ENTRY B0120 20020311 B019B012000000001 SUBENT B0120001 20020311 B019B012000100001 BIB 14 67 B012000100002 TITLE Excitation Functions of 191+193-Ir, 197-Au(6-LI,XN+YP) B012000100003 Compound Nuclear Reactions at E(LI)= 48-156 MeV B012000100004 AUTHOR (J.KROPP, H.KLEWE-NEBENIUS, H.FAUST, J.BUSCHMANN, B012000100005 H.REBEL, H.J.GILS, K.WISSHAK) B012000100006 INSTITUTE (2GERHEI) B012000100007 REFERENCE (J,ZP/A,280,61,1977) B012000100008 FACILITY (ISOCY,2GERKFK) B012000100009 DETECTOR (GELI) B012000100010 The Energy Resolution was 2.1 KeV, the Relative B012000100011 Efficiency 15% For the 1332 KeV Gamma-Rays of Co-60. B012000100012 COMMENT As Stated in a Private Communication, the Authors B012000100013 Assume an Error in the Normalization As Suggested by B012000100014 More Recent Experiments. Consequently, the Absolute B012000100015 Cross Sections have to be Multiplied by a Constant B012000100016 Factor (GREATER THAN 1), Though the Relative Heights ofB012000100017 The Excitation Functions are Believed to be Correct. B012000100018 METHOD (EXTB,EDEG,SITA,MOMIX) B012000100019 (GSPEC) In Beam Spectrometry. B012000100020 The Primary Li-6 Beam Energy of 156 MeV was B012000100021 Degraded by be-Absorber Foils in Steps of About B012000100022 10 MeV Down to E(LI)=48 MeV. Since the Energy Loss B012000100023 In Beryllium is Known Only For Li-7 Ions Up to an B012000100024 Energy of 80 MeV, the Energy Loss of Li-7 was B012000100025 Converted Into That of Li-6 and Extrapolated For B012000100026 Li-6 Ions of Higher Energies. B012000100027 To Calculate Absolute Cross Sections the Gamma-Ray B012000100028 Yields were Normalized to the X-Ray B012000100029 Intensities Produced by the Projectile-Target B012000100030 Interaction and Measured Simultaneously with the B012000100031 Gamma-Rays of the Residual Nuclei. B012000100032 ANALYSIS In-Beam Gamma-Ray Spectra have Been Measured and B012000100033 Neutron Deficient Isotopes of Au, Hg, Tl and Pb B012000100034 Have Been Identified from at Least 2 Known B012000100035 Gamma-Rays. B012000100036 For the Analysis of the Gamma-Spectra Mostly the B012000100037 Transitions Feeding the Ground State or an Isomeric B012000100038 State have Been Used. These Transitions in General B012000100039 Represent 100% Production Intensity. B012000100040 ERR-ANALYS For the Measured Cross Sections a Total Error B012000100041 Of 20-25% is Estimated. Included are Uncertainties B012000100042 From the Normalization Procedure (17% ), Errors in B012000100043 Gamma Intensity Determination (5-15%) Including B012000100044 Statistics and Uncertainties of Peak Area Analysis, inB012000100045 Detector Efficiency and Conversion Coefficients (5% B012000100046 EACH), and in the Gamma-Ray Angular Distribution (<10%)B012000100047 The Total Energy Uncertainty Varies Between 3 and B012000100048 5 MeV For Beam Energies from 156 MeV to 48 MeV, B012000100049 Respectively. B012000100050 CORRECTION In the Energy Scale of the Excitation Functions B012000100051 Corrections were Necessary According to the Energy B012000100052 Losses of the Li-6 Ions in the Targets. The Energy B012000100053 Losses were Estimated and Converted Into an Energy B012000100054 Shift of the Experimental Points Considered. B012000100055 Furthermore, Corrections were Applied For Angular B012000100056 Distribution and For Internal Conversion. B012000100057 ADD-RES (COMP).The Experimental Excitation Functions are B012000100058 Discussed on the Basis of Predictions of Blann'S B012000100059 Preequilibrium (HYBRID) Model. B012000100060 STATUS (TABLE) The Numerical Values were Obtained from the B012000100061 Authors. B012000100062 HISTORY (19800210C)Nekw B012000100063 (19981208A) Converted to Lower Case. All Transition areB012000100064 Checked to Take Into Consideration ENSDF. Level B012000100065 Properties are Added. B012000100066 (20020110A) V.Mc-Lane'S Remark For B0120012 is B012000100067 Included B012000100068 (20020311U) Last checking has been done. B012000100069 ENDBIB 67 0 B012000100070 NOCOMMON 0 0 B012000100071 ENDSUBENT 70 0 B012000199999 SUBENT B0120002 20011220 0000B012000200001 BIB 7 18 B012000200002 REACTION (77-IR-0(3-LI-6,X)80-HG-194,PAR,SIG,,,EXP) B012000200003 The Given Cross Section is the Sum of a (LI-6,3N) B012000200004 And (LI-6,5N) Reaction at Both Isotopes of Natural Ir. B012000200005 PART-DET (G).To Obtain the Excitation Function the 2+ to 0+ B012000200006 427.9 KeV Transition in Hg-194 with Intensity 100% wasB012000200007 Used. B012000200008 EN-SEC (E,G) B012000200009 (E-LVL-INI,80-HG-194) B012000200010 (E-LVL-FIN,80-HG-194) B012000200011 SAMPLE Metallic Foils of Natural Ir, Thickness 112 Mg/Cm**2. B012000200012 CORRECTION Due to the Relatively Thick Target a Correction B012000200013 To the X-Ray Intensities was Applied Regarding the B012000200014 Self-Absorption in the Target. B012000200015 LEVEL-PROP (80-HG-194,E-LVL=0.428,SPIN=2.,PARITY=+1.) B012000200016 (80-HG-194,E-LVL=0.,SPIN=0.,PARITY=+1.) B012000200017 COMMENT - By Compiler of CAJAD - Spin-Parity and Energy Levels B012000200018 Were Taken by Compiler Fron 8-Th Edition of Table of B012000200019 Isotopes. B012000200020 ENDBIB 18 0 B012000200021 COMMON 3 3 B012000200022 E-LVL-INI E-LVL-FIN E B012000200023 KEV KEV KEV B012000200024 428. 