ENTRY A0572 20170205 A086A057200000001 SUBENT A0572001 20170205 A086A057200100001 BIB 15 72 A057200100002 TITLE Production of 128,131-Ba,132-Cs in proton induced A057200100003 reactions on a Cs target and of 127,129-Cs in 3,4-He A057200100004 induced reactions on I target. A057200100005 AUTHOR (C.Deptula,Kim Sen Han,O.Knotek,S.Mikolajewski, A057200100006 L.M.Popinenkova,E.Rurarz,N.G.Zaitseva) A057200100007 INSTITUTE (3POLIPJ).Radioisotope Research and Development Center,A057200100008 Swierk,Poland. A057200100009 (3KDRPYN).Institute of Radiochemistry,Pyongyang,D.P.R. A057200100010 Korea. A057200100011 (3CZRUJV,4RUSFVE,4ZZZDUB,3POLIPJ) A057200100012 REFERENCE (J,NKA,35,63,1990) A057200100013 SAMPLE The thin targets were prepared by compressing the A057200100014 necessary amount of the natural, high purity Cs-Cl A057200100015 powder. A057200100016 Pellets thicknesses were obtained by the weight and A057200100017 area measurement. The weight of pressed Cs-Cl pellets,A057200100018 diameter 1.5 cm,area 1.76 cm**2, varied throughout the A057200100019 stacked thin Cs-Cl discs according to necessary energyA057200100020 loss of protons in each discs. The number of pellets A057200100021 varied in different irradiations. The thin target A057200100022 discs were then stacked in thin-walled aluminum tube,A057200100023 which used as target holder, with aluminum foilsA057200100024 between each Cs-Cl discs. A057200100025 ADD-RES (COMP).Hybrid Model of nuclear reactions using the wellA057200100026 developed computer code overlaid ALICE. A057200100027 Advantages of using I-127-He-3,4 reactions for A057200100028 production of Cs-127,129 are discussed. A057200100029 (TTY-C) A057200100030 MONITOR (13-AL-27(P,X)11-NA-24,CUM,SIG,,,EVAL) A057200100031 MONIT-REF (,J.Tobailem+,R,CEA-N-1466,1971) The compiler believedA057200100032 that author's reference for monitor reaction is A057200100033 incorrect. A057200100034 REL-REF (R,,C.F.Williamson+,R,CEA-R-3042,1966) The Tables of A057200100035 Stopping Power. A057200100036 (A,A0320001,M.C.Lagunas-Solar+,J,ARI,33,619,1982) A057200100037 .Within the experimental uncertainties and energetical A057200100038 ranges. A057200100039 DETECTOR (GELI) A057200100040 FACILITY (LINAC,4RUSFVE).Lu-100 at the Institute For High EnergyA057200100041 Physics in Serpukhuv (RUSSIA). A057200100042 METHOD (STTA) Stack of discs (see SAMPLE) A057200100043 (EXTB) The duration of irradiations were 2-5 hours. A057200100044 (ACTIV) A057200100045 (GSPEC) The stacks were repeatedly measured over a A057200100046 period of several day. A057200100047 ERR-ANALYS (EN-ERR) The Uncertainty of the primary energy of the A057200100048 proton beam. A057200100049 (ERR-2) The Uncertainty of measurement of proton beamA057200100050 intensity. Mainly errors from monitor reaction crossA057200100051 section. A057200100052 (ERR-3) The uncertainty in the target thickness A057200100053 variations. A057200100054 (ERR-4) The error in the computer spectral integration.A057200100055 (ERR-S) The error in counting statistics. All targets A057200100056 were measured 4-5 times at least and the final result A057200100057 is the weighted average of the measurements A057200100058 (ERR-6) The error in the detector Efficiency. A057200100059 (ERR-7) The error in the attenuation corrections. A057200100060 (ERR-8) The error in decay corrections. A057200100061 (ERR-9) The error in the gamma-ray probabilities perA057200100062 decay. A057200100063 (ERR-10) The error in counting geometry. A057200100064 (ERR-T) Total cross sections was obtained by summing A057200100065 up in squares all the individual errors. They range A057200100066 between 