ENTRY O0306 20190306 O068O030600000001 SUBENT O0306001 20190306 O068O030600100001 BIB 12 51 O030600100002 TITLE Excitation functions and yield for medically important O030600100003 generators 82Sr -> 82Rb, 123Xe -> 123I and O030600100004 201Bi -> 201Pb -> Tl-201 obtained with 100 MeV protons O030600100005 obtained with 100 MeV protons. O030600100006 AUTHOR (C.Deptula,V.A.Khalkin,Kim Sen Han,O.Knotek,V.A.Konov, O030600100007 P.Mikecz,L.M.Popinenkova,E.Rurarz,N.G.Zaitseva) O030600100008 INSTITUTE (3POLIPJ,4ZZZDUB,3KDRPYN,3CZRUJV,4RUSFVE,3HUNDEB, O030600100009 3POLIPJ) O030600100010 REFERENCE (J,NKA,35,3,1990) O030600100011 (J,SRA,29,376,1987) - same data as in prev. publ. O030600100012 for I-127(p,x)Xe-123/125g reactions. O030600100013 ADD-RES (COMP).Hybrid model of nuclear reactions using the wellO030600100014 developed computer code overlaid Alice (including O030600100015 pre-equilibrium effects) O030600100016 (TTY-C) O030600100017 DETECTOR (GELI) Ge(Li) detector (40 cm3, resolution 1.2 keV O030600100018 FWHM at 122 keV), a 4096 channel analyser and O030600100019 associated electronics O030600100020 MONITOR (13-AL-27(P,X)11-NA-24,CUM,SIG,,,EVAL) O030600100021 MONIT-REF (,J.Tobailem+,R,CEA-N-1466,1971) O030600100022 FACILITY (LINAC,4RUSFVE).LU-100 at the Institute for High EnergyO030600100023 Physics in Serpukhuv (Russia) O030600100024 METHOD (STTA) O030600100025 (EXTB) The proton beam and irradiation times used were-O030600100026 20 Nanoamperes and 3-5 hour for Pb foils, O030600100027 36 Nanoamperes and 1 hour for Nai pellets, O030600100028 20 Nanoamperes and 3 hour for RbCl pellets. O030600100029 (ACTIV) O030600100030 (GSPEC) The stacks were repeatedly measured over a O030600100031 period of several day. O030600100032 ERR-ANALYS (ERR-T) total error includes: O030600100033 (ERR-1) The Error in the primary incident energy of theO030600100034 proton beam. O030600100035 (ERR-2) The error in the total number of protons on theO030600100036 targets (mainly due to the error of the monitor O030600100037 reactions) in the stack. O030600100038 (ERR-5,3.,5.) The statistical error in the integrated O030600100039 area of the photo-peaks. O030600100040 (ERR-S) The error in the counting statistics. O030600100041 (ERR-7) The error in the absolute efficiency of the O030600100042 germanium detector. O030600100043 (ERR-8) The error in the attenuation corrections. O030600100044 (ERR-9) The error in the decay-data. O030600100045 (ERR-10) The Error in the counting geometry. O030600100046 (ERR-11) The error of irradiation and decay times. O030600100047 HISTORY (19970221C) O030600100048 (20150331A).SB- corrections in author' list O030600100049 (20180322U) SD: ref. SRA,29,376 was added. O030600100050 Author's name and title were corrected. O030600100051 (20190306A) SD: Major corrections in all Subents. O030600100052 BIB updated. Subents 011-019 deleted (not for EXFOR) O030600100053 ENDBIB 51 0 O030600100054 COMMON 8 6 O030600100055 ERR-1 ERR-2 ERR-S ERR-7 ERR-8 ERR-9 O030600100056 ERR-10 ERR-11 O030600100057 PER-CENT PER-CENT PER-CENT PER-CENT PER-CENT PER-CENT O030600100058 PER-CENT PER-CENT O030600100059 0.5 5. 