0. 427.9 B012000200025 ENDCOMMON 3 0 B012000200026 DATA 2 6 B012000200027 EN DATA B012000200028 MEV MB B012000200029 43. 38.6 B012000200030 46.4 54. B012000200031 58.1 36.3 B012000200032 60.4 23. B012000200033 66.3 9.7 B012000200034 77.2 5.1 B012000200035 ENDDATA 8 0 B012000200036 ENDSUBENT 35 0 B012000299999 SUBENT B0120003 20011220 0000B012000300001 BIB 7 22 B012000300002 REACTION (77-IR-0(3-LI-6,X)80-HG-193-M,PAR,SIG,,,EXP) B012000300003 The Given Cross Section is the Sum of a (LI-6,4N) B012000300004 And (LI-6,6N) Reaction at Both Isotopes of Natural Ir. B012000300005 PART-DET (G).To Obtain the Excitation Function the B012000300006 21/2+ to 17/2+ Transition in Hg-193 Withe=622.4 KeV andB012000300007 Intensity 90% was Used. B012000300008 SAMPLE Metallic Foils of Natural Ir, Thickness 112 Mg/Cm**2. B012000300009 CORRECTION Due to the Relatively Thick Target a Correction B012000300010 To the X-Ray Intensities was Applied Regarding the B012000300011 Self-Absorption in the Target. B012000300012 LEVEL-PROP (80-HG-193-M,E-LVL=1.1454,SPIN=10.5,PARITY=+1.) B012000300013 (80-HG-193-M,E-LVL=0.5229,SPIN=8.5,PARITY=+1.) B012000300014 COMMENT - By Compiler of CAJAD - Spin-Parity and Energy Levels B012000300015 Were Taken by Compiler Fron 8-Th Edition of Table of B012000300016 Isotopes. B012000300017 1. 622.4-KeV Transition Between High Spin Level (J+24B012000300018 -> J+22) Is Possible Too. B012000300019 2. Table of Isotopes Assumed 100% For the Transition B012000300020 Intensity. B012000300021 EN-SEC (E,G) B012000300022 (E-LVL-INI,80-HG-193) B012000300023 (E-LVL-FIN,80-HG-193) B012000300024 ENDBIB 22 0 B012000300025 COMMON 3 3 B012000300026 E-LVL-INI E-LVL-FIN E B012000300027 KEV KEV KEV B012000300028 1145.4 522.9 622.4 B012000300029 ENDCOMMON 3 0 B012000300030 DATA 2 6 B012000300031 EN DATA B012000300032 MEV MB B012000300033 44.3 17.6 B012000300034 54.4 31. B012000300035 56.2 44.1 B012000300036 70.1 50.4 B012000300037 74.4 30.4 B012000300038 86.5 9.5 B012000300039 ENDDATA 8 0 B012000300040 ENDSUBENT 39 0 B012000399999 SUBENT B0120004 20011220 0000B012000400001 BIB 7 18 B012000400002 REACTION (77-IR-0(3-LI-6,X)80-HG-192,PAR,SIG,,,EXP) B012000400003 The Given Cross Section is the Sum of a (LI-6,5N) B012000400004 And (LI-6,7N) Reaction at Both Isotopes of Natural Ir. B012000400005 PART-DET (G).To Obtain the Excitation Function the 2+ to 0+ B012000400006 Transition in Hg-192 with E=422.8 KeV and Intensity B012000400007 100% was Used. B012000400008 SAMPLE Metallic Foils of Natural Ir, Thickness 112 Mg/Cm**2. B012000400009 CORRECTION Due to the Relatively Thick Target a Correction B012000400010 To the X-Ray Intensities was Applied Regarding the B012000400011 Self-Absorption in the Target. B012000400012 LEVEL-PROP (80-HG-192,E-LVL=0.4228,SPIN=2.,PARITY=+1.) B012000400013 (80-HG-192,E-LVL=0.,SPIN=0.,PARITY=+1.) B012000400014 COMMENT - By Compiler of CAJAD - Spin-Parity and Energy Levels B012000400015 Were Taken by Compiler Fron 8-Th Edition of Table of B012000400016 Isotopes. B012000400017 EN-SEC (E,G) B012000400018 (E-LVL-INI,80-HG-192) B012000400019 (E-LVL-FIN,80-HG-192) B012000400020 ENDBIB 18 0 B012000400021 COMMON 3 3 B012000400022 E-LVL-INI E-LVL-FIN E B012000400023 KEV KEV KEV B012000400024 422.8 0. 422.8 B012000400025 ENDCOMMON 3 0 B012000400026 DATA 2 8 B012000400027 EN DATA B012000400028 MEV MB B012000400029 46.2 19.3 B012000400030 51. 38.5 B012000400031 60.3 38.9 B012000400032 67.1 61.2 B012000400033 78.4 81.7 B012000400034 88.3 30.2 B012000400035 100.7 18.2 B012000400036 113. 