ENTRY B0015 20011220 0000B001500000001 SUBENT B0015001 20011220 0000B001500100001 BIB 10 44 B001500100002 TITLE Nuclear Reactions of Sn-118, Sb-121, and J-127 with B001500100003 Argon Ions B001500100004 AUTHOR (H.GAUVIN, Y.LE BEYEC, N.T.PORILE) B001500100005 INSTITUTE (2FR PAR,1USAPUR) B001500100006 REFERENCE (J,NP/A,223,103,1974) B001500100007 METHOD (EXTB,HEJET,EDEG,BCINT).The Energy was Determined by B001500100008 Use of the Energy Loss Tables of Northcliffe, Nuclear B001500100009 Data Tables A7,233,70. The Relative Measurement Ofthe B001500100010 Beam Intensity was Calibrated with a Faraday Cup. B001500100011 FACILITY (ISOCY,2FR PAR).Alice Accelerator at Orsay B001500100012 DETECTOR (SOLST) B001500100013 ERR-ANALYS The Overall Uncertainty of the Cross Sections B001500100014 Excluding the Uncertainty of the Alpha Branching B001500100015 Ratios is Estimated As 20-25 %. The Uncertainty in B001500100016 The Beam Intensity Calibration Amounted to 10-15 %. B001500100017 COMMENT The Relative Cross Sections Obtained by the He-Jet B001500100018 Technique were Converted to Absolute Values by AdoptingB001500100019 A Cross Section of 115(+-20) Mb For the Reaction B001500100020 Sn-118(AR,5N)Er-153 at a Projectile Energy of 195 MeV. B001500100021 This Reference Cross Section was Determined Using B001500100022 Conventional Measurement of Recoils in Al Catcher B001500100023 Foils. The Number of Er-153 Atoms was Determined Via B001500100024 The Alpha-Decay of the Granddaughter Tb-149. Thus a B001500100025 Bombarding Energy of 195 MeV was Chosen to Avoid the B001500100026 Direct Formation of Either Dy-149 or Tb-149. This is B001500100027 Correct For the Reactions Sn-118(AR,2P7N)Dy-149 and B001500100028 Sn-118(AR,3P6N)Tb-149, But It May be Doubtful in the B001500100029 Cases of Sn-118(AR,A5N)Dy-149 or Sn-118(AR,AP4N)Tb-149 B001500100030 - Comment by the Compiler-. B001500100031 The Figures from Which the Cross Sections were Taken B001500100032 Give the Sum of the Projectile Energy and of the B001500100033 Difference Between the Q-Values of the Reaction in B001500100034 Question and the Corresponding Reaction with Sn-118 B001500100035 As Target Nuclide. This Difference, not Given in the B001500100036 Publication was Obtained from Landolt-Boernstein, New B001500100037 Series, Group1,Vol.5a(1973). B001500100038 Due to the Lack of the Reaction and Decay Data the B001500100039 Cross Sections For the Reactions (AR,11N) And (AR,P11N)B001500100040 Given in the Figures Could not be Entered. B001500100041 - Comment by the Compiler-. B001500100042 HISTORY (19940603A) Some Corrections have Been Included by B001500100043 CAJAD B001500100044 (19971211A) Lower Case. Reaction Lines are Corrected. B001500100045 (20011010U) Last checking has been done. B001500100046 ENDBIB 44 0 B001500100047 NOCOMMON 0 0 B001500100048 ENDSUBENT 47 0 B001500199999 SUBENT B0015002 20011220 0000B001500200001 BIB 6 11 B001500200002 REACTION (50-SN-118(18-AR-40,5N)68-ER-153,,SIG,,,EXP) B001500200003 SAMPLE Enriched Sn-118 Evaporated onto Thin Al-Foil. Target B001500200004 Thickness 0.3 Mg/Cm**2. Enrichment not Given. B001500200005 RAD-DET (68-ER-153,A) B001500200006 DECAY-DATA (68-ER-153,36.SEC,A,4670.,0.95).Abundance Estimated B001500200007 ADD-RES (COMP) B001500200008 STATUS (SPSDD,B0036009) B001500200009 Due to a Letter from the Author, these Values have BeenB001500200010 Reexamined and New Measurements have Been Realized. B001500200011 The New Values are Given in Phys.Rev.C10, 722,1974. B001500200012 See Subentry B0036009 B001500200013 ENDBIB 11 0 B001500200014 NOCOMMON 0 0 B001500200015 NODATA 0 0 B001500200016 ENDSUBENT 15 0 B001500299999 SUBENT B0015003 20011220 0000B001500300001 BIB 5 10 B001500300002 REACTION (50-SN-118(18-AR-40,6N)68-ER-152,,SIG,,,EXP) B001500300003 SAMPLE Enriched Sn-118 Evaporated onto Thin Al-Foil. Target B001500300004 Thickness 0.3 Mg/Cm**2. Enrichment not Given. B001500300005 RAD-DET (68-ER-152,A) B001500300006 DECAY-DATA (68-ER-152,10.7SEC,A,4800.,0.90).Abundance Estimated B001500300007 STATUS (SPSDD,B0036010) B001500300008 Due to a Letter from the Author, these Values have BeenB001500300009 Reexamined and New Measurements have Been Realized. B001500300010 The New Values are Given in Phys.Rev.C10, 722,1974. B001500300011 See Subentry B0036010 B001500300012 ENDBIB 10 0 B001500300013 NOCOMMON 0 0 B001500300014 NODATA 0 0 B001500300015 ENDSUBENT 14 0 B001500399999 SUBENT B0015004 20011220 0000B001500400001 BIB 6 13 B001500400002 REACTION (51-SB-121(18-AR-40,7N)69-TM-154-M,,SIG,,,EXP) B001500400003 The Cross Sections Take Into Account the Formation of B001500400004 The High Spin Isomer (J=9+) Only. B001500400005 COMMENT - By Kachapag - B001500400006 The Energy Values Obtained from the Figure were ShiftedB001500400007 For -1.4 MeV to Correct For the Differences in the B001500400008 Q-Values Between the Reactions with Sn-118 and Sb-121. B001500400009 RAD-DET (69-TM-154-M,A).High Spin Isomer (9+) B001500400010 DECAY-DATA (69-TM-154-M,3.SEC,A,5040.,0.85).High Spin Isomer, B001500400011 Abundance Estimated B001500400012 SAMPLE Natural Antimony (57% SB-121,43% SB-123) Evaporated B001500400013 Onto Thin Al-Foil. Target Thickness 0.8 Mg/Cm**2. B001500400014 STATUS (CURVE) B001500400015 ENDBIB 13 0 B001500400016 NOCOMMON 0 0 B001500400017 DATA 2 4 B001500400018 EN DATA B001500400019 MEV MB B001500400020 197. 20.1 B001500400021 233. 60. B001500400022 253. 42.7 B001500400023 253. 56.2 B001500400024 ENDDATA 6 0 B001500400025 ENDSUBENT 24 0 B001500499999 SUBENT B0015005 20011220 0000B001500500001 BIB 6 11 B001500500002 REACTION (51-SB-121(18-AR-40,8N)69-TM-153-G,,SIG,,,EXP) B001500500003 COMMENT - By Kachapag - B001500500004 The Energy Values Obtained from the Figure were ShiftedB001500500005 For -1.4 MeV to Correct For the Differences in the B001500500006 Q-Values Between the Reactions with Sn-118 and Sb-121. B001500500007 - By CAJAD - Isomer Transition is Absent B001500500008 RAD-DET (69-TM-153-G,A) B001500500009 DECAY-DATA (69-TM-153-G,1.58SEC,A,5110.,0.90).Abundance Estimated B001500500010 SAMPLE Natural Antimony (57% SB-121, 43% SB-123) Evaporated B001500500011 Onto Thin Al-Foil. Target Thickness 0.8 Mg/Cm**2. B001500500012 STATUS (CURVE) B001500500013 ENDBIB 11 0 B001500500014 NOCOMMON 0 0 B001500500015 DATA 2 3 B001500500016 EN DATA B001500500017 MEV MB B001500500018 233. 