3. 5. 5. 5.O030600100060 3. 3. O030600100061 ENDCOMMON 6 0 O030600100062 ENDSUBENT 61 0 O030600199999 SUBENT O0306002 20190306 O068O030600200001 BIB 7 14 O030600200002 REACTION (37-RB-0(P,X)38-SR-82,,SIG) O030600200003 DECAY-DATA (38-SR-82,25.D,DG) O030600200004 COMMENT /by Authors/.The proton energy is average proton energyO030600200005 at the mid thickness of Rb-Cl discs. O030600200006 SAMPLE The pellets made from natural Rb-Cl (RB-85-72.17%, O030600200007 RB-87-27.83%,CL-35-75.77%,CL-37-24.23%) were used as O030600200008 target. The pellets thicknesses were determined by O030600200009 weight and area measurements. The stack of 20 Rb-Cl O030600200010 pellets were used. O030600200011 ERR-ANALYS (ERR-3) The error in the target thickness for pellets. O030600200012 STATUS (TABLE) Table 3 from Nukleonika,35(1990)3. O030600200013 HISTORY (20190306A) SD: SF5=IND deleted from REACTION code. O030600200014 ERR-ANALYS, COMMON updated. Energies updated O030600200015 according to presentation in the table. O030600200016 ENDBIB 14 0 O030600200017 COMMON 2 3 O030600200018 ERR-3 ERR-T O030600200019 PER-CENT PER-CENT O030600200020 8. 15. O030600200021 ENDCOMMON 3 0 O030600200022 DATA 2 31 O030600200023 EN DATA O030600200024 MEV MB O030600200025 98.8 34. O030600200026 95.3 34. O030600200027 94.8 36. O030600200028 93.8 40. O030600200029 92.1 37. O030600200030 91.5 32. O030600200031 89.5 47. O030600200032 88.5 44. O030600200033 85.7 50. O030600200034 84.8 47. O030600200035 81.2 47. O030600200036 77.5 47. O030600200037 76.8 49. O030600200038 74.3 53. O030600200039 72.3 51. O030600200040 70.4 61. O030600200041 67.9 65. O030600200042 63.1 61. O030600200043 60.0 56. O030600200044 58.3 58. O030600200045 57.1 65. O030600200046 54.3 79. O030600200047 52.8 155. O030600200048 51.4 181. O030600200049 48.9 171. O030600200050 46.4 128. O030600200051 45.7 92. O030600200052 44.2 89. O030600200053 41.4 41. O030600200054 39.6 28. O030600200055 32.5 14. O030600200056 ENDDATA 33 0 O030600200057 ENDSUBENT 56 0 O030600299999 SUBENT O0306003 20190306 O068O030600300001 BIB 7 17 O030600300002 REACTION (53-I-127(P,5N)54-XE-123,,SIG) O030600300003 DECAY-DATA (54-XE-123,2.1HR,DG) O030600300004 COMMENT /by Authors/.The purity of I-123 produced by the O030600300005 I-127(p,5n)Xe-123-I-123 reaction is determined by the O030600300006 proton energy and the target thickness. O030600300007 SAMPLE The Na-I pellets of thickness varying from 0.45 to O030600300008 0.55 g/cm2 were hermetically sealed in a polyethylene O030600300009 envelopes in order to avoid radioxenon loss and preventO030600300010 water absorption (NaI is hydroscopic). The pellets O030600300011 thicknesses were determined by weight and area O030600300012 measurements. The stack of 25 sealed pellets were used.O030600300013 The total thickness of All Na-I pellets in one stack O030600300014 was 12+-1 g/cm**2. O030600300015 ERR-ANALYS (ERR-3) The error in the target thickness for pellets. O030600300016 STATUS (TABLE) Table 4 from Nukleonika,35(1990)3. O030600300017 HISTORY (20190306A) SD: SF5=IND deleted from REACTION code. O030600300018 ERR-ANALYS, COMMON updated. O030600300019 ENDBIB 17 0 O030600300020 COMMON 2 3 O030600300021 ERR-3 ERR-T O030600300022 PER-CENT PER-CENT O030600300023 8. 