ENTRY F1214 20180616 F069F121400000001 SUBENT F1214001 20180616 F069F121400100001 BIB 11 22 F121400100002 TITLE Methods for producing the Mn-52 isotope. F121400100003 AUTHOR (P.P.Dmitriev,I.O.Konstantinov,N.N.Krasnov) F121400100004 INSTITUTE (4RUSFEI) F121400100005 REFERENCE (J,AE,26,467,1969) F121400100006 (J,SJA,26,539,1969) English translation F121400100007 REL-REF (I,F1224001,N.N.Krasnov+,J,AE,21,52,1966) Details F121400100008 of experiment are given (J,AE/T,21,678 - English F121400100009 translation) F121400100010 FACILITY (CYCLO,4RUSFEI) 1.5-m cyclotron was used. F121400100011 DETECTOR (NAICR) 100-channel scintillation detector with F121400100012 NaI(Tl) crystal was used. F121400100013 SAMPLE Metallic disks with diameter of 10 mm were used as F121400100014 targets. F121400100015 METHOD (EDEG) F121400100016 (BCINT) F121400100017 ERR-ANALYS (DATA-ERR) Total error of yield and cross section F121400100018 determination. F121400100019 HISTORY (20140605C) F121400100020 (20160423U) SD: Title of the journal corrected (SJA -> F121400100021 AE; AE/T -> SJA). Small corrections. F121400100022 (20180616A) SD: REACTION code was updated according to F121400100023 MEMO CP-D/933rev. in Subents 004-006. F121400100024 ENDBIB 22 0 F121400100025 COMMON 1 3 F121400100026 DATA-ERR F121400100027 PER-CENT F121400100028 13. F121400100029 ENDCOMMON 3 0 F121400100030 ENDSUBENT 29 0 F121400199999 SUBENT F1214002 20140605 F055F121400200001 BIB 3 7 F121400200002 REACTION (24-CR-0(P,X)25-MN-52,,TTY,,PHY) F121400200003 SAMPLE Chromium targets were produced by electrolysis followedF121400200004 by dilution of cuprum backing. Natural chromium target F121400200005 contained Cr-52 - 83.76%; F121400200006 Cr-53 - 9.55%; F121400200007 Cr-54 - 2.38%. F121400200008 STATUS (TABLE) Table 1. F121400200009 ENDBIB 7 0 F121400200010 NOCOMMON 0 0 F121400200011 DATA 3 9 F121400200012 EN EN-ERR DATA F121400200013 MEV MEV MCI/MUAHR F121400200014 8.6 0.4 10. F121400200015 9.2 0.3 16. F121400200016 9.7 0.3 25. F121400200017 10.4 0.3 40. F121400200018 12.1 0.7 125. F121400200019 15.7 0.6 260. F121400200020 17.6 0.6 385. F121400200021 20.8 0.5 500. F121400200022 22.35 0.5 570. F121400200023 ENDDATA 11 0 F121400200024 ENDSUBENT 23 0 F121400299999 SUBENT F1214003 20140605 F055F121400300001 BIB 3 6 F121400300002 REACTION (24-CR-0(D,X)25-MN-52,,TTY,,PHY) F121400300003 SAMPLE Chromium targets were produced by electrolysis followedF121400300004 by dilution of cuprum backing. Natural chromium targetF121400300005 contained Cr-52 - 83.76%; F121400300006 Cr-53 - 9.55%. F121400300007 STATUS (TABLE) Table 1. F121400300008 ENDBIB 6 0 F121400300009 NOCOMMON 0 0 F121400300010 DATA 3 7 F121400300011 EN EN-ERR DATA F121400300012 MEV MEV MUCI/MUAHR F121400300013 8.9 0.8 11. F121400300014 12.7 0.7 60. F121400300015 14.7 0.7 115. F121400300016 17.0 0.6 190. F121400300017 18.7 0.6 250. F121400300018 20.0 0.5 300. F121400300019 21.15 0.5 350. F121400300020 ENDDATA 9 0 F121400300021 ENDSUBENT 20 0 F121400399999 SUBENT F1214004 20180616 F069F121400400001 BIB 4 6 F121400400002 REACTION (24-CR-0(A,X)25-MN-52,,TTY,,PHY) F121400400003 SAMPLE Chromium targets were produced by electrolysis followedF121400400004 by dilution of cuprum backing. Natural chromium target F121400400005 contained Cr-50 - 4.31%. F121400400006 STATUS (TABLE) Table 1 from Atom.Energ.,26(1969)467 F121400400007 HISTORY (20180616A) SD: Right part of REACTION code was deletedF121400400008 ENDBIB 6 0 F121400400009 NOCOMMON 0 0 F121400400010 DATA 3 8 F121400400011 EN EN-ERR DATA F121400400012 MEV MEV MUCI/MUAHR F121400400013 17.2 1.9 0.02 F121400400014 22.7 1.7 1.2 F121400400015 25.0 1.6 