ENTRY O0505 20151203 O056O050500000001 SUBENT O0505001 20151203 O056O050500100001 BIB 10 29 O050500100002 TITLE Cross sections for the proton-induced production of O050500100003 krypton isotopes from Rb, Sr, Y, and Zr for energies O050500100004 up to 1600 MeV. O050500100005 AUTHOR (E.Gilabert,B.Lavielle,S.Neumann,M.Gloris, R.Michel, O050500100006 Th.Schiekel,F.Sudbrock,U.Herpers) O050500100007 INSTITUTE (2FR GRA) O050500100008 (2GERUH ) O050500100009 (2GERKLN) O050500100010 FACILITY (SYNCH,2FR SAC) Primary energies of 257, 298, 330, 400,O050500100011 600, 800, 1200 and 1600 MeV were used for irradiation. O050500100012 (CYCLO,2SWTPSI) 72 and 45 MeV. O050500100013 (SYNCY,2SWDUPP) 136, 162.5, 178 MeV. O050500100014 (SPECM,2FR GRA) O050500100015 REFERENCE (J,NIM/B,145,293,1998) O050500100016 REL-REF (M,O0276001,R.Michel+,J,NIM/B,129,153,1997) A detailed O050500100017 discussion of the experimental uncertainties. O050500100018 MONITOR (13-AL-27(P,X)11-NA-22,CUM,SIG) O050500100019 METHOD (ACTIV,STTA,EXTB) O050500100020 ERR-ANALYS (ERR-T) A detailed discussion of all the experimental O050500100021 uncertainties which have to be taken into account was O050500100022 already given in REL-REF. O050500100023 (EN-ERR) The uncertainties cover those of the primary O050500100024 proton energies and the energy straggling in the stack.O050500100025 HISTORY (19990219C) By F.C. O050500100026 (19990317U) Last checking has been done. O050500100027 (19991117A) DATE is corrected O050500100028 (20151203A) SD: Author's name corrected (Gielabert -> O050500100029 Gilabert), one author's name was added (F.Sudbrock). O050500100030 DECAY-DATA corrected in Subent 004. O050500100031 ENDBIB 29 0 O050500100032 NOCOMMON 0 0 O050500100033 ENDSUBENT 32 0 O050500199999 SUBENT O0505002 19991117 0000O050500200001 BIB 7 18 O050500200002 REACTION (37-RB-0(P,X)38-SR-82,IND,SIG) O050500200003 RAD-DET (38-SR-82,DG) O050500200004 DECAY-DATA (38-SR-82,25.55D,DG,776.5,0.134) O050500200005 SAMPLE Rubidium Targets were Prepared by Sawing a 90 Degrees O050500200006 Section of a Cylindrical Rb-Mn-F/3 Cristall with a O050500200007 Diameter of 25 mm. O050500200008 Typical Rb Target Shape was Thus a 90 Degrees Section O050500200009 Of a Disk with a Diameter of 25 mm with a Thickness of O050500200010 About 0.5 mm and a Weight of About 0.300 Gramm. O050500200011 The Rb Target Used For Irradiation at 1600 MeV was an O050500200012 About 2 mm Thick Pill with a Diameter of 15 mm. It was O050500200013 Made by Compacting Rb/2-S-O/4 Powder. O050500200014 METHOD (GSPEC) O050500200015 (MOMIX) O050500200016 ANALYSIS (AREA) O050500200017 (DECAY) O050500200018 DETECTOR (GELI) O050500200019 (HPGE) O050500200020 ENDBIB 18 0 O050500200021 NOCOMMON 0 0 O050500200022 DATA 4 17 O050500200023 EN EN-ERR DATA ERR-T O050500200024 MEV MEV MB MB O050500200025 56.2 1.6 103. 1. O050500200026 81.6 1.6 32.5 3.4 O050500200027 89. 1.4 26. 2.7 O050500200028 99.9 1.2 21.1 2.2 O050500200029 108. 1. 18.6 1.9 O050500200030 112. 2. 17.3 1.8 O050500200031 124. 1. 15. 1.6 O050500200032 130. 