REACTION (51-SB-0(P,X)50-SN-117-M,CUM,TTY,,EOB,DERIV) F146103200003 ANALYSIS (INTEF) F146103200004 DECAY-DATA (50-SN-117-M,14.0D,DG,156.0,0.021,DG,158.6,0.864) F146103200005 SAMPLE Thick natSb target was used. F146103200006 STATUS (TABLE) Data from text p. 335, from Radiochim. Acta, F146103200007 108,327,2020 F146103200008 ENDBIB 6 0 F146103200009 COMMON 1 3 F146103200010 TIME-IRRD F146103200011 HR F146103200012 1. F146103200013 ENDCOMMON 3 0 F146103200014 DATA 4 2 F146103200015 EN-MAX EN-MIN DATA-MIN DATA F146103200016 MEV MEV MBQ/MUA MBQ/MUA F146103200017 145. 20. 20. F146103200018 55. 1.6 F146103200019 ENDDATA 4 0 F146103200020 ENDSUBENT 19 0 F146103299999 SUBENT F1461033 20220221 F088F146103300001 BIB 5 6 F146103300002 REACTION (51-SB-123(P,X)50-SN-117-M,CUM,TTY,,EOB,DERIV) F146103300003 ANALYSIS (INTEF) F146103300004 DECAY-DATA (50-SN-117-M,14.0D,DG,156.0,0.021,DG,158.6,0.864) F146103300005 SAMPLE Thick 123Sb target was used. F146103300006 STATUS (TABLE) Data from text p. 335, from Radiochim. Acta, F146103300007 108,327,2020 F146103300008 ENDBIB 6 0 F146103300009 COMMON 1 3 F146103300010 TIME-IRRD F146103300011 HR F146103300012 1. F146103300013 ENDCOMMON 3 0 F146103300014 DATA 3 2 F146103300015 EN-MAX EN-MIN DATA F146103300016 MEV MEV MBQ/MUA F146103300017 88. 24. 4.7 F146103300018 70. 3.2 F146103300019 ENDDATA 4 0 F146103300020 ENDSUBENT 19 0 F146103399999 ENDENTRY 33 0 F146199999999