10.3 B012000400037 ENDDATA 10 0 B012000400038 ENDSUBENT 37 0 B012000499999 SUBENT B0120005 20011220 0000B012000500001 BIB 6 15 B012000500002 REACTION (77-IR-0(3-LI-6,X)80-HG-191-M,PAR,SIG,,,EXP) B012000500003 The Given Cross Section is the Sum of a (LI-6,6N) B012000500004 And (LI-6,8N) Reaction at Both Isotopes of Natural Ir. B012000500005 PART-DET (G).To Obtain the Excitation Function the B012000500006 19/2+ to 17/2+ Transition in Hg-191 with E=781 KeV and B012000500007 Intensity 21% was Used. B012000500008 SAMPLE Metallic Foils of Natural Ir, Thickness 112 Mg/Cm**2. B012000500009 CORRECTION Due to the Relatively Thick Target a Correction B012000500010 To the X-Ray Intensities was Applied Regarding the B012000500011 Self-Absorption in the Target. B012000500012 COMMENT - By Compiler - The Transition Between 1171.8+X KeV B012000500013 Level and 391+X KeV Level. X is Energy of Isomer B012000500014 State. Energy of Isomer State is Unknown. B012000500015 Branching Ratio For the Transition is 55%. B012000500016 EN-SEC (E,G) B012000500017 ENDBIB 15 0 B012000500018 COMMON 1 3 B012000500019 E B012000500020 KEV B012000500021 781. B012000500022 ENDCOMMON 3 0 B012000500023 DATA 2 9 B012000500024 EN DATA B012000500025 MEV MB B012000500026 55. 7.6 B012000500027 57.7 22.2 B012000500028 60.7 49.9 B012000500029 70.2 50.4 B012000500030 76.7 69.1 B012000500031 90.5 80.3 B012000500032 96.8 40.4 B012000500033 101.6 36.5 B012000500034 111.5 35.8 B012000500035 ENDDATA 11 0 B012000500036 ENDSUBENT 35 0 B012000599999 SUBENT B0120006 20011220 0000B012000600001 BIB 7 18 B012000600002 REACTION (77-IR-0(3-LI-6,X)80-HG-190,PAR,SIG,,,EXP) B012000600003 The Given Cross Section is the Sum of a (LI-6,7N) B012000600004 And (LI-6,9N) Reaction at Both Isotopes of Natural Ir. B012000600005 PART-DET (G).To Obtain the Excitation Function the 2+ to 0+ B012000600006 Transition in Hg-190 with E=416.2 KeV and Intensity B012000600007 100% was Used. B012000600008 SAMPLE Metallic Foils of Natural Ir, Thickness 112 Mg/Cm**2. B012000600009 CORRECTION Due to the Relatively Thick Target a Correction B012000600010 To the X-Ray Intensities was Applied Regarding the B012000600011 Self-Absorption in the Target. B012000600012 LEVEL-PROP (80-HG-190,E-LVL=0.4164,SPIN=2.,PARITY=+1.) B012000600013 (80-HG-190,E-LVL=0.,SPIN=0.,PARITY=+1.) B012000600014 EN-SEC (E,G) B012000600015 (E-LVL-INI,80-HG-190) B012000600016 (E-LVL-FIN,80-HG-190) B012000600017 COMMENT - By Compiler of CAJAD - Spin-Parity and Energy Levels B012000600018 Were Taken by Compiler Fron 8-Th Edition of Table of B012000600019 Isotopes. B012000600020 ENDBIB 18 0 B012000600021 COMMON 3 3 B012000600022 E-LVL-INI E-LVL-FIN E B012000600023 KEV KEV KEV B012000600024 416.4 0. 416.2 B012000600025 ENDCOMMON 3 0 B012000600026 DATA 2 12 B012000600027 EN DATA B012000600028 MEV MB B012000600029 59.7 11.6 B012000600030 64.3 18.3 B012000600031 68.6 37.6 B012000600032 76.3 69.8 B012000600033 87.2 72.4 B012000600034 95.4 58. B012000600035 102. 76.8 B012000600036 111.4 67. B012000600037 121.2 28.7 B012000600038 131.5 26. B012000600039 141.5 20. B012000600040 152. 14. B012000600041 ENDDATA 14 0 B012000600042 ENDSUBENT 41 0 B012000699999 SUBENT B0120007 20011220 0000B012000700001 BIB 7 21 B012000700002 REACTION (77-IR-0(3-LI-6,X)80-HG-188,PAR,SIG,,,EXP) B012000700003 The Given Cross Section is the Sum of a (LI-6,9N) B012000700004 And (LI-6,11N) Reaction at Both Isotopes of Natural Ir.B012000700005 PART-DET (G).To Obtain the Excitation Function the 4+ to 2+ B012000700006 Transition in Hg-188 with E=591.4 KeV and Intensity 63%B012000700007 Was Used. B012000700008 According to 8-Th Edition of Table of Isotopes B012000700009 Branching Ratio For the Transition is 100%. -Comment ofB012000700010 CAJAD. B012000700011 SAMPLE Metallic Foils of Natural Ir, Thickness 112 Mg/Cm**2. B012000700012 CORRECTION Due to the Relatively Thick Target a Correction B012000700013 To the X-Ray Intensities was Applied Regarding the B012000700014 Self-Absorption in the Target. B012000700015 LEVEL-PROP (80-HG-188,E-LVL=1.0048,SPIN=4.,PARITY=+1.) B012000700016 (80-HG-188,E-LVL=0.4128,SPIN=2.,PARITY=+1.) B012000700017 EN-SEC (E,G) B012000700018 (E-LVL-INI,80-HG-188) B012000700019 (E-LVL-FIN,80-HG-188) B012000700020 COMMENT - By Compiler of CAJAD - Spin-Parity and Energy Levels B012000700021 Were Taken by Compiler Fron 8-Th Edition of Table of B012000700022 Isotopes. B012000700023 ENDBIB 21 0 B012000700024 COMMON 3 3 B012000700025 E-LVL-INI E-LVL-FIN E B012000700026 KEV KEV KEV B012000700027 1004.8 412.8 591.4 B012000700028 ENDCOMMON 3 0 B012000700029 DATA 2 8 B012000700030 EN DATA B012000700031 MEV MB B012000700032 89. 9.4 B012000700033 96.3 26.5 B012000700034 99.1 32. B012000700035 111.3 37.8 B012000700036 122.5 35. B012000700037 133.4 49.7 B012000700038 143. 34.9 B012000700039 152. 