1. 14.2 1.5 O050500200033 142. 2. 12.9 1.3 O050500200034 168. 1. 10.2 1.1 O050500200035 293. 1. 6.05 0.73 O050500200036 368. 1. 5.11 0.56 O050500200037 575. 1. 3.23 0.4 O050500200038 777. 1. 2.48 0.28 O050500200039 962. 2. 2.42 0.4 O050500200040 1360. 2. 1.5 0.26 O050500200041 2570. 2. 1.86 0.29 O050500200042 ENDDATA 19 0 O050500200043 ENDSUBENT 42 0 O050500299999 SUBENT O0505003 19991117 0000O050500300001 BIB 7 20 O050500300002 REACTION (37-RB-0(P,X)38-SR-83-G,IND/M+,SIG) O050500300003 RAD-DET (38-SR-83-G,DG) O050500300004 DECAY-DATA (38-SR-83-G,1.35D,DG,381.5,0.173, O050500300005 DG,418.4,0.0457, O050500300006 DG,762.7,0.297) O050500300007 SAMPLE Rubidium Targets were Prepared by Sawing a 90 Degrees O050500300008 Section of a Cylindrical Rb-Mn-F/3 Cristall with a O050500300009 Diameter of 25 mm. O050500300010 Typical Rb Target Shape was Thus a 90 Degrees Section O050500300011 Of a Disk with a Diameter of 25 mm with a Thickness of O050500300012 About 0.5 mm and a Weight of About 0.300 Gramm. O050500300013 The Rb Target Used For Irradiation at 1600 MeV was an O050500300014 About 2 mm Thick Pill with a Diameter of 15 mm. It was O050500300015 Made by Compacting Rb/2-S-O/4 Powder. O050500300016 METHOD (GSPEC) O050500300017 (MOMIX) O050500300018 ANALYSIS (AREA) O050500300019 (DECAY) O050500300020 DETECTOR (GELI) O050500300021 (HPGE) O050500300022 ENDBIB 20 0 O050500300023 NOCOMMON 0 0 O050500300024 DATA 4 17 O050500300025 EN EN-ERR DATA ERR-T O050500300026 MEV MEV MB MB O050500300027 56.2 1.6 91. 10.1 O050500300028 81.6 1.6 43.8 4.5 O050500300029 89. 1.4 36.1 3.7 O050500300030 99.9 1.2 29.6 3. O050500300031 108. 1. 26.9 2.8 O050500300032 112. 2. 24.8 2.5 O050500300033 124. 1. 22.2 2.3 O050500300034 130. 1. 21.2 2.2 O050500300035 142. 2. 18.9 1.9 O050500300036 168. 1. 15.2 1.6 O050500300037 293. 1. 8.63 0.95 O050500300038 368. 1. 7.24 0.81 O050500300039 575. 1. 4.41 0.54 O050500300040 777. 1. 3.66 0.55 O050500300041 962. 2. 3.3 0.42 O050500300042 1360. 2. 2.64 0.33 O050500300043 2570. 2. 3.53 0.57 O050500300044 ENDDATA 19 0 O050500300045 ENDSUBENT 44 0 O050500399999 SUBENT O0505004 20151203 O056O050500400001 BIB 8 21 O050500400002 REACTION (37-RB-0(P,X)38-SR-85-G,M+,SIG) O050500400003 84.5% isomer transition. O050500400004 DECAY-DATA (38-SR-85-G,64.84D,DG,776.5,0.134) O050500400005 SAMPLE Rubidium targets were prepared by sawing a 90 degrees O050500400006 section of a cylindrical Rb-Mn-F/3 crystal with a O050500400007 diameter of 25 mm. O050500400008 Typical Rb target shape was thus a 90 degrees section O050500400009 of a disk with a diameter of 25 mm with a thickness of O050500400010 about 0.5 mm and a weight of about 0.300 gram. O050500400011 The Rb target used for irradiation at 1600 MeV was an O050500400012 about 2 mm thick pill with a diameter of 15 mm. It was O050500400013 made by compacting Rb/2-S-O/4 powder. O050500400014 METHOD (GSPEC) O050500400015 (MOMIX) O050500400016 ANALYSIS (AREA) O050500400017 (DECAY) O050500400018 DETECTOR (GELI) O050500400019 (HPGE) O050500400020 STATUS (TABLE) Tbl.2 of NIM/B,145,293,1998 O050500400021 HISTORY (20151203A) SD: 25.55D -> 64.84D in DECAY-DATA. SF5=INDO050500400022 deleted from REACTION code. O050500400023 ENDBIB 21 0 O050500400024 NOCOMMON 0 0 O050500400025 DATA 4 15 O050500400026 EN EN-ERR DATA ERR-T O050500400027 MEV MEV MB MB O050500400028 56.2 1.6 49.2 5.7 O050500400029 81.6 1.6 23.3 2.4 O050500400030 89. 