ENTRY A0199 20240819 A116A019900000001 SUBENT A0199001 20240819 A116A019900100001 BIB 15 43 A019900100002 TITLE Yield of 118Te (generator of 118Sb), Te-119m, A019900100003 Te-121m, 121Te and Te-123m in Sn(a,xn) reactions A019900100004 AUTHOR (P.P.Dmitriev,G.A.Molin) A019900100005 REFERENCE (J,SJA,55,707,1983) English translation A019900100006 (J,AE,55,256,1983) in Russian A019900100007 REL-REF (M,,P.P.Dmitriev+,J,AE,46,185,1979) A019900100008 English translation of Atomic Energy-J,SJA,46,216,1979 A019900100009 (M,,P.P.Dmitriev+,J,AE,48,122,1980) A019900100010 English translation of Atomic Energy-J,SJA,48,150,1980 A019900100011 (M,,P.P.Dmitriev+,J,AE,48,402,1980) A019900100012 English translation of Atomic Energy-J,SJA,48,419,1980 A019900100013 (R,,C.Williamson+,R,CEA-R-3042,1966) - Data from reportA019900100014 were used to determine the stopping of the alpha - A019900100015 particles. A019900100016 INSTITUTE (4RUSFEI) A019900100017 SAMPLE A stack of 99.9% pure metallic tin foils was used. A019900100018 The average thickness of the foil was 40 mg/cm2. To A019900100019 avoid adhesion of the tin foils during irradiation, A019900100020 aluminum with a thickness of 1.7 mg/cm 2 was placed A019900100021 between them. The integrated irradiation current of A019900100022 the stack of foils was measured by using a copper A019900100023 monitor foil. A019900100024 FACILITY (CYCLO,4RUSFEI) A019900100025 METHOD (STTA,EXTB,ACTIV) A019900100026 DETECTOR (GELI) A019900100027 MONITOR (29-CU-63(A,X)30-ZN-65,,SIG) A019900100028 (29-CU-63(A,2N)31-GA-65,,SIG) A019900100029 MONIT-REF (,N.Porile+,J,PR,116,1193,1959) A019900100030 DECAY-MON (30-ZN-65,245.D) A019900100031 (31-GA-65,15.2MIN) 100% to Zn-65-comment by compiler A019900100032 ERR-ANALYS (ERR-1) Uncertainty in thickness of each individual A019900100033 foil was determined with an error of 1.5% A019900100034 (ERR-T) Total errors are mainly due to the systematic A019900100035 errors in determining the activity of the radionuclidesA019900100036 and the integrated current. A019900100037 STATUS (TABLE,,P.P.Dmitriev+,J,SJA,55,707,1983) Table 1 A019900100038 (APRVD) By P.P.Dmitriev. A019900100039 HISTORY (19831116C) A019900100040 (20110210A) BIB section upgrated. A019900100041 New reference was added-English translation A019900100042 of Atomic Energy. A019900100043 (20240819A) SD: Corrections in all Subents. A019900100044 Subent 002 was split according to EXFOR rules. A019900100045 ENDBIB 43 0 A019900100046 COMMON 1 3 A019900100047 ERR-1 A019900100048 PER-CENT A019900100049 1.5 A019900100050 ENDCOMMON 3 0 A019900100051 ENDSUBENT 50 0 A019900199999 SUBENT A0199002 20240819 A116A019900200001 BIB 4 8 A019900200002 REACTION (50-SN-0(A,X)52-TE-118,,TTY,,(PHY)) A019900200003 RAD-DET (51-SB-118,AR) Sb-118 is daughter of Te-118. A019900200004 DECAY-DATA (52-TE-118,6.D) 100% transition to Sb-118. A019900200005 (51-SB-118-G,3.6MIN,AR,511.,1.55) A019900200006 HISTORY (20240819A) SD: Subent was split in four (see A019900200007 Subents 003-005). Data units were changed according to A019900200008 presentation in the table (DPS/MUAHR -> MBQ/MUAHR). A019900200009 DATA-ERR -> ERR-T. A019900200010 ENDBIB 8 0 A019900200011 NOCOMMON 0 0 A019900200012 DATA 4 7 A019900200013 EN EN-ERR DATA ERR-T A019900200014 MEV MEV MBQ/MUAHR MBQ/MUAHR A019900200015 43.7 0.5 2340. 