22.7 B012000700040 ENDDATA 10 0 B012000700041 ENDSUBENT 40 0 B012000799999 SUBENT B0120008 20011220 0000B012000800001 BIB 7 21 B012000800002 REACTION (77-IR-0(3-LI-6,X)80-HG-187-M,PAR,SIG,,,EXP) B012000800003 The Given Cross Section is the Sum of a (LI-6,10N) B012000800004 And (LI-6,12N) Reaction at Both Isotopes of Natural Ir.B012000800005 PART-DET (G)To Obtain the Excitaiton Function the B012000800006 21/2+ to 17/2+ Transition in Hg-187 with E=599 KeV and B012000800007 Intensity 90% was Used. B012000800008 According to 8-Th Edition of Table of Isotopes Energy B012000800009 Of the Transition is 596.16 KeV. Branching Ratio For B012000800010 The Transition is 100%. - Comment of CAJAD-. B012000800011 SAMPLE Metallic Foils of Natural Ir, Thickness 112 Mg/Cm**2. B012000800012 CORRECTION Due to the Relatively Thick Target a Correction B012000800013 To the X-Ray Intensities was Applied Regarding the B012000800014 Self-Absorption in the Target. B012000800015 LEVEL-PROP (80-HG-187-M,E-LVL=1.0202,SPIN=10.5,PARITY=+1.) B012000800016 (80-HG-187-M,E-LVL=0.4240,SPIN=8.5,PARITY=+1.) B012000800017 EN-SEC (E,G) B012000800018 (E-LVL-INI,80-HG-187) B012000800019 (E-LVL-FIN,80-HG-187) B012000800020 COMMENT - By Compiler of CAJAD - Spin-Parity and Energy Levels B012000800021 Were Taken by Compiler Fron 8-Th Edition of Table of B012000800022 Isotopes. B012000800023 ENDBIB 21 0 B012000800024 COMMON 3 3 B012000800025 E-LVL-INI E-LVL-FIN E B012000800026 KEV KEV KEV B012000800027 1020.2 424. 599. B012000800028 ENDCOMMON 3 0 B012000800029 DATA 2 6 B012000800030 EN DATA B012000800031 MEV MB B012000800032 106. 14.7 B012000800033 115. 29.4 B012000800034 126.5 31.5 B012000800035 135.2 43.5 B012000800036 145.4 46.1 B012000800037 155.2 30. B012000800038 ENDDATA 8 0 B012000800039 ENDSUBENT 38 0 B012000899999 SUBENT B0120009 20011220 0000B012000900001 BIB 7 21 B012000900002 REACTION (77-IR-0(3-LI-6,X)80-HG-186,PAR,SIG,,,EXP) B012000900003 The Given Cross Section is the Sum of a (LI-6,11N) B012000900004 And (LI-6,13N) Reaction at Both Isotopes of Natural Ir.B012000900005 PART-DET (G).To Obtain the Excitation Function the 8+ to 6+ B012000900006 Transition in Hg-186 with E=424 KeV and Intensity 50% B012000900007 Was Used. B012000900008 According to 8-Th Edition of Table of Isotopes B012000900009 Branching Ratio For the Transition is 100%. -Comment byB012000900010 CAJAD. B012000900011 SAMPLE Metallic Foils of Natural Ir, Thickness 112 Mg/Cm**2. B012000900012 CORRECTION Due to the Relatively Thick Target a Correction B012000900013 To the X-Ray Intensities was Applied Regarding the B012000900014 Self-Absorption in the Target. B012000900015 LEVEL-PROP (80-HG-186,E-LVL=1.5893,SPIN=8.,PARITY=+1.) B012000900016 (80-HG-186,E-LVL=1.16500,SPIN=6.,PARITY=+1.) B012000900017 EN-SEC (E,G) B012000900018 (E-LVL-INI,80-HG-186) B012000900019 (E-LVL-FIN,80-HG-186) B012000900020 COMMENT - By Compiler of CAJAD - Spin-Parity and Energy Levels B012000900021 Were Taken by Compiler Fron 8-Th Edition of Table of B012000900022 Isotopes. B012000900023 ENDBIB 21 0 B012000900024 COMMON 3 3 B012000900025 E-LVL-INI E-LVL-FIN E B012000900026 KEV KEV KEV B012000900027 1589.3 1165. 424. B012000900028 ENDCOMMON 3 0 B012000900029 DATA 2 5 B012000900030 EN DATA B012000900031 MEV MB B012000900032 114.4 7.3 B012000900033 122.2 20.4 B012000900034 132.1 33.2 B012000900035 141.4 32.8 B012000900036 152.3 26. B012000900037 ENDDATA 7 0 B012000900038 ENDSUBENT 37 0 B012000999999 SUBENT B0120010 20011220 0000B012001000001 BIB 7 19 B012001000002 REACTION (77-IR-0(3-LI-6,X)79-AU-193-M,PAR,SIG,,,EXP) B012001000003 The Given Cross Section can be Treated As the Sum B012001000004 Of a (LI-6,3N+P) And (LI-6,5N+P) Reaction at Both B012001000005 Isotopes of Natural Ir. B012001000006 PART-DET (G).To Obtain the Excitation Function the B012001000007 15/2- To 11/2- Transition in Au-193 with E=407.8 KeV B012001000008 And Intensity 100% was Used. B012001000009 SAMPLE Metallic Foils of Natural Ir, Thickness 112 Mg/Cm**2. B012001000010 CORRECTION Due to the Relatively Thick Target a Correction B012001000011 To the X-Ray Intensities was Applied Regarding the B012001000012 Self-Absorption in the Target. B012001000013 LEVEL-PROP (79-AU-193-M,E-LVL=0.69778,SPIN=7.5,PARITY=-1.) B012001000014 (79-AU-193-M,E-LVL=0.29017,SPIN=5.5,PARITY=-1.) B012001000015 EN-SEC (E,G) B012001000016 (E-LVL-INI,79-AU-193) B012001000017 (E-LVL-FIN,79-AU-193) B012001000018 COMMENT - By Compiler of CAJAD - Spin-Parity and Energy Levels B012001000019 Were Taken by Compiler Fron 8-Th Edition of Table of B012001000020 Isotopes. B012001000021 ENDBIB 19 0 B012001000022 COMMON 3 3 B012001000023 E-LVL-INI E-LVL-FIN E B012001000024 KEV KEV KEV B012001000025 697.78 290.17 407.8 B012001000026 ENDCOMMON 3 0 B012001000027 DATA 2 7 B012001000028 EN DATA B012001000029 MEV MB B012001000030 48.4 7.1 B012001000031 59.3 16.2 B012001000032 66. 