1.4 21.2 2.3 O050500400031 99.9 1.2 18. 1.9 O050500400032 108. 1. 16.7 1.7 O050500400033 112. 2. 15.8 1.6 O050500400034 124. 1. 15. 1.6 O050500400035 130. 1. 13.9 1.4 O050500400036 142. 2. 12.6 1.3 O050500400037 168. 1. 10.4 1.1 O050500400038 293. 1. 6.36 0.66 O050500400039 368. 1. 7.13 0.76 O050500400040 777. 1. 4.83 0.55 O050500400041 962. 2. 4.42 0.54 O050500400042 1360. 2. 3.99 0.45 O050500400043 ENDDATA 17 0 O050500400044 ENDSUBENT 43 0 O050500499999 SUBENT O0505005 19991117 0000O050500500001 BIB 7 19 O050500500002 REACTION (37-RB-0(P,X)37-RB-81-G,CUM,SIG) O050500500003 RAD-DET (37-RB-81-G,DG) O050500500004 DECAY-DATA (37-RB-81-G,4.58HR,DG,190.4,0.643, O050500500005 DG,446.3,0.233) O050500500006 SAMPLE Rubidium Targets were Prepared by Sawing a 90 Degrees O050500500007 Section of a Cylindrical Rb-Mn-F/3 Cristall with a O050500500008 Diameter of 25 mm. O050500500009 Typical Rb Target Shape was Thus a 90 Degrees Section O050500500010 Of a Disk with a Diameter of 25 mm with a Thickness of O050500500011 About 0.5 mm and a Weight of About 0.300 Gramm. O050500500012 The Rb Target Used For Irradiation at 1600 MeV was an O050500500013 About 2 mm Thick Pill with a Diameter of 15 mm. It was O050500500014 Made by Compacting Rb/2-S-O/4 Powder. O050500500015 METHOD (GSPEC) O050500500016 (MOMIX) O050500500017 ANALYSIS (AREA) O050500500018 (DECAY) O050500500019 DETECTOR (GELI) O050500500020 (HPGE) O050500500021 ENDBIB 19 0 O050500500022 NOCOMMON 0 0 O050500500023 DATA 4 6 O050500500024 EN EN-ERR DATA ERR-T O050500500025 MEV MEV MB MB O050500500026 56.2 1.6 55. 7. O050500500027 81.6 1.6 106. 11. O050500500028 89. 1.4 115. 12. O050500500029 99.9 1.2 91.9 9.5 O050500500030 108. 1. 85. 8.7 O050500500031 130. 1. 72.4 7.6 O050500500032 ENDDATA 8 0 O050500500033 ENDSUBENT 32 0 O050500599999 SUBENT O0505006 19991117 0000O050500600001 BIB 7 20 O050500600002 REACTION (37-RB-0(P,X)37-RB-83,CUM,SIG) O050500600003 RAD-DET (37-RB-83,DG) O050500600004 DECAY-DATA (37-RB-83,86.2D,DG,520.4,0.461, O050500600005 DG,529.5,0.300, O050500600006 DG,552.5,0.163) O050500600007 SAMPLE Rubidium Targets were Prepared by Sawing a 90 Degrees O050500600008 Section of a Cylindrical Rb-Mn-F/3 Cristall with a O050500600009 Diameter of 25 mm. O050500600010 Typical Rb Target Shape was Thus a 90 Degrees Section O050500600011 Of a Disk with a Diameter of 25 mm with a Thickness of O050500600012 About 0.5 mm and a Weight of About 0.300 Gramm. O050500600013 The Rb Target Used For Irradiation at 1600 MeV was an O050500600014 About 2 mm Thick Pill with a Diameter of 15 mm. It was O050500600015 Made by Compacting Rb/2-S-O/4 Powder. O050500600016 METHOD (GSPEC) O050500600017 (MOMIX) O050500600018 ANALYSIS (AREA) O050500600019 (DECAY) O050500600020 DETECTOR (GELI) O050500600021 (HPGE) O050500600022 ENDBIB 20 0 O050500600023 NOCOMMON 0 0 O050500600024 DATA 4 18 O050500600025 EN EN-ERR DATA ERR-T O050500600026 MEV MEV MB MB O050500600027 56.2 1.6 262. 