2.0 F121400400016 27.0 1.6 2.6 F121400400017 29.7 1.5 3.8 F121400400018 33.2 1.4 6.1 F121400400019 35.5 1.4 7.25 F121400400020 41.0 1.0 10.5 F121400400021 ENDDATA 10 0 F121400400022 ENDSUBENT 21 0 F121400499999 SUBENT F1214005 20180616 F069F121400500001 BIB 4 7 F121400500002 REACTION (23-V-51(A,3N)25-MN-52,,TTY,,PHY) F121400500003 SAMPLE Vanadium targets were used both in a form of stacked F121400500004 foils each with the thickness of 20 mu-m, and in a formF121400500005 of thick samples. Natural vanadium target contained F121400500006 99.76% of V-51 isotope. F121400500007 STATUS (TABLE) Table 1 from Atom.Energ.,26(1969)467 F121400500008 HISTORY (20180616A) SD: Left part of REACTION code was deleted F121400500009 ENDBIB 7 0 F121400500010 NOCOMMON 0 0 F121400500011 DATA 3 4 F121400500012 EN EN-ERR DATA F121400500013 MEV MEV MUCI/MUAHR F121400500014 30.7 1.4 3.2 F121400500015 37.2 1.2 27. F121400500016 41.5 1.1 60. F121400500017 42.2 1.0 78. F121400500018 ENDDATA 6 0 F121400500019 ENDSUBENT 18 0 F121400599999 SUBENT F1214006 20180616 F069F121400600001 BIB 4 7 F121400600002 REACTION (26-FE-0(D,X)25-MN-52,,TTY,,PHY) F121400600003 SAMPLE Iron targets were used both in a form of stacked F121400600004 foils each with the thickness of 20 mu-m, and in a formF121400600005 of thick samples. Natural iron target contained F121400600006 5.84% of Fe-54 isotope. F121400600007 STATUS (TABLE) Table 1 from Atom.Energ.,26(1969)467 F121400600008 HISTORY (20180616A) SD: Right part of REACTION code was deletedF121400600009 ENDBIB 7 0 F121400600010 NOCOMMON 0 0 F121400600011 DATA 3 1 F121400600012 EN EN-ERR DATA F121400600013 MEV MEV MUCI/MUAHR F121400600014 21.2 0.5 2.6 F121400600015 ENDDATA 3 0 F121400600016 ENDSUBENT 15 0 F121400699999 SUBENT F1214007 20180616 F069F121400700001 BIB 4 7 F121400700002 REACTION (23-V-51(A,3N)25-MN-52,,SIG) F121400700003 SAMPLE Vanadium targets were used both in a form of stacked F121400700004 foils each with the thickness of 20 mu-m, and in a formF121400700005 of thick samples. Natural vanadium target contained F121400700006 99.76% of V-51 isotope. F121400700007 STATUS (TABLE) Table 2 from Atom.Energ.,26(1969)467 F121400700008 HISTORY (20180616A) SD: Left part of REACTION code was deleted.F121400700009 ENDBIB 7 0 F121400700010 NOCOMMON 0 0 F121400700011 DATA 3 9 F121400700012 EN EN-ERR DATA F121400700013 MEV MEV MB F121400700014 40.8 1.0 173. F121400700015 39.3 1.1 155. F121400700016 37.8 1.2 144. F121400700017 36.3 1.2 126. F121400700018 34.8 1.3 100. F121400700019 33.3 1.3 72. F121400700020 31.6 1.4 36. F121400700021 30.0 1.4 9.4 F121400700022 28.2 1.5 1.2 F121400700023 ENDDATA 11 0 F121400700024 ENDSUBENT 23 0 F121400799999 SUBENT F1214008 20180616 F069F121400800001 BIB 4 7 F121400800002 REACTION (26-FE-0(D,X)25-MN-52,,SIG) F121400800003 SAMPLE Iron targets were used both in a form of stacked F121400800004 foils each with the thickness of 20 mu-m, and in a formF121400800005 of thick samples. Natural iron target contained F121400800006 5.84% of Fe-54 isotope. F121400800007 STATUS (TABLE) Table 2 from Atom.Energ.,26(1969)467 F121400800008 HISTORY (20180616A) SD: Right part of REACTION code was deletedF121400800009 ENDBIB 7 0 F121400800010 NOCOMMON 0 0 F121400800011 DATA 3 9 F121400800012 EN EN-ERR DATA F121400800013 MEV MEV MB F121400800014 20.8 0.5 10.7 F121400800015 19.55 0.5 11.7 F121400800016 18.15 0.6 13.5 F121400800017 16.7 0.6 16.8 F121400800018 15.1 0.7 21.1 F121400800019 13.4 0.7 25.2 F121400800020 11.55 0.7 28.3 F121400800021 9.0 0.8 16.0 F121400800022 6.6 0.8 5.9 F121400800023 ENDDATA 11 0 F121400800024 ENDSUBENT 23 0 F121400899999 ENDENTRY 8 0 F121499999999