14.8 B001500500019 252. 22.2 B001500500020 264. 12.2 B001500500021 ENDDATA 5 0 B001500500022 ENDSUBENT 21 0 B001500599999 SUBENT B0015006 20011220 0000B001500600001 BIB 6 14 B001500600002 REACTION (50-SN-118(18-AR-40,X)67-HO-152,(CUM),SIG,,,EXP) B001500600003 The Cross Sections Take Into Account the Formation B001500600004 Of the High and the Low Spin Isomer. B001500600005 COMMENT - By CAJAD - Ho-152 Production Due to Decay of Er-152 B001500600006 Is not Excluded. B001500600007 RAD-DET (67-HO-152-M,A).High Spin Isomer (9+). B001500600008 (67-HO-152-G,A).Low Spin Isomer (2-) B001500600009 DECAY-DATA (67-HO-152-M,52.3SEC,A,4450.,0.19).High Spin Isomer, B001500600010 Abundance Estimated B001500600011 (67-HO-152-G,2.36MIN,A,4380.,0.30).Low Spin Isomer, B001500600012 Abundance Estimated B001500600013 SAMPLE Enriched Sn-118 Evaporated onto Thin Al-Foil. Target B001500600014 Thickness 0.3 Mg/Cm**2. Enrichment not Given. B001500600015 STATUS (CURVE) B001500600016 ENDBIB 14 0 B001500600017 NOCOMMON 0 0 B001500600018 DATA 2 9 B001500600019 EN DATA B001500600020 MEV MB B001500600021 170. 33.8 B001500600022 180. 101. B001500600023 190. 147. B001500600024 198. 182. B001500600025 204. 143. B001500600026 215. 179. B001500600027 235. 102. B001500600028 240. 61.7 B001500600029 253. 60.6 B001500600030 ENDDATA 11 0 B001500600031 ENDSUBENT 30 0 B001500699999 SUBENT B0015007 20011220 0000B001500700001 BIB 5 11 B001500700002 REACTION (50-SN-118(18-AR-40,X)67-HO-151,,SIG,,,EXP) B001500700003 The Cross Sections Take Into Account the Formation B001500700004 Of the High and the Low Spin Isomer. B001500700005 RAD-DET (67-HO-151-G,A).High Spin Isomer (11/2-). B001500700006 (67-HO-151-M,A).Low Spin Isomer (1/2+) B001500700007 DECAY-DATA (67-HO-151-G,35.6SEC,A,4510.,0.20).High Spin Isomer. B001500700008 (67-HO-151-M,42.SEC,A,4600.,0.28).Low Spin Isomer, B001500700009 Abundance Estimated B001500700010 SAMPLE Enriched Sn-118 Evaporated onto Thin Al-Foil. Target B001500700011 Thickness 0.3 Mg/Cm**2. Enrichment not Given. B001500700012 STATUS (CURVE) B001500700013 ENDBIB 11 0 B001500700014 NOCOMMON 0 0 B001500700015 DATA 2 7 B001500700016 EN DATA B001500700017 MEV MB B001500700018 201. 172. B001500700019 215. 168. B001500700020 218. 220. B001500700021 220. 196. B001500700022 228. 220. B001500700023 248. 98.6 B001500700024 259. 70.7 B001500700025 ENDDATA 9 0 B001500700026 ENDSUBENT 25 0 B001500799999 SUBENT B0015008 20011220 0000B001500800001 BIB 6 12 B001500800002 REACTION (51-SB-121(18-AR-40,X)68-ER-153,(CUM),SIG,,,EXP) B001500800003 COMMENT - By Kachapag - B001500800004 The Energy Values Obtained from the Figure were ShiftedB001500800005 For +0.3 MeV to Correct For the Differences in the B001500800006 Q-Values Between the Reactions with Sn-118 and Sb-121. B001500800007 - By CAJAD - Er-153 Production Due to Decay of Tm-153 B001500800008 Is not Excluded. B001500800009 RAD-DET (68-ER-153,A) B001500800010 DECAY-DATA (68-ER-153,36.SEC,A,4670.,0.95).Abundance Estimated B001500800011 SAMPLE Natural Antimony (57% SB-121, 43% SB-123) Evaporated B001500800012 Onto Thin Al-Foil. Target Thickness 0.8 Mg/Cm**2. B001500800013 STATUS (CURVE) B001500800014 ENDBIB 12 0 B001500800015 NOCOMMON 0 0 B001500800016 DATA 2 5 B001500800017 EN DATA B001500800018 MEV MB B001500800019 232. 