29. O050500600028 81.6 1.6 188. 19. O050500600029 89. 1.4 164. 17. O050500600030 99.9 1.2 145. 15. O050500600031 108. 1. 142. 14. O050500600032 112. 2. 132. 13. O050500600033 124. 1. 125. 13. O050500600034 130. 1. 117. 12. O050500600035 142. 2. 109. 11. O050500600036 168. 1. 93.2 9.5 O050500600037 293. 1. 66.6 6.8 O050500600038 368. 1. 63.8 6.5 O050500600039 575. 1. 48.1 4.9 O050500600040 777. 1. 47.1 4.9 O050500600041 962. 2. 43.6 4.5 O050500600042 1360. 2. 38.8 4. O050500600043 1600. 20. 73.7 7.7 O050500600044 2570. 2. 53.6 6.2 O050500600045 ENDDATA 20 0 O050500600046 ENDSUBENT 45 0 O050500699999 SUBENT O0505007 19991117 0000O050500700001 BIB 7 19 O050500700002 REACTION (37-RB-0(P,X)37-RB-84-G,IND/M+,SIG) O050500700003 RAD-DET (37-RB-84-G,DG) O050500700004 DECAY-DATA (37-RB-84-G,32.87D,DG,881.6,0.678, O050500700005 DG,1897.,0.0074) O050500700006 SAMPLE Rubidium Targets were Prepared by Sawing a 90 Degrees O050500700007 Section of a Cylindrical Rb-Mn-F/3 Cristall with a O050500700008 Diameter of 25 mm. O050500700009 Typical Rb Target Shape was Thus a 90 Degrees Section O050500700010 Of a Disk with a Diameter of 25 mm with a Thickness of O050500700011 About 0.5 mm and a Weight of About 0.300 Gramm. O050500700012 The Rb Target Used For Irradiation at 1600 MeV was an O050500700013 About 2 mm Thick Pill with a Diameter of 15 mm. It was O050500700014 Made by Compacting Rb/2-S-O/4 Powder. O050500700015 METHOD (GSPEC) O050500700016 (MOMIX) O050500700017 ANALYSIS (AREA) O050500700018 (DECAY) O050500700019 DETECTOR (GELI) O050500700020 (HPGE) O050500700021 ENDBIB 19 0 O050500700022 NOCOMMON 0 0 O050500700023 DATA 4 18 O050500700024 EN EN-ERR DATA ERR-T O050500700025 MEV MEV MB MB O050500700026 56.2 1.6 183. 20. O050500700027 81.6 1.6 132. 14. O050500700028 89. 1.4 126. 13. O050500700029 99.9 1.2 119. 12. O050500700030 108. 1. 113. 11. O050500700031 112. 2. 111. 11. O050500700032 124. 1. 104. 11. O050500700033 130. 1. 99.6 10.2 O050500700034 142. 2. 95.5 9.7 O050500700035 168. 1. 84.5 8.6 O050500700036 293. 1. 68.3 7. O050500700037 368. 1. 69.5 7. O050500700038 575. 1. 62.7 6.5 O050500700039 777. 1. 64.3 6.7 O050500700040 962. 2. 59.3 6. O050500700041 1360. 2. 55.3 5.7 O050500700042 1600. 20. 73.2 8.6 O050500700043 2570. 2. 79. 8.9 O050500700044 ENDDATA 20 0 O050500700045 ENDSUBENT 44 0 O050500799999 SUBENT O0505008 19991117 0000O050500800001 BIB 7 18 O050500800002 REACTION (37-RB-0(P,X)37-RB-86-G,IND/M+,SIG) O050500800003 RAD-DET (37-RB-86-G,DG) O050500800004 DECAY-DATA (37-RB-86-G,18.66D,DG,1076.6,0.0878) O050500800005 SAMPLE Rubidium Targets were Prepared by Sawing a 90 Degrees O050500800006 Section of a Cylindrical Rb-Mn-F/3 Cristall with a O050500800007 Diameter of 25 mm. O050500800008 Typical Rb Target Shape was Thus a 90 Degrees