350. A019900200016 40.5 0.5 1970. 300. A019900200017 36.6 0.5 1470. 220. A019900200018 32.4 0.6 894. 135. A019900200019 27.9 0.7 388. 58. A019900200020 23.2 0.7 104. 17. A019900200021 18.1 0.8 2.2 0.4 A019900200022 ENDDATA 9 0 A019900200023 ENDSUBENT 22 0 A019900299999 SUBENT A0199003 20240819 A116A019900300001 BIB 3 3 A019900300002 REACTION (50-SN-0(A,X)52-TE-119-M,,TTY,,(PHY)) A019900300003 DECAY-DATA (52-TE-119-M,4.7D,DG,1212.6,0.68) A019900300004 HISTORY (20240819T) SD: Part of Subent 002. A019900300005 ENDBIB 3 0 A019900300006 NOCOMMON 0 0 A019900300007 DATA 4 7 A019900300008 EN EN-ERR DATA ERR-T A019900300009 MEV MEV MBQ/MUAHR MBQ/MUAHR A019900300010 43.7 0.5 2450. 370. A019900300011 40.5 0.5 1870. 270. A019900300012 36.6 0.5 1250. 190. A019900300013 32.4 0.6 553. 84. A019900300014 27.9 0.7 308. 48. A019900300015 23.2 0.7 138. 24. A019900300016 18.1 0.8 16.2 2.8 A019900300017 ENDDATA 9 0 A019900300018 ENDSUBENT 17 0 A019900399999 SUBENT A0199004 20240819 A116A019900400001 BIB 4 7 A019900400002 REACTION C(50-SN-0(A,X)52-TE-121-M,,TTY,,(PHY)) A019900400003 D(50-SN-0(A,X)52-TE-121-G,,TTY,,(PHY)) A019900400004 RAD-DET C(52-TE-121-M,DG) A019900400005 D(52-TE-121-G,DG) A019900400006 DECAY-DATAC(52-TE-121-M,154.D,DG,212.21,0.813) A019900400007 D(52-TE-121-G,17.D,DG,573.08,0.79) A019900400008 HISTORY (20240819T) SD: Part of Subent 002. A019900400009 ENDBIB 7 0 A019900400010 NOCOMMON 0 0 A019900400011 DATA 6 7 A019900400012 EN EN-ERR DATA CERR-T CDATA DERR-T DA019900400013 MEV MEV MBQ/MUAHR MBQ/MUAHR MBQ/MUAHR MBQ/MUAHR A019900400014 43.7 0.5 148. 23. 474. 72. A019900400015 40.5 0.5 115. 18. 368. 56. A019900400016 36.6 0.5 73.4 11.8 234. 35. A019900400017 32.4 0.6 39.7 6.8 127. 21. A019900400018 27.9 0.7 22.2 3.7 71. 12. A019900400019 23.2 0.7 11.8 1.9 37.4 5.8 A019900400020 18.1 0.8 1.3 0.3 4.3 0.8 A019900400021 ENDDATA 9 0 A019900400022 ENDSUBENT 21 0 A019900499999 SUBENT A0199005 20240819 A116A019900500001 BIB 3 3 A019900500002 REACTION (50-SN-0(A,X)52-TE-123-M,,TTY,,(PHY)) A019900500003 DECAY-DATA (52-TE-123-M,119.7D,DG,159.,0.835) A019900500004 HISTORY (20240819T) SD: Part of Subent 002. A019900500005 ENDBIB 3 0 A019900500006 NOCOMMON 0 0 A019900500007 DATA 4 7 A019900500008 EN EN-ERR DATA ERR-T A019900500009 MEV MEV MBQ/MUAHR MBQ/MUAHR A019900500010 43.7 0.5 40.7 6.2 A019900500011 40.5 0.5 33.4 5.1 A019900500012 36.6 0.5 22.8 3.6 A019900500013 32.4 0.6 13.1 2.1 A019900500014 27.9 0.7 7.5 1.3 A019900500015 23.2 0.7 5.9 1.1 A019900500016 18.1 0.8 2.4 0.5 A019900500017 ENDDATA 9 0 A019900500018 ENDSUBENT 17 0 A019900599999 ENDENTRY 5 0 A019999999999