33.2 B012001000033 82.3 28.9 B012001000034 87.1 27.8 B012001000035 100.2 19.5 B012001000036 111.5 15.3 B012001000037 ENDDATA 9 0 B012001000038 ENDSUBENT 37 0 B012001099999 SUBENT B0120011 20011220 0000B012001100001 BIB 7 19 B012001100002 REACTION (77-IR-0(3-LI-6,X)79-AU-191-M,PAR,SIG,,,EXP) B012001100003 The Given Cross Section can be Treated As the Sum B012001100004 Of a (LI-6,5N+P) And (LI-6,7N+P) Reaction at Both B012001100005 Isotopes of Natural Ir. B012001100006 PART-DET (G).To Obtain the Excitation Function the B012001100007 15/2- To 11/2- Transition in Au-191 with E=419.9 KeV B012001100008 And Intensity 100% was Used. B012001100009 SAMPLE Metallic Foils of Natural Ir, Thickness 112 Mg/Cm**2. B012001100010 CORRECTION Due to the Relatively Thick Target a Correction B012001100011 To the X-Ray Intensities was Applied Regarding the B012001100012 Self-Absorption in the Target. B012001100013 LEVEL-PROP (79-AU-191-M,E-LVL=0.6863,SPIN=7.5,PARITY=-1.) B012001100014 (79-AU-191-M,E-LVL=0.2662,SPIN=5.5,PARITY=-1.) B012001100015 EN-SEC (E,G) B012001100016 (E-LVL-INI,79-AU-191) B012001100017 (E-LVL-FIN,79-AU-191) B012001100018 COMMENT - By Compiler of CAJAD - Spin-Parity and Energy Levels B012001100019 Were Taken by Compiler Fron 8-Th Edition of Table of B012001100020 Isotopes. B012001100021 ENDBIB 19 0 B012001100022 COMMON 3 3 B012001100023 E-LVL-INI E-LVL-FIN E B012001100024 KEV KEV KEV B012001100025 686.3 266.2 419.9 B012001100026 ENDCOMMON 3 0 B012001100027 DATA 2 10 B012001100028 EN DATA B012001100029 MEV MB B012001100030 61.6 3.8 B012001100031 68. 19.2 B012001100032 77.8 39.2 B012001100033 89.3 50.3 B012001100034 102.7 62.7 B012001100035 112. 55. B012001100036 122.7 35.6 B012001100037 131.5 30.9 B012001100038 142. 21. B012001100039 152.5 12.6 B012001100040 ENDDATA 12 0 B012001100041 ENDSUBENT 40 0 B012001199999 SUBENT B0120012 20020311 B019B012001200001 BIB 6 15 B012001200002 REACTION (79-AU-197(3-LI-6,5N)82-PB-198,PAR,SIG,G,,EXP) B012001200003 PART-DET (G).To Obtain the Excitation Function the B012001200004 4+ to 2+ Transition in Pb-198 with E=562.4 KeV and B012001200005 Intensity 95% was Used. B012001200006 According to 8-Th Edition of Table of Isotopes B012001200007 Branching Ratio For the Transition is 100%. -Comment byB012001200008 CAJAD. B012001200009 SAMPLE Metallic Foils of Au-197, Thickness 25 Mg/Cm**2. B012001200010 LEVEL-PROP (82-PB-198,E-LVL=1.6259,SPIN=4.,PARITY=+1.) B012001200011 (82-PB-198,E-LVL=1.0635,SPIN=2.,PARITY=+1.) B012001200012 EN-SEC (E-LVL-INI,82-PB-198) B012001200013 (E-LVL-FIN,82-PB-198) B012001200014 COMMENT - By Compiler of CAJAD - Spin-Parity and Energy Levels B012001200015 Were Taken by Compiler Fron 8-Th Edition of Table of B012001200016 Isotopes. B012001200017 ENDBIB 15 0 B012001200018 COMMON 2 3 B012001200019 E-LVL-INI E-LVL-FIN B012001200020 KEV KEV B012001200021 1625.9 1063.5 B012001200022 ENDCOMMON 3 0 B012001200023 DATA 2 5 B012001200024 EN DATA B012001200025 MEV MB B012001200026 48.4 132.3 B012001200027 61.6 60.5 B012001200028 73.2 34.9 B012001200029 83.6 17.4 B012001200030 93.2 5.7 B012001200031 ENDDATA 7 0 B012001200032 ENDSUBENT 31 0 B012001299999 SUBENT B0120013 20011220 0000B012001300001 BIB 6 13 B012001300002 REACTION (79-AU-197(3-LI-6,7N)82-PB-196,PAR,SIG,,,EXP) B012001300003 PART-DET (G).To Obtain the Excitation Function the B012001300004 2+ to 0+ Transition in Pb-196 with E=1049.1 KeV and B012001300005 Intensity 100% was Used. B012001300006 SAMPLE Metallic Foils of Au-197, Thickness 25 Mg/Cm**2. B012001300007 LEVEL-PROP (82-PB-196,E-LVL=1.04920,SPIN=2.,PARITY=+1.) B012001300008 (82-PB-196,E-LVL=0.,SPIN=0.,PARITY=+1.) B012001300009 EN-SEC (E,G) B012001300010 (E-LVL-INI,82-PB-196) B012001300011 (E-LVL-FIN,82-PB-196) B012001300012 COMMENT - By Compiler of CAJAD - Spin-Parity and Energy Levels B012001300013 Were Taken by Compiler Fron 8-Th Edition of Table of B012001300014 Isotopes. B012001300015 ENDBIB 13 0 B012001300016 COMMON 3 3 B012001300017 E-LVL-INI E-LVL-FIN E B012001300018 KEV KEV KEV B012001300019 1049.2 0. 1049.1 B012001300020 ENDCOMMON 3 0 B012001300021 DATA 2 10 B012001300022 EN DATA B012001300023 MEV MB B012001300024 61.6 41.8 B012001300025 73.2 162.8 B012001300026 83.6 113.5 B012001300027 93.2 74.3 B012001300028 102. 44.7 B012001300029 106.7 34.3 B012001300030 113.5 22. B012001300031 117.4 19.8 B012001300032 127.5 17.3 B012001300033 137.4 9.4 B012001300034 ENDDATA 12 0 B012001300035 ENDSUBENT 34 0 B012001399999 SUBENT B0120014 20011220 0000B012001400001 BIB 6 15 B012001400002 REACTION (79-AU-197(3-LI-6,9N)82-PB-194,PAR,SIG,,,EXP) B012001400003 PART-DET (G).To Obtain the Excitation Function the B012001400004 2+ to 0+ Transition in Pb-194 with E=964.2 KeV and B012001400005 Intensity 100% was Used. B012001400006 SAMPLE Metallic Foils of Au-197, Thickness 25 Mg/Cm**2. B012001400007 LEVEL-PROP (82-PB-194,E-LVL=0.9654,SPIN=2.,PARITY=+1.) B012001400008 (82-PB-194,E-LVL=0.,SPIN=0.,PARITY=+1.) B012001400009 EN-SEC (E,G) B012001400010 (E-LVL-INI,82-PB-194) B012001400011 (E-LVL-FIN,82-PB-194) B012001400012 COMMENT - By Compiler of CAJAD - Spin-Parity and Energy Levels B012001400013 Were Taken by Compiler from 8-Th Edition of Table of B012001400014 Isotopes. B012001400015 Table of Isotopes Does not Contain 964.2-KeV Quanta. B012001400016 The Nearest Quantum is 965.4+-0.1 KeV Quantum. B012001400017 ENDBIB 15 0 B012001400018 COMMON 3 3 B012001400019 E-LVL-INI E-LVL-FIN E B012001400020 KEV KEV KEV B012001400021 964.2 0. 