95.1 B001500800020 251. 149. B001500800021 265. 109. B001500800022 285. 66.9 B001500800023 285. 56.4 B001500800024 ENDDATA 7 0 B001500800025 ENDSUBENT 24 0 B001500899999 SUBENT B0015009 20011220 0000B001500900001 BIB 6 12 B001500900002 REACTION (51-SB-121(18-AR-40,X)68-ER-152,(CUM),SIG,,,EXP) B001500900003 COMMENT - By Kachapag - B001500900004 The Energy Values Obtained from the Figure were ShiftedB001500900005 For +0.2 MeV to Correct For the Differences in the B001500900006 Q-Values Between the Reactions with Sn-118 and Sb-121. B001500900007 - By CAJAD - Er-152 Production Due to Decay of Tm-152 B001500900008 Is not Excluded. B001500900009 RAD-DET (68-ER-152,A) B001500900010 DECAY-DATA (68-ER-152,10.7SEC,A,4800.,0.90).Abundance Estimated B001500900011 SAMPLE Natural Antimony (57% SB-121,43% SB-123) Evaporated B001500900012 Onto Thin Al-Foil. Target Thickness 0.8 Mg/Cm**2. B001500900013 STATUS (CURVE) B001500900014 ENDBIB 12 0 B001500900015 NOCOMMON 0 0 B001500900016 DATA 2 5 B001500900017 EN DATA B001500900018 MEV MB B001500900019 235. 24. B001500900020 240. 66.9 B001500900021 251. 132. B001500900022 265. 148. B001500900023 285. 90.1 B001500900024 ENDDATA 7 0 B001500900025 ENDSUBENT 24 0 B001500999999 SUBENT B0015010 20011220 0000B001501000001 BIB 6 18 B001501000002 REACTION (51-SB-121(18-AR-40,X)67-HO-152,(CUM),SIG,,,EXP) B001501000003 The Cross Sections Take Into Account the Formation B001501000004 Of the High and the Low Spin Isomer. B001501000005 COMMENT - By Kachapag - B001501000006 The Energy Values Obtained from the Figure were ShiftedB001501000007 For -1.5 MeV to Correct For the Differences in the B001501000008 Q-Values Between the Reactions with Sn-118 and Sb-121. B001501000009 - By CAJAD - Ho-152 Production Due to Decay of Er-152 B001501000010 Is not Excluded. B001501000011 RAD-DET (67-HO-152-M,A).High Spin Isomer (9+). B001501000012 (67-HO-152-G,A).Low Spin Isomer (2-). B001501000013 DECAY-DATA (67-HO-152-M,52.3SEC,A,4450.,0.19).High Spin Isomer, B001501000014 Abundance Estimated B001501000015 (67-HO-152-G,2.36MIN,A,4380.,0.30).Low Spin Isomer, B001501000016 Abundance Estimated B001501000017 SAMPLE Natural Antimony (57% SB-121, 43% SB-123) Evaporated B001501000018 Onto Thin Al-Foil. Target Thickness 0.8 Mg/Cm**2. B001501000019 STATUS (CURVE) B001501000020 ENDBIB 18 0 B001501000021 NOCOMMON 0 0 B001501000022 DATA 2 6 B001501000023 EN DATA B001501000024 MEV MB B001501000025 232. 118. B001501000026 251. 164. B001501000027 251. 227. B001501000028 267. 160. B001501000029 290. 146. B001501000030 290. 