Section O050500800009 Of a Disk with a Diameter of 25 mm with a Thickness of O050500800010 About 0.5 mm and a Weight of About 0.300 Gramm. O050500800011 The Rb Target Used For Irradiation at 1600 MeV was an O050500800012 About 2 mm Thick Pill with a Diameter of 15 mm. It was O050500800013 Made by Compacting Rb/2-S-O/4 Powder. O050500800014 METHOD (GSPEC) O050500800015 (MOMIX) O050500800016 ANALYSIS (AREA) O050500800017 (DECAY) O050500800018 DETECTOR (GELI) O050500800019 (HPGE) O050500800020 ENDBIB 18 0 O050500800021 NOCOMMON 0 0 O050500800022 DATA 4 17 O050500800023 EN EN-ERR DATA ERR-T O050500800024 MEV MEV MB MB O050500800025 56.2 1.6 48. 5.3 O050500800026 81.6 1.6 37.7 3.9 O050500800027 89. 1.4 36. 3.7 O050500800028 99.9 1.2 33.3 3.4 O050500800029 108. 1. 32.2 3.3 O050500800030 112. 2. 32.3 3.3 O050500800031 124. 1. 29.1 3.1 O050500800032 130. 1. 28.6 3. O050500800033 142. 2. 28.4 2.9 O050500800034 168. 1. 25. 2.6 O050500800035 293. 1. 21.3 2.3 O050500800036 368. 1. 21.9 2.3 O050500800037 575. 1. 20.1 2.1 O050500800038 777. 1. 21.8 2.3 O050500800039 962. 2. 20.2 2.2 O050500800040 1360. 2. 19.1 2. O050500800041 2570. 2. 27.6 3.5 O050500800042 ENDDATA 19 0 O050500800043 ENDSUBENT 42 0 O050500899999 SUBENT O0505009 19991117 0000O050500900001 BIB 7 20 O050500900002 REACTION (37-RB-0(P,X)35-BR-77-G,CUM,SIG) O050500900003 RAD-DET (35-BR-77-G,DG) O050500900004 DECAY-DATA (35-BR-77-G,2.38D,DG,239.1,0.239, O050500900005 DG,249.8,0.155, O050500900006 DG,297.2,0.043) O050500900007 SAMPLE Rubidium Targets were Prepared by Sawing a 90 Degrees O050500900008 Section of a Cylindrical Rb-Mn-F/3 Cristall with a O050500900009 Diameter of 25 mm. O050500900010 Typical Rb Target Shape was Thus a 90 Degrees Section O050500900011 Of a Disk with a Diameter of 25 mm with a Thickness of O050500900012 About 0.5 mm and a Weight of About 0.300 Gramm. O050500900013 The Rb Target Used For Irradiation at 1600 MeV was an O050500900014 About 2 mm Thick Pill with a Diameter of 15 mm. It was O050500900015 Made by Compacting Rb/2-S-O/4 Powder. O050500900016 METHOD (GSPEC) O050500900017 (MOMIX) O050500900018 ANALYSIS (AREA) O050500900019 (DECAY) O050500900020 DETECTOR (GELI) O050500900021 (HPGE) O050500900022 ENDBIB 20 0 O050500900023 NOCOMMON 0 0 O050500900024 DATA 4 15 O050500900025 EN EN-ERR DATA ERR-T O050500900026 MEV MEV MB MB O050500900027 56.2 1.6 14. 1.5 O050500900028 81.6 1.6 19.5 2. O050500900029 89. 1.4 17.7 1.8 O050500900030 108. 1. 19.6 2. O050500900031 112. 2. 23.3 2.4 O050500900032 124. 1. 25.4 2.7 O050500900033 130. 1. 26.9 2.8 O050500900034 142. 2. 29.3 3. O050500900035 168. 1. 34. 3.5 O050500900036 293. 1. 35.5 3.7 O050500900037 368. 1. 29.7 3.1 O050500900038 575. 1. 28.9 3.1 O050500900039 777. 1. 25.7 2.7 O050500900040 962. 2. 20.1 2.1 O050500900041 1600. 20. 22. 