15. O030600300024 ENDCOMMON 3 0 O030600300025 DATA 2 12 O030600300026 EN DATA O030600300027 MEV MB O030600300028 100. 40. O030600300029 95. 50. O030600300030 90. 60. O030600300031 85. 70. O030600300032 80. 85. O030600300033 75. 130. O030600300034 65. 175. O030600300035 60. 250. O030600300036 57. 350. O030600300037 55. 316. O030600300038 50. 180. O030600300039 45. 100. O030600300040 ENDDATA 14 0 O030600300041 ENDSUBENT 40 0 O030600399999 SUBENT O0306004 20190306 O068O030600400001 BIB 6 14 O030600400002 REACTION (53-I-127(P,3N)54-XE-125,,SIG) O030600400003 DECAY-DATA (54-XE-125-G,17.HR,DG) O030600400004 SAMPLE The Na-I pellets of thickness varying from 0.45 to O030600400005 0.55 g/cm2 were hermetically sealed in a polyethylene O030600400006 envelopes in order to avoid radioxenon loss and preventO030600400007 water absorption (NaI is hydroscopic). The pellets O030600400008 thicknesses were determined by weight and area O030600400009 measurements. The stack of 25 sealed pellets were used.O030600400010 The total thickness of All Na-I pellets in one stack O030600400011 was 12+-1 g/cm**2. O030600400012 ERR-ANALYS (ERR-3) The error in the target thickness for pellets. O030600400013 STATUS (TABLE) Table 4 from Nukleonika,35(1990)3. O030600400014 HISTORY (20190306A) SD: SF4=Xe-125g -> Xe-125; SF5=IND/M+ O030600400015 deleted from REACTION code. ERR-ANALYS, COMMON updated.O030600400016 ENDBIB 14 0 O030600400017 COMMON 2 3 O030600400018 ERR-3 ERR-T O030600400019 PER-CENT PER-CENT O030600400020 8. 15. O030600400021 ENDCOMMON 3 0 O030600400022 DATA 2 11 O030600400023 EN DATA O030600400024 MEV MB O030600400025 100. 30. O030600400026 90. 35. O030600400027 85. 40. O030600400028 80. 40. O030600400029 75. 45. O030600400030 70. 50. O030600400031 65. 60. O030600400032 60. 70. O030600400033 55. 80. O030600400034 50. 105. O030600400035 45. 135. O030600400036 ENDDATA 13 0 O030600400037 ENDSUBENT 36 0 O030600499999 SUBENT O0306005 20190306 O068O030600500001 BIB 8 24 O030600500002 REACTION (82-PB-206(P,2N)83-BI-205,,SIG) O030600500003 DECAY-DATA (83-BI-205,15.3D,DG) O030600500004 MISC-COL (MISC) Thin-target yield. O030600500005 SAMPLE (82-PB-206,ENR=0.940) A stacked foil target /thin O030600500006 circular foils 10 mm in diam. with thickness which O030600500007 varied from 0.15-0.20 mg/cm2 was constructed using O030600500008 enriched metallic lead. O030600500009 The isotopic composition of the Pb-206 foil- O030600500010 Pb-204-0.01%, O030600500011 Pb-206-94.0+-0.1%, O030600500012 Pb-207-4.04%, O030600500013 Pb-208-1.96%. O030600500014 Each stack consisted of 3 foils /triad/ with three O030600500015 different Pb isotopes-Pb-206,Pb-207 and Pb-208. A totalO030600500016 of 20 triad /60 Foils with total mass 11 g/cm2 were O030600500017 used. O030600500018 CRITIQUE - By Compiler - Stack construction does not exclude O030600500019 influence of recoil nuclei lost on measured cross O030600500020 section. O030600500021 ERR-ANALYS (ERR-3) The error in the target thickness for foils. O030600500022 STATUS (TABLE) Table 7 from Nukleonika,35(1990)3. O030600500023 HISTORY (20190306A) SD: SF5=IND deleted from REACTION code. O030600500024 ERR-ANALYS, COMMON updated. Energies updated O030600500025 according to presentation in the table. O030600500026 ENDBIB 24 0 O030600500027 COMMON 2 3 O030600500028 ERR-3 ERR-T O030600500029 PER-CENT PER-CENT O030600500030 5. 