107. B001501000031 ENDDATA 8 0 B001501000032 ENDSUBENT 31 0 B001501099999 SUBENT B0015011 20011220 0000B001501100001 BIB 6 17 B001501100002 REACTION (51-SB-121(18-AR-40,X)67-HO-151,,SIG,,,EXP) B001501100003 The Cross Sections Take Into Account the Formation B001501100004 Of the High and the Low Spin Isomer. B001501100005 COMMENT - By Kachapag - B001501100006 The Energy Values Obtained from the Figure were ShiftedB001501100007 For -1.7 MeV to Correct For the Differences in the B001501100008 Q-Values Between the Reactions with Sn-118 and Sb-121. B001501100009 - By CAJAD - Ho-151 Production Due to Decay of Er-151 B001501100010 Is not Excluded. B001501100011 RAD-DET (67-HO-151-G,A).High Spin Isomer (11/2-). B001501100012 (67-HO-151-M,A).Low Spin Isomer (1/2+). B001501100013 DECAY-DATA (67-HO-151-G,35.6SEC,A,4510.,0.20).High Spin Isomer. B001501100014 (67-HO-151-M,42.SEC,A,4600.,0.28).Low Spin Isomer, B001501100015 Abundance Estimated B001501100016 SAMPLE Natural Antimony (57% SB-121,43% SB-123) Evaporated B001501100017 Onto Thin Al-Foil. Target Thickness 0.8 Mg/Cm**2. B001501100018 STATUS (CURVE) B001501100019 ENDBIB 17 0 B001501100020 NOCOMMON 0 0 B001501100021 DATA 2 5 B001501100022 EN DATA B001501100023 MEV MB B001501100024 232. 100. B001501100025 251. 202. B001501100026 268. 218. B001501100027 290. 211. B001501100028 290. 166. B001501100029 ENDDATA 7 0 B001501100030 ENDSUBENT 29 0 B001501199999 SUBENT B0015012 20011220 0000B001501200001 BIB 6 15 B001501200002 REACTION (53-I-127(18-AR-40,X)69-TM-154-M,(CUM),SIG) B001501200003 The Cross Sections Take Into Account the Formation B001501200004 Of the High Spin Isomer Only. B001501200005 COMMENT - By Kachapag - B001501200006 The Energy Values Obtained from the Figure were ShiftedB001501200007 For -0.5 MeV to Correct For the Differences in the B001501200008 Q-Values Between the Reactions with Sn-118 and J-127. B001501200009 - By CAJAD - Tm-154 Production Due to Decay of Yb-154 B001501200010 Is not Excluded. B001501200011 RAD-DET (69-TM-154-M,A).High Spin Isomer (9+). B001501200012 DECAY-DATA (69-TM-154-M,3.SEC,A,5040.,0.85).High Spin Isomer, B001501200013 Abundance Estimated B001501200014 SAMPLE K-Iodide Evaporated onto Thin Al-Foil. Target ThicknessB001501200015 0.8 Mg/Cm**2. B001501200016 STATUS (CURVE) B001501200017 ENDBIB 15 0 B001501200018 NOCOMMON 0 0 B001501200019 DATA 2 4 B001501200020 EN DATA B001501200021 MEV MB B001501200022 264. 16.4 B001501200023 278. 78.3 B001501200024 287. 84.9 B001501200025 295. 84.9 B001501200026 ENDDATA 6 0 B001501200027 ENDSUBENT 26 0 B001501299999 SUBENT B0015013 20011220 0000B001501300001 BIB 6 12 B001501300002 REACTION (53-I-127(18-AR-40,X)69-TM-153-G,(CUM),SIG,,,EXP) B001501300003 COMMENT -By Kachapag - B001501300004 The Energy Values Obtained from the Figure were ShiftedB001501300005 For +1.2 MeV to Correct For the Differences in the B001501300006 Q-Values Between the Reactions with Sn-118 and J-127. B001501300007 - By CAJAD - Tm-153 Production Due to Decay of Yb-152 B001501300008 Is not Excluded. B001501300009 RAD-DET (69-TM-153-G,A) B001501300010 DECAY-DATA (69-TM-153-G,1.58SEC,A,5110.,0.90).Abundance Estimated B001501300011 SAMPLE K-Iodide Evaporated onto Thin Al-Foil. Target ThicknessB001501300012 0.8 Mg/Cm**2. B001501300013 STATUS (CURVE) B001501300014 ENDBIB 12 0 B001501300015 NOCOMMON 0 0 B001501300016 DATA 2 3 B001501300017 EN DATA B001501300018 MEV MB B001501300019 270. 1.92 B001501300020 280. 9.61 B001501300021 297. 23.6 B001501300022 ENDDATA 5 0 B001501300023 ENDSUBENT 22 0 B001501399999 ENDENTRY 13 0 B001599999999