13-18%. Authors assumed for the cross section A057200100067 and yields the error 15%. A057200100068 STATUS (TABLE) Tbl.1 from NKA,35,63,1990 A057200100069 HISTORY (19970217C) A057200100070 (19970220U) Last checking has been done. A057200100071 (20170205A) SD: DECAY-DATA were corrected in Subent 002A057200100072 ERR-T moved to Subent 001. Institiute code was update: A057200100073 3KDRKDR -> 3KDRPYN. A057200100074 ENDBIB 72 0 A057200100075 COMMON 11 6 A057200100076 EN-ERR ERR-2 ERR-3 ERR-4 ERR-S ERR-6 A057200100077 ERR-7 ERR-8 ERR-9 ERR-10 ERR-T A057200100078 PER-CENT PER-CENT PER-CENT PER-CENT PER-CENT PER-CENT A057200100079 PER-CENT PER-CENT PER-CENT PER-CENT PER-CENT A057200100080 0.5 5. 8. 4. 3. 5.A057200100081 5. 3. 5. 3. 15. A057200100082 ENDCOMMON 6 0 A057200100083 ENDSUBENT 82 0 A057200199999 SUBENT A0572002 20170205 A086A057200200001 BIB 3 3 A057200200002 REACTION (55-CS-133(P,6N)56-BA-128,,SIG) A057200200003 DECAY-DATA (56-BA-128,2.49D) A057200200004 HISTORY (20170205A) Cs-128 decay data were deleted. A057200200005 ENDBIB 3 0 A057200200006 NOCOMMON 0 0 A057200200007 DATA 2 29 A057200200008 EN DATA A057200200009 MEV MB A057200200010 97.9 60. A057200200011 96.5 68. A057200200012 94.5 70. A057200200013 93.4 74. A057200200014 91.2 78. A057200200015 89.4 84. A057200200016 88.6 88. A057200200017 87.5 81. A057200200018 85.4 91. A057200200019 83.5 92. A057200200020 82.6 98. A057200200021 81.2 102. A057200200022 79.5 107. A057200200023 78.3 105. A057200200024 75.3 128. A057200200025 74.4 144. A057200200026 71.0 164. A057200200027 69.2 189. A057200200028 67.4 260. A057200200029 66.7 280. A057200200030 62.5 323. A057200200031 60.9 197. A057200200032 58.8 185. A057200200033 57.7 158. A057200200034 56.5 112. A057200200035 54.2 46. A057200200036 52.5 22. A057200200037 49.5 8. A057200200038 46.5 7. A057200200039 ENDDATA 31 0 A057200200040 ENDSUBENT 39 0 A057200299999 SUBENT A0572003 20170205 A086A057200300001 BIB 2 2 A057200300002 REACTION (55-CS-133(P,3N)56-BA-131,,SIG) A057200300003 HISTORY (20170205A) SD: SF5=M+ deleted from REACTION code. A057200300004 ENDBIB 2 0 A057200300005 NOCOMMON 0 0 A057200300006 DATA 2 22 A057200300007 EN DATA A057200300008 MEV MB A057200300009 97.9 55. A057200300010 93.4 53. A057200300011 88.6 68. A057200300012 83.5 82. A057200300013 78.3 74. A057200300014 74.4 77. A057200300015 69.2 91. A057200300016 66.7 89. A057200300017 60.9 118. A057200300018 54.2 125. A057200300019 52.5 118. A057200300020 49.5 135. A057200300021 46.5 139. A057200300022 44.6 146. A057200300023 41.4 241. A057200300024 38.7 501. A057200300025 33.9 670. A057200300026 32.5 653. A057200300027 28.7 469. A057200300028 26.4 83. A057200300029 25.7 37. A057200300030 23.8 18. A057200300031 ENDDATA 24 0 A057200300032 ENDSUBENT 31 0 A057200399999 SUBENT A0572004 20170205 A086A057200400001 BIB 2 2 A057200400002 REACTION (55-CS-133(P,X)55-CS-132,,SIG) Independent A057200400003 HISTORY (20170205A) SD: SF3=N+P -> X in REACTION code. A057200400004 ENDBIB 2 0 A057200400005 NOCOMMON 0 0 A057200400006 DATA 2 20 A057200400007 EN DATA A057200400008 MEV MB A057200400009 97.9 118. A057200400010 93.4 123. A057200400011 88.6 130. A057200400012 83.5 129. A057200400013 79.5 122. A057200400014 74.4 118. A057200400015 69.2 110. A057200400016 66.7 115. A057200400017 62.5 150. A057200400018 57.7 150. A057200400019 54.2 135. A057200400020 49.5 137. A057200400021 46.5 115. A057200400022 44.6 120. A057200400023 38.7 122. A057200400024 32.5 125. A057200400025 28.7 113. A057200400026 26.4 120. A057200400027 21.8 81. A057200400028 17.6 25. A057200400029 ENDDATA 22 0 A057200400030 ENDSUBENT 29 0 A057200499999 ENDENTRY 4 0 A057299999999