13. O030600500031 ENDCOMMON 3 0 O030600500032 DATA 3 20 O030600500033 EN DATA MISC O030600500034 MEV MB MUCI/MUAHR O030600500035 96.6 34. 6. O030600500036 95.5 34. 6. O030600500037 92.4 34. 6. O030600500038 90.4 36. 6. O030600500039 88.2 38. 7. O030600500040 86.0 38. 7. O030600500041 83.8 38. 7. O030600500042 81.5 40. 7. O030600500043 79.2 41. 7. O030600500044 76.8 45. 8. O030600500045 74.3 44. 8. O030600500046 71.9 46. 8. O030600500047 69.2 46. 8. O030600500048 66.6 49. 8. O030600500049 63.9 45. 8. O030600500050 61.1 53. 9. O030600500051 58.1 49. 8. O030600500052 55.2 54. 10. O030600500053 52.1 54. 10. O030600500054 49.0 57. 10. O030600500055 ENDDATA 22 0 O030600500056 ENDSUBENT 55 0 O030600599999 SUBENT O0306006 20190306 O068O030600600001 BIB 8 24 O030600600002 REACTION (82-PB-206(P,N)83-BI-206,,SIG) O030600600003 DECAY-DATA (83-BI-206,6.2D,DG) O030600600004 MISC-COL (MISC) Thin-target yield. O030600600005 SAMPLE (82-PB-206,ENR=0.940) A stacked foil target /thin O030600600006 circular foils 10 mm in diam. with thickness which O030600600007 varied from 0.15-0.20 mg/cm2 was constructed using O030600600008 enriched metallic lead. O030600600009 The isotopic composition of the Pb-206 foil- O030600600010 Pb-204-0.01%, O030600600011 Pb-206-94.0+-0.1%, O030600600012 Pb-207-4.04%, O030600600013 Pb-208-1.96%.. O030600600014 Each stack consisted of 3 foils /triad/ with three O030600600015 different Pb isotopes-Pb-206,Pb-207 and Pb-208. A totalO030600600016 of 20 triad /60 Foils with total mass 11 g/cm2 were O030600600017 used. O030600600018 ERR-ANALYS (ERR-3) The error in the target thickness for foils. O030600600019 CRITIQUE - By Compiler - Stack construction does not exclude O030600600020 influence of recoil nuclei lost on measured cross O030600600021 section. O030600600022 STATUS (TABLE) Table 7 from Nukleonika,35(1990)3. O030600600023 HISTORY (20190306A) SD: SF5=IND deleted from REACTION code. O030600600024 ERR-ANALYS, COMMON updated. Energies updated O030600600025 according to presentation in the table. O030600600026 ENDBIB 24 0 O030600600027 COMMON 2 3 O030600600028 ERR-3 ERR-T O030600600029 PER-CENT PER-CENT O030600600030 5. 13. O030600600031 ENDCOMMON 3 0 O030600600032 DATA 3 20 O030600600033 EN DATA MISC O030600600034 MEV MB MUCI/MUAHR O030600600035 96.6 8. 4. O030600600036 95.5 9. 4. O030600600037 92.4 9. 4. O030600600038 90.4 9. 4. O030600600039 88.2 9. 4. O030600600040 86.0 9. 4. O030600600041 83.8 10. 4. O030600600042 81.5 10. 4. O030600600043 79.2 10. 4. O030600600044 76.8 10. 5. O030600600045 74.3 11. 5. O030600600046 71.9 11. 4. O030600600047 69.2 12. 5. O030600600048 66.6 10. 5. O030600600049 63.9 13. 