964.2 B012001400022 ENDCOMMON 3 0 B012001400023 DATA 2 9 B012001400024 EN DATA B012001400025 MEV MB B012001400026 93.2 29.5 B012001400027 102. 92.4 B012001400028 106.7 97.3 B012001400029 113.5 68.5 B012001400030 117.4 64.9 B012001400031 127.5 35.2 B012001400032 137.4 25.7 B012001400033 146.6 16.2 B012001400034 156. 12.2 B012001400035 ENDDATA 11 0 B012001400036 ENDSUBENT 35 0 B012001499999 SUBENT B0120015 20011220 0000B012001500001 BIB 6 13 B012001500002 REACTION (79-AU-197(3-LI-6,X)81-TL-197-M,PAR,SIG,,,EXP) B012001500003 PART-DET (G).To Obtain the Excitation Function the B012001500004 11/2- To 9/2- Transition in Tl-197 with E=387.7 KeV andB012001500005 Intensity 100% was Used. B012001500006 SAMPLE Metallic Foils of Au-197, Thickness 25 Mg/Cm**2. B012001500007 LEVEL-PROP (81-TL-197-M,E-LVL=0.99585,SPIN=5.5,PARITY=-1.) B012001500008 (81-TL-197-M,E-LVL=0.60822,SPIN=4.5,PARITY=-1.) B012001500009 EN-SEC (E,G) B012001500010 (E-LVL-INI,81-TL-197) B012001500011 (E-LVL-FIN,81-TL-197) B012001500012 COMMENT - By Compiler of CAJAD - Spin-Parity and Energy Levels B012001500013 Were Taken by Compiler Fron 8-Th Edition of Table of B012001500014 Isotopes. B012001500015 ENDBIB 13 0 B012001500016 COMMON 3 3 B012001500017 E-LVL-INI E-LVL-FIN E B012001500018 KEV KEV KEV B012001500019 995.85 608.22 387.7 B012001500020 ENDCOMMON 3 0 B012001500021 DATA 2 6 B012001500022 EN DATA B012001500023 MEV MB B012001500024 61.6 36.9 B012001500025 73.2 53.4 B012001500026 83.6 55.1 B012001500027 93.2 45.4 B012001500028 106.7 26.5 B012001500029 117.4 16.3 B012001500030 ENDDATA 8 0 B012001500031 ENDSUBENT 30 0 B012001599999 SUBENT B0120016 20011220 0000B012001600001 BIB 6 13 B012001600002 REACTION (79-AU-197(3-LI-6,X)81-TL-195-M,PAR,SIG,,,EXP) B012001600003 PART-DET (G).To Obtain the Excitation Function the B012001600004 11/2- To 9/2- Transition in Tl-195 with E=394.3 KeV andB012001600005 Intensity 100% was Used. B012001600006 LEVEL-PROP (81-TL-195-M,E-LVL=0.87669,SPIN=5.5,PARITY=-1.) B012001600007 (81-TL-195-M,E-LVL=0.48263,SPIN=4.5,PARITY=-1.) B012001600008 EN-SEC (E,G) B012001600009 (E-LVL-INI,81-TL-195) B012001600010 (E-LVL-FIN,81-TL-195) B012001600011 COMMENT - By Compiler of CAJAD - Spin-Parity and Energy Levels B012001600012 Were Taken by Compiler Fron 8-Th Edition of Table of B012001600013 Isotopes. B012001600014 SAMPLE Metallic Foils of Au-197, Thickness 25 Mg/Cm**2. B012001600015 ENDBIB 13 0 B012001600016 COMMON 3 3 B012001600017 E-LVL-INI E-LVL-FIN E B012001600018 KEV KEV KEV B012001600019 876.69 482.63 394.3 B012001600020 ENDCOMMON 3 0 B012001600021 DATA 2 9 B012001600022 EN DATA B012001600023 MEV MB B012001600024 73.2 3.8 B012001600025 83.6 56.7 B012001600026 93.2 82.7 B012001600027 106.7 115. B012001600028 117.4 59.8 B012001600029 127.5 73.1 B012001600030 137.4 55.1 B012001600031 146.6 27.1 B012001600032 156. 26.4 B012001600033 ENDDATA 11 0 B012001600034 ENDSUBENT 33 0 B012001699999 SUBENT B0120017 20011220 0000B012001700001 BIB 5 13 B012001700002 REACTION (79-AU-197(3-LI-6,X)81-TL-193-M,PAR,SIG,,FCT,EXP) B012001700003 PART-DET (G).To Obtain the Excitation Function the B012001700004 11/2- To 9/2- Transition in Tl-193 with E=392 KeV, B012001700005 Intensity 100%, was Used. B012001700006 EN-SEC (E,G) B012001700007 SAMPLE Metallic Foils of Au-197, Thickness 25 Mg/Cm**2. B012001700008 COMMENT - By Compiler of CAJAD - Spin-Parity and Energy Levels B012001700009 Were Taken by Compiler from 8-Th Edition of Table of B012001700010 Isotopes. B012001700011 According to Table of Isotopes, 392-KeV Transition can B012001700012 Be Disposed Between 754.4+X-KeV and 365.2+X-KeV Levels B012001700013 And 3374.6+X -->2982.3+X Levels, Where X is Unknown B012001700014 Energy of Isomer State. B012001700015 ENDBIB 13 0 B012001700016 COMMON 1 3 B012001700017 E B012001700018 KEV B012001700019 392. B012001700020 ENDCOMMON 3 0 B012001700021 DATA 2 6 B012001700022 EN DATA B012001700023 MEV MB B012001700024 106.7 22.6 B012001700025 117.4 74.6 B012001700026 127.5 108. B012001700027 137.4 80.9 B012001700028 146.6 99.8 B012001700029 156. 