2.7 O050500900042 ENDDATA 17 0 O050500900043 ENDSUBENT 42 0 O050500999999 SUBENT O0505010 19991117 0000O050501000001 BIB 7 19 O050501000002 REACTION (37-RB-0(P,X)36-KR-76,CUM,SIG) O050501000003 RAD-DET (36-KR-76,DG) O050501000004 DECAY-DATA (36-KR-76,14.8HR,DG,270.2,0.210, O050501000005 DG,315.7,0.400) O050501000006 SAMPLE Rubidium Targets were Prepared by Sawing a 90 Degrees O050501000007 Section of a Cylindrical Rb-Mn-F/3 Cristall with a O050501000008 Diameter of 25 mm. O050501000009 Typical Rb Target Shape was Thus a 90 Degrees Section O050501000010 Of a Disk with a Diameter of 25 mm with a Thickness of O050501000011 About 0.5 mm and a Weight of About 0.300 Gramm. O050501000012 The Rb Target Used For Irradiation at 1600 MeV was an O050501000013 About 2 mm Thick Pill with a Diameter of 15 mm. It was O050501000014 Made by Compacting Rb/2-S-O/4 Powder. O050501000015 METHOD (GSPEC) O050501000016 (MOMIX) O050501000017 ANALYSIS (AREA) O050501000018 (DECAY) O050501000019 DETECTOR (GELI) O050501000020 (HPGE) O050501000021 ENDBIB 19 0 O050501000022 NOCOMMON 0 0 O050501000023 DATA 4 9 O050501000024 EN EN-ERR DATA ERR-T O050501000025 MEV MEV MB MB O050501000026 89. 1.4 0.521 0.099 O050501000027 99.9 1.2 0.938 0.156 O050501000028 108. 1. 1. 0.13 O050501000029 112. 2. 1.07 0.19 O050501000030 142. 2. 1.47 0.22 O050501000031 168. 1. 1.8 0.24 O050501000032 293. 1. 2.59 0.34 O050501000033 575. 1. 1.8 0.4 O050501000034 962. 2. 1.61 0.26 O050501000035 ENDDATA 11 0 O050501000036 ENDSUBENT 35 0 O050501099999 SUBENT O0505011 19991117 0000O050501100001 BIB 7 22 O050501100002 REACTION (37-RB-0(P,X)36-KR-79-G,CUM,SIG) O050501100003 RAD-DET (36-KR-79-G,DG) O050501100004 DECAY-DATA (36-KR-79-G,1.46D,DG,217.1,0.024, O050501100005 DG,261.3,0.127, O050501100006 DG,306.3,0.026, O050501100007 DG,397.6,0.095, O050501100008 DG,606.1,0.081) O050501100009 SAMPLE Rubidium Targets were Prepared by Sawing a 90 Degrees O050501100010 Section of a Cylindrical Rb-Mn-F/3 Cristall with a O050501100011 Diameter of 25 mm. O050501100012 Typical Rb Target Shape was Thus a 90 Degrees Section O050501100013 Of a Disk with a Diameter of 25 mm with a Thickness of O050501100014 About 0.5 mm and a Weight of About 0.300 Gramm. O050501100015 The Rb Target Used For Irradiation at 1600 MeV was an O050501100016 About 2 mm Thick Pill with a Diameter of 15 mm. It was O050501100017 Made by Compacting Rb/2-S-O/4 Powder. O050501100018 METHOD (GSPEC) O050501100019 (MOMIX) O050501100020 ANALYSIS (AREA) O050501100021 (DECAY) O050501100022 DETECTOR (GELI) O050501100023 (HPGE) O050501100024 ENDBIB 22 0 O050501100025 NOCOMMON 0 0 O050501100026 DATA 4 17 O050501100027 EN EN-ERR DATA ERR-T O050501100028 MEV MEV MB MB O050501100029 56.2 1.6 29.3 3.4 O050501100030 81.6 1.6 18.9 2. O050501100031 89. 1.4 34.9 3.6 O050501100032 99.9 1.2 44.2 4.5 O050501100033 108. 1. 47.1 4.8 O050501100034 112. 2. 46.2 4.7 O050501100035 124. 1. 48.1 5.2 O050501100036 130. 1. 49.8 5.3 O050501100037 142. 2. 47.1 4.9 O050501100038 168. 1. 43.8 4.5 O050501100039 293. 1. 39.7 4.1 O050501100040 368. 1. 37.7 3.9 O050501100041 575. 1. 28.5 3. O050501100042 777. 1. 26.8 2.9 O050501100043 962. 2. 23.5 2.7 O050501100044 1360. 2. 19. 2.72 O050501100045 2570. 2. 