5. O030600600050 61.1 12. 5. O030600600051 58.1 13. 5. O030600600052 55.2 13. 5. O030600600053 52.1 14. 6. O030600600054 49.0 15. 6. O030600600055 ENDDATA 22 0 O030600600056 ENDSUBENT 55 0 O030600699999 SUBENT O0306007 20190306 O068O030600700001 BIB 8 24 O030600700002 REACTION (82-PB-207(P,3N)83-BI-205,,SIG) O030600700003 DECAY-DATA (83-BI-205,15.3D,DG) O030600700004 MISC-COL (MISC) Thin-Target Yield. O030600700005 SAMPLE (82-PB-207,ENR=0.890) A stacked foil target /thin O030600700006 circular foils 10 mm in diam. with thickness which O030600700007 varied from 0.15-0.20 mg/cm2 was constructed using O030600700008 enriched metallic lead. O030600700009 The isotopic composition of the Pb-207 foil- O030600700010 Pb-204-0.01%, O030600700011 Pb-206-2.66%, O030600700012 Pb-207-89.0+-0.1%, O030600700013 Pb-208-8.24%. O030600700014 Each stack consisted of 3 foils /triad/ with three O030600700015 different Pb isotopes-Pb-206,Pb-207 and Pb-208. A totalO030600700016 of 20 triad /60 Foils with total mass 11 g/cm2 were O030600700017 used. O030600700018 ERR-ANALYS (ERR-3) The error in the target thickness for foils. O030600700019 CRITIQUE - By Compiler - Stack construction does not exclude O030600700020 influence of recoil nuclei lost on measured cross O030600700021 section. O030600700022 STATUS (TABLE) Table 8 from Nukleonika,35(1990)3. O030600700023 HISTORY (20190306A) SD: SF5=IND deleted from REACTION code. O030600700024 ERR-ANALYS, COMMON updated. Energies updated O030600700025 according to presentation in the table. O030600700026 ENDBIB 24 0 O030600700027 COMMON 2 3 O030600700028 ERR-3 ERR-T O030600700029 PER-CENT PER-CENT O030600700030 5. 13. O030600700031 ENDCOMMON 3 0 O030600700032 DATA 3 20 O030600700033 EN DATA MISC O030600700034 MEV MB MUCI/MUAHR O030600700035 97.3 52. 10. O030600700036 95.2 51. 9. O030600700037 93.1 58. 10. O030600700038 91.1 59. 9. O030600700039 88.9 59. 10. O030600700040 86.7 62. 10. O030600700041 84.5 64. 11. O030600700042 82.3 61. 10. O030600700043 80.0 63. 10. O030600700044 77.6 70. 12. O030600700045 75.1 70. 12. O030600700046 72.7 67. 11. O030600700047 70.1 69. 13. O030600700048 67.5 69. 11. O030600700049 64.9 72. 11. O030600700050 62.0 72. 13. O030600700051 59.1 76. 14. O030600700052 56.2 81. 13. O030600700053 53.2 87. 14. O030600700054 50.0 105. 17. O030600700055 ENDDATA 22 0 O030600700056 ENDSUBENT 55 0 O030600799999 SUBENT O0306008 20190306 O068O030600800001 BIB 8 24 O030600800002 REACTION (82-PB-207(P,2N)83-BI-206,,SIG) O030600800003 DECAY-DATA (83-BI-206,6.2D,DG) O030600800004 MISC-COL (MISC) Thin-target yield. O030600800005 SAMPLE (82-PB-207,ENR=0.890) A stacked foil target /thin O030600800006 circular foils 10 mm in diam. with thickness which O030600800007 varied from 0.15-0.20 mg/cm2 was constructed using O030600800008 enriched metallic lead. O030600800009 The isotopic composition of the Pb-207 foil- O030600800010 Pb-204-0.01%, O030600800011 Pb-206-2.66%, O030600800012 Pb-207-89.0+-0.1%, O030600800013 Pb-208-8.24%. O030600800014 Each stack consisted of 3 foils /triad/ with three O030600800015 different Pb isotopes-Pb-206,Pb-207 and Pb-208. A