67.5 B012001700030 ENDDATA 8 0 B012001700031 ENDSUBENT 30 0 B012001799999 SUBENT B0120018 20011220 0000B012001800001 BIB 6 13 B012001800002 REACTION (79-AU-197(3-LI-6,X)81-TL-191,PAR,SIG,,,EXP) B012001800003 PART-DET (G).To Obtain the Excitation Function the B012001800004 11/2- To 9/2- Transition in Tl-191 with E=387 KeV and B012001800005 Intensity 100% was Used. B012001800006 SAMPLE Metallic Foils of Au-197, Thickness 25 Mg/Cm**2. B012001800007 LEVEL-PROP (81-TL-191,E-LVL=0.6861,SPIN=5.5,PARITY=-1.) B012001800008 (81-TL-191,E-LVL=0.299,SPIN=4.5,PARITY=-1.) B012001800009 EN-SEC (E,G) B012001800010 (E-LVL-INI,81-TL-191) B012001800011 (E-LVL-FIN,81-TL-191) B012001800012 COMMENT - By Compiler of CAJAD - Spin-Parity and Energy Levels B012001800013 Were Taken by Compiler from 8-Th Edition of Table of B012001800014 Isotopes. B012001800015 ENDBIB 13 0 B012001800016 COMMON 3 3 B012001800017 E-LVL-INI E-LVL-FIN E B012001800018 KEV KEV KEV B012001800019 686.1 299. 387. B012001800020 ENDCOMMON 3 0 B012001800021 DATA 2 3 B012001800022 EN DATA B012001800023 MEV MB B012001800024 137.4 25.7 B012001800025 146.6 62.4 B012001800026 156. 48.3 B012001800027 ENDDATA 5 0 B012001800028 ENDSUBENT 27 0 B012001899999 SUBENT B0120019 20011220 0000B012001900001 BIB 6 13 B012001900002 REACTION (79-AU-197(3-LI-6,X)80-HG-195-M,PAR,SIG,,,EXP) B012001900003 PART-DET (G).To Obtain the Excitation Function the B012001900004 17/2+ to 13/2+ Transition in Hg-195 with E=371.2 KeV B012001900005 And Intensity 100% was Used. B012001900006 SAMPLE Metallic Foils of Au-197, Thickness 25 Mg/Cm**2. B012001900007 LEVEL-PROP (80-HG-195-M,E-LVL=0.54690,SPIN=8.5,PARITY=+1.) B012001900008 (80-HG-195-M,E-LVL=0.17607,SPIN=6.5,PARITY=+1.) B012001900009 EN-SEC (E,G) B012001900010 (E-LVL-INI,80-HG-195) B012001900011 (E-LVL-FIN,80-HG-195) B012001900012 COMMENT - By Compiler of CAJAD - Spin-Parity and Energy Levels B012001900013 Were Taken by Compiler from 8-Th Edition of Table of B012001900014 Isotopes. B012001900015 ENDBIB 13 0 B012001900016 COMMON 3 3 B012001900017 E-LVL-INI E-LVL-FIN E B012001900018 KEV KEV KEV B012001900019 546.9 176.07 371.2 B012001900020 ENDCOMMON 3 0 B012001900021 DATA 2 11 B012001900022 EN DATA B012001900023 MEV MB B012001900024 48.4 8.3 B012001900025 61.6 43.6 B012001900026 73.2 145. B012001900027 83.6 118.3 B012001900028 93.2 87.7 B012001900029 106.7 62.1 B012001900030 117.4 56.5 B012001900031 127.5 36.2 B012001900032 137.4 40.6 B012001900033 146.6 27.5 B012001900034 156. 36.4 B012001900035 ENDDATA 13 0 B012001900036 ENDSUBENT 35 0 B012001999999 SUBENT B0120020 20011220 0000B012002000001 BIB 5 14 B012002000002 REACTION (79-AU-197(3-LI-6,X)80-HG-194,PAR,SIG,,,EXP) B012002000003 PART-DET (G).To Obtain the Excitation Function the 8+ to 6+ B012002000004 And 5- To 4+ Transitions in Hg-194 with E=564 KeV and B012002000005 748 KeV, Intensities 30 and 60%, Respectively, were B012002000006 Used. B012002000007 EN-SEC (E1,G) B012002000008 (E2,G) B012002000009 COMMENT - By Compiler of CAJAD - According to 8-Th Table of B012002000010 Isotopes, 564-KeV Transition is Transition Between B012002000011 2364.2-KeV Level (8+) And 1799.3-KeV Level (6+). B012002000012 748-KeV Transition is Transition Between 1813.4-KeV B012002000013 (5-) And 1064.5-KeV Level (4+). Both the Transitions B012002000014 Have Branching Ratio 100%, But not 30 and 60%. B012002000015 SAMPLE Metallic Foils of Au-197, Thickness 25 Mg/Cm**2. B012002000016 ENDBIB 14 0 B012002000017 COMMON 2 3 B012002000018 E1 E2 B012002000019 KEV KEV B012002000020 564. 748. B012002000021 ENDCOMMON 3 0 B012002000022 DATA 2 10 B012002000023 EN DATA B012002000024 MEV MB B012002000025 61.6 5.9 B012002000026 73.2 48.4 B012002000027 83.6 38.3 B012002000028 93.2 68.6 B012002000029 106.7 78.5 B012002000030 117.4 59.4 B012002000031 127.5 67.7 B012002000032 137.4 105. B012002000033 146.6 98.3 B012002000034 156. 125.6 B012002000035 ENDDATA 12 0 B012002000036 ENDSUBENT 35 0 B012002099999 SUBENT B0120021 20011220 0000B012002100001 BIB 5 14 B012002100002 REACTION (79-AU-197(3-LI-6,X)80-HG-193-M,PAR,SIG,,,EXP) B012002100003 PART-DET (G).To Obtain the Excitation Function the B012002100004 29/2+ to 25/2+ and 29/2- To 25/2- Transitions in B012002100005 Hg-193 with E=617.7 KeV and 302.5 KeV, Intensities 29% B012002100006 Both were Used. B012002100007 EN-SEC (E1,G) B012002100008 (E2,G) B012002100009 SAMPLE Metallic Foils of Au-197, Thickness 25 Mg/Cm**2. B012002100010 COMMENT - By Compiler of CAJAD - Spin-Parity and Energy Levels B012002100011 Were Taken by Compiler from 8-Th Edition of Table of B012002100012 Isotopes. B012002100013 According to Table of Isotopes Branching Ratio For B012002100014 617.7-KeV Transition is 100%. Branching Ratio For B012002100015 302.5-KeV Transition is Unknown. B012002100016 ENDBIB 14 0 B012002100017 COMMON 2 3 B012002100018 E1 E2 B012002100019 KEV KEV B012002100020 617.7 302.5 B012002100021 ENDCOMMON 3 0 B012002100022 DATA 2 10 B012002100023 EN DATA B012002100024 MEV MB B012002100025 61.6 6.9 B012002100026 73.2 32.3 B012002100027 83.6 52.7 B012002100028 93.2 63.2 B012002100029 106.7 74.9 B012002100030 117.4 70.7 B012002100031 127.5 79. B012002100032 137.4 82.1 B012002100033 146.6 67.4 B012002100034 156. 