21.6 2.7 O050501100046 ENDDATA 19 0 O050501100047 ENDSUBENT 46 0 O050501199999 SUBENT O0505012 19991117 0000O050501200001 BIB 7 18 O050501200002 REACTION (37-RB-0(P,X)35-BR-82-G,IND/M+,SIG) O050501200003 RAD-DET (35-BR-82-G,DG) O050501200004 DECAY-DATA (35-BR-82-G,1.47D,DG,554.3,0.706) O050501200005 SAMPLE Rubidium Targets were Prepared by Sawing a 90 Degrees O050501200006 Section of a Cylindrical Rb-Mn-F/3 Cristall with a O050501200007 Diameter of 25 mm. O050501200008 Typical Rb Target Shape was Thus a 90 Degrees Section O050501200009 Of a Disk with a Diameter of 25 mm with a Thickness of O050501200010 About 0.5 mm and a Weight of About 0.300 Gramm. O050501200011 The Rb Target Used For Irradiation at 1600 MeV was an O050501200012 About 2 mm Thick Pill with a Diameter of 15 mm. It was O050501200013 Made by Compacting Rb/2-S-O/4 Powder. O050501200014 METHOD (GSPEC) O050501200015 (MOMIX) O050501200016 ANALYSIS (AREA) O050501200017 (DECAY) O050501200018 DETECTOR (GELI) O050501200019 (HPGE) O050501200020 ENDBIB 18 0 O050501200021 NOCOMMON 0 0 O050501200022 DATA 4 7 O050501200023 EN EN-ERR DATA ERR-T O050501200024 MEV MEV MB MB O050501200025 293. 1. 3.87 0.41 O050501200026 368. 1. 4.39 0.46 O050501200027 575. 1. 4.97 0.54 O050501200028 777. 1. 5.38 0.58 O050501200029 1360. 2. 5.56 0.61 O050501200030 1600. 20. 4.63 0.52 O050501200031 2570. 2. 7.16 0.09 O050501200032 ENDDATA 9 0 O050501200033 ENDSUBENT 32 0 O050501299999 SUBENT O0505013 19991117 0000O050501300001 BIB 7 23 O050501300002 REACTION (37-RB-0(P,X)34-SE-72,CUM,SIG) O050501300003 RAD-DET (34-SE-72,DG) O050501300004 (33-AS-72,DG) In Equilibrium with Se-72. O050501300005 DECAY-DATA (34-SE-72,8.4D,DG,45.9,0.571, O050501300006 DG,630.1,0.091, O050501300007 DG,1050.7,0.0113, O050501300008 DG,1464.9,0.0127) O050501300009 630.1, 1050.7, 1464.9-KeV Quanta are Radiated by As-72.O050501300010 SAMPLE Rubidium Targets were Prepared by Sawing a 90 Degrees O050501300011 Section of a Cylindrical Rb-Mn-F/3 Cristall with a O050501300012 Diameter of 25 mm. O050501300013 Typical Rb Target Shape was Thus a 90 Degrees Section O050501300014 Of a Disk with a Diameter of 25 mm with a Thickness of O050501300015 About 0.5 mm and a Weight of About 0.300 Gramm. O050501300016 The Rb Target Used For Irradiation at 1600 MeV was an O050501300017 About 2 mm Thick Pill with a Diameter of 15 mm. It was O050501300018 Made by Compacting Rb/2-S-O/4 Powder. O050501300019 METHOD (GSPEC) O050501300020 (MOMIX) O050501300021 ANALYSIS (AREA) O050501300022 (DECAY) O050501300023 DETECTOR (GELI) O050501300024 (HPGE) O050501300025 ENDBIB 23 0 O050501300026 NOCOMMON 0 0 O050501300027 DATA 4 11 O050501300028 EN EN-ERR DATA ERR-T O050501300029 MEV MEV MB MB O050501300030 112. 2. 0.27 0.032 O050501300031 130. 1. 0.358 0.04 O050501300032 142. 2. 0.693 0.087 O050501300033 168. 1. 1.38 0.15 O050501300034 293. 1. 4.55 0.47 O050501300035 368. 1. 5.31 0.56 O050501300036 575. 1. 5.83 0.68 O050501300037 777. 1. 6.32 0.66 O050501300038 962. 2. 5.87 0.61 O050501300039 1360. 2. 5.04 0.52 O050501300040 2570. 2. 