totalO030600800016 of 20 triad /60 Foils with total mass 11 g/cm2 were O030600800017 used. O030600800018 ERR-ANALYS (ERR-3) The error in the target thickness for foils. O030600800019 CRITIQUE - By Compiler - Stack construction does not exclude O030600800020 influence of recoil nuclei lost on measured cross O030600800021 section. O030600800022 STATUS (TABLE) Table 8 from Nukleonika,35(1990)3. O030600800023 HISTORY (20190306A) SD: SF5=IND deleted from REACTION code. O030600800024 ERR-ANALYS, COMMON updated. Energies updated O030600800025 according to presentation in the table. O030600800026 ENDBIB 24 0 O030600800027 COMMON 2 3 O030600800028 ERR-3 ERR-T O030600800029 PER-CENT PER-CENT O030600800030 5. 13. O030600800031 ENDCOMMON 3 0 O030600800032 DATA 3 20 O030600800033 EN DATA MISC O030600800034 MEV MB MUCI/MUAHR O030600800035 97.3 21. 9. O030600800036 95.2 22. 11. O030600800037 93.1 22. 10. O030600800038 91.1 26. 10. O030600800039 88.9 26. 11. O030600800040 86.7 25. 10. O030600800041 84.5 26. 10. O030600800042 82.3 27. 11. O030600800043 80.0 26. 11. O030600800044 77.6 27. 12. O030600800045 75.1 29. 13. O030600800046 72.7 30. 12. O030600800047 70.1 30. 14. O030600800048 67.5 31. 13. O030600800049 64.9 32. 13. O030600800050 62.0 34. 13. O030600800051 59.1 36. 16. O030600800052 56.2 37. 14. O030600800053 53.2 43. 17. O030600800054 50.0 48. 19. O030600800055 ENDDATA 22 0 O030600800056 ENDSUBENT 55 0 O030600899999 SUBENT O0306009 20190306 O068O030600900001 BIB 8 24 O030600900002 REACTION (82-PB-208(P,4N)83-BI-205,,SIG) O030600900003 DECAY-DATA (83-BI-205,15.3D,DG) O030600900004 MISC-COL (MISC) Thin-target yield. O030600900005 SAMPLE (82-PB-208,ENR=0.975) A stacked foil target /thin O030600900006 circular foils 10 mm in diam. with thickness which O030600900007 varied from 0.15-0.20 mg/cm2 was constructed using O030600900008 enriched metallic lead. O030600900009 The isotopic composition of the Pb-208 foil- O030600900010 Pb-204-0.08%, O030600900011 Pb-206-0.82%, O030600900012 Pb-207-1.6%, O030600900013 Pb-208-97.5+-0.1%. O030600900014 Each stack consisted of 3 foils /triad/ with three O030600900015 different Pb isotopes-Pb-206,Pb-207 and Pb-208. A totalO030600900016 of 20 triad /60 Foils with total mass 11 g/cm2 were O030600900017 used. O030600900018 ERR-ANALYS (ERR-3) The error in the target thickness for foils. O030600900019 CRITIQUE - By Compiler - Stack construction does not exclude O030600900020 influence of recoil nuclei lost on measured cross O030600900021 section. O030600900022 STATUS (TABLE) Table 9 from Nukleonika,35(1990)3. O030600900023 HISTORY (20190306A) SD: SF5=IND deleted from REACTION code. O030600900024 ERR-ANALYS, COMMON updated. Energies updated O030600900025 according to presentation in the table. O030600900026 ENDBIB 24 0 O030600900027 COMMON 2 3 O030600900028 ERR-3 ERR-T O030600900029 PER-CENT PER-CENT O030600900030 5. 13. O030600900031 ENDCOMMON 3 0 O030600900032 DATA 3 20 O030600900033 EN DATA MISC O030600900034 MEV MB MUCI/MUAHR O030600900035 98.0 60. 11. O030600900036 95.9 66. 12. O030600900037 93.8 66. 12. O030600900038 91.7 68. 