68.5 B012002100035 ENDDATA 12 0 B012002100036 ENDSUBENT 35 0 B012002199999 SUBENT B0120022 20011220 0000B012002200001 BIB 6 13 B012002200002 REACTION (79-AU-197(3-LI-6,X)80-HG-192,PAR,SIG,,,EXP) B012002200003 PART-DET (G).To Obtain the Excitation Function the 2+ to 0+ B012002200004 Transition in Hg-192 with E=422.8 KeV and Intensity B012002200005 100% was Used. B012002200006 SAMPLE Metallic Foils of Au-197, Thickness 25 Mg/Cm**2. B012002200007 LEVEL-PROP (80-HG-192,E-LVL=0.4228,SPIN=2.,PARITY=+1.) B012002200008 (80-HG-192,E-LVL=0.,SPIN=0.,PARITY=+1.) B012002200009 EN-SEC (E,G) B012002200010 (E-LVL-INI,80-HG-192) B012002200011 (E-LVL-FIN,80-HG-192) B012002200012 COMMENT - By Compiler of CAJAD - Spin-Parity and Energy Levels B012002200013 Were Taken by Compiler from 8-Th Edition of Table of B012002200014 Isotopes. B012002200015 ENDBIB 13 0 B012002200016 COMMON 3 3 B012002200017 E-LVL-INI E-LVL-FIN E B012002200018 KEV KEV KEV B012002200019 422.8 0. 422.8 B012002200020 ENDCOMMON 3 0 B012002200021 DATA 2 8 B012002200022 EN DATA B012002200023 MEV MB B012002200024 83.6 9.2 B012002200025 93.2 43.7 B012002200026 106.7 57. B012002200027 117.4 39.9 B012002200028 127.5 62.6 B012002200029 137.4 72.1 B012002200030 146.6 115. B012002200031 156. 95.2 B012002200032 ENDDATA 10 0 B012002200033 ENDSUBENT 32 0 B012002299999 SUBENT B0120023 20011220 0000B012002300001 BIB 5 17 B012002300002 REACTION (79-AU-197(3-LI-6,X)80-HG-191-M,PAR,SIG,,FCT,EXP) B012002300003 PART-DET (G).To Obtain the Excitation Function the B012002300004 15/2+ to 13/2+ Transition in Hg-191 with E=535.3 KeV B012002300005 And Intensity 34% was Used. B012002300006 EN-SEC (E,G) B012002300007 SAMPLE Metallic Foils of Au-197, Thickness 25 Mg/Cm**2. B012002300008 COMMENT - By Compiler of CAJAD - Spin-Parity and Energy Levels B012002300009 Were Taken by Compiler from 8-Th Edition of Table of B012002300010 Isotopes. B012002300011 According to Table of Isotopes Two Transions are B012002300012 Possible. B012002300013 First Transition from 535.3+X -KeV Level(15/2+) To 0+X B012002300014 -KeV Level(13/2+). B012002300015 Second Transition from 2864.0+Z -KeV Level(J+14) To B012002300016 2328.6+Z -KeV Level(J+12). B012002300017 Where X and Z are Unknown Ehergies of Head Levels. B012002300018 Branching Ratios are 100% For Both Transitions. B012002300019 ENDBIB 17 0 B012002300020 COMMON 1 3 B012002300021 E B012002300022 KEV B012002300023 535.3 B012002300024 ENDCOMMON 3 0 B012002300025 DATA 2 7 B012002300026 EN DATA B012002300027 MEV MB B012002300028 93.2 3.9 B012002300029 106.7 35.6 B012002300030 117.4 28.8 B012002300031 127.5 24.4 B012002300032 137.4 29.4 B012002300033 146.6 38.8 B012002300034 156. 50.7 B012002300035 ENDDATA 9 0 B012002300036 ENDSUBENT 35 0 B012002399999 SUBENT B0120024 20011220 0000B012002400001 BIB 5 18 B012002400002 REACTION (79-AU-197(3-LI-6,X)80-HG-190,PAR,SIG,,,EXP) B012002400003 PART-DET (G).To Obtain the Excitation Function the 2+ to 0+ B012002400004 And 4+ to 2+ Transitions in Hg-190 with E=416.6 KeV andB012002400005 625.4 KeV and Intensities 100 and 95%, Respectively B012002400006 Were Used. B012002400007 EN-SEC (E1,G) B012002400008 (E2,G) B012002400009 SAMPLE Metallic Foils of Au-197, Thickness 25 Mg/Cm**2. B012002400010 COMMENT - By Compiler of CAJAD - Spin-Parity and Energy Levels B012002400011 Were Taken by Compiler from 8-Th Edition of Table of B012002400012 Isotopes. B012002400013 According to Table of Isotopes Two Transions are B012002400014 Possible. B012002400015 First Transition from 416.4-KeV Level(2+) To 0 -KeV B012002400016 Level(0+). B012002400017 Second Transition from 1041.8-KeV Level(4+) To B012002400018 416.4-KeV Level(2+). B012002400019 Branching Ratios are 100% For Both Transitions. B012002400020 ENDBIB 18 0 B012002400021 COMMON 2 3 B012002400022 E1 E2 B012002400023 KEV KEV B012002400024 416.6 625.4 B012002400025 ENDCOMMON 3 0 B012002400026 DATA 2 6 B012002400027 EN DATA B012002400028 MEV MB B012002400029 106.7 3.4 B012002400030 117.4 16.5 B012002400031 127.5 18.6 B012002400032 137.4 23.2 B012002400033 146.6 36.5 B012002400034 156. 40. B012002400035 ENDDATA 8 0 B012002400036 ENDSUBENT 35 0 B012002499999 ENDENTRY 24 0 B012099999999