12. O030600900039 89.6 71. 13. O030600900040 87.5 71. 13. O030600900041 85.2 74. 13. O030600900042 83.0 72. 12. O030600900043 80.7 76. 14. O030600900044 78.4 75. 13. O030600900045 75.9 76. 14. O030600900046 73.5 83. 15. O030600900047 71.0 88. 17. O030600900048 68.4 93. 16. O030600900049 65.8 100. 18. O030600900050 63.0 100. 18. O030600900051 60.1 111. 19. O030600900052 57.2 112. 21. O030600900053 54.2 115. 21. O030600900054 51.1 128. 22. O030600900055 ENDDATA 22 0 O030600900056 ENDSUBENT 55 0 O030600999999 SUBENT O0306010 20190306 O068O030601000001 BIB 8 24 O030601000002 REACTION (82-PB-208(P,3N)83-BI-206,,SIG) O030601000003 DECAY-DATA (83-BI-206,6.2D,DG) O030601000004 MISC-COL (MISC) Thin-target yield. O030601000005 SAMPLE (82-PB-208,ENR=0.975) A stacked foil target /thin O030601000006 circular foils 10 mm in diam. with thickness which O030601000007 varied from 0.15-0.20 mg/cm2 was constructed using O030601000008 enriched metallic lead. O030601000009 The isotopic composition of the Pb-208 foil- O030601000010 Pb-204-0.08%, O030601000011 Pb-206-0.82%, O030601000012 Pb-207-1.6%, O030601000013 Pb-208-97.5+-0.1%. O030601000014 Each stack consisted of 3 foils /triad/ with three O030601000015 different Pb isotopes-Pb-206,Pb-207 and Pb-208. A totalO030601000016 of 20 triad /60 foils with total mass 11 g/cm2 were O030601000017 used. O030601000018 ERR-ANALYS (ERR-3) The error in the target thickness for foils. O030601000019 CRITIQUE - By Compiler - Stack construction does not exclude O030601000020 influence of recoil nuclei lost on measured cross O030601000021 section. O030601000022 STATUS (TABLE) Table 9 from Nukleonika,35(1990)3. O030601000023 HISTORY (20190306A) SD: SF5=IND deleted from REACTION code. O030601000024 ERR-ANALYS, COMMON updated. Energies updated O030601000025 according to presentation in the table. O030601000026 ENDBIB 24 0 O030601000027 COMMON 2 3 O030601000028 ERR-3 ERR-T O030601000029 PER-CENT PER-CENT O030601000030 5. 13. O030601000031 ENDCOMMON 3 0 O030601000032 DATA 3 20 O030601000033 EN DATA MISC O030601000034 MEV MB MUCI/MUAHR O030601000035 98.0 36. 15. O030601000036 95.9 37. 16. O030601000037 93.8 38. 16. O030601000038 91.7 39. 17. O030601000039 89.6 40. 19. O030601000040 87.5 40. 18. O030601000041 85.2 43. 18. O030601000042 83.0 43. 18. O030601000043 80.7 45. 21. O030601000044 78.4 45. 20. O030601000045 75.9 48. 22. O030601000046 73.5 49. 22. O030601000047 71.0 51. 23. O030601000048 68.4 52. 24. O030601000049 65.8 56. 24. O030601000050 63.0 56. 24. O030601000051 60.1 59. 27. O030601000052 57.2 61. 28. O030601000053 54.2 65. 29. O030601000054 51.1 69. 29. O030601000055 ENDDATA 22 0 O030601000056 ENDSUBENT 55 0 O030601099999 NOSUBENT O0306011 20190306 O068O030601100001 NOSUBENT O0306012 20190306 O068O030601200001 NOSUBENT O0306013 20190306 O068O030601300001 NOSUBENT O0306014 20190306 O068O030601400001 NOSUBENT O0306015 20190306 O068O030601500001 NOSUBENT O0306016 20190306 O068O030601600001 NOSUBENT O0306017 20190306 O068O030601700001 NOSUBENT O0306018 20190306 O068O030601800001 NOSUBENT O0306019 20190306 O068O030601900001 ENDENTRY 19 0 O030699999999