3.69 0.45 O050501300041 ENDDATA 13 0 O050501300042 ENDSUBENT 41 0 O050501399999 SUBENT O0505014 19991117 0000O050501400001 BIB 7 19 O050501400002 REACTION (37-RB-0(P,X)34-SE-73-G,CUM,SIG) O050501400003 RAD-DET (34-SE-73-G,DG) O050501400004 DECAY-DATA (34-SE-73-G,7.15HR,DG,67.1,0.700, O050501400005 DG,361.2,0.970) O050501400006 SAMPLE Rubidium Targets were Prepared by Sawing a 90 Degrees O050501400007 Section of a Cylindrical Rb-Mn-F/3 Cristall with a O050501400008 Diameter of 25 mm. O050501400009 Typical Rb Target Shape was Thus a 90 Degrees Section O050501400010 Of a Disk with a Diameter of 25 mm with a Thickness of O050501400011 About 0.5 mm and a Weight of About 0.300 Gramm. O050501400012 The Rb Target Used For Irradiation at 1600 MeV was an O050501400013 About 2 mm Thick Pill with a Diameter of 15 mm. It was O050501400014 Made by Compacting Rb/2-S-O/4 Powder. O050501400015 METHOD (GSPEC) O050501400016 (MOMIX) O050501400017 ANALYSIS (AREA) O050501400018 (DECAY) O050501400019 DETECTOR (GELI) O050501400020 (HPGE) O050501400021 ENDBIB 19 0 O050501400022 NOCOMMON 0 0 O050501400023 DATA 4 10 O050501400024 EN EN-ERR DATA ERR-T O050501400025 MEV MEV MB MB O050501400026 108. 1. 9.84 0.156 O050501400027 112. 2. 1.02 0.19 O050501400028 124. 1. 1.19 0.29 O050501400029 142. 2. 2.73 0.36 O050501400030 168. 1. 4.22 0.53 O050501400031 293. 1. 9.74 1.18 O050501400032 575. 1. 12.8 1.8 O050501400033 962. 2. 12.4 1.4 O050501400034 1360. 2. 13.2 2.3 O050501400035 2570. 2. 8.39 1.12 O050501400036 ENDDATA 12 0 O050501400037 ENDSUBENT 36 0 O050501499999 SUBENT O0505015 19991117 0000O050501500001 BIB 7 21 O050501500002 REACTION (37-RB-0(P,X)34-SE-75,CUM,SIG) O050501500003 RAD-DET (34-SE-75,DG) O050501500004 DECAY-DATA (34-SE-75,119.8D,DG,121.1,0.173, O050501500005 DG,136.1,0.590, O050501500006 DG,264.6,0.591, O050501500007 DG,279.5,0.252) O050501500008 SAMPLE Rubidium Targets were Prepared by Sawing a 90 Degrees O050501500009 Section of a Cylindrical Rb-Mn-F/3 Cristall with a O050501500010 Diameter of 25 mm. O050501500011 Typical Rb Target Shape was Thus a 90 Degrees Section O050501500012 Of a Disk with a Diameter of 25 mm with a Thickness of O050501500013 About 0.5 mm and a Weight of About 0.300 Gramm. O050501500014 The Rb Target Used For Irradiation at 1600 MeV was an O050501500015 About 2 mm Thick Pill with a Diameter of 15 mm. It was O050501500016 Made by Compacting Rb/2-S-O/4 Powder. O050501500017 METHOD (GSPEC) O050501500018 (MOMIX) O050501500019 ANALYSIS (AREA) O050501500020 (DECAY) O050501500021 DETECTOR (GELI) O050501500022 (HPGE) O050501500023 ENDBIB 21 0 O050501500024 NOCOMMON 0 0 O050501500025 DATA 4 17 O050501500026 EN EN-ERR DATA ERR-T O050501500027 MEV MEV MB MB O050501500028 81.6 1.6 2.3 0.24 O050501500029 89. 1.4 2.12 0.22 O050501500030 99.9 1.2 4.29 0.43 O050501500031 108. 1. 8.66 0.89 O050501500032 112. 2. 11.4 1.2 O050501500033 124. 1. 14.9 1.5 O050501500034 130. 1. 16.4 1.7 O050501500035 142. 2. 17.7 1.8 O050501500036 168. 1. 21.9 2.2 O050501500037 293. 1. 34.5 3.6 O050501500038 368. 1. 39.8 4.1 O050501500039 575. 1. 37.5 3.8 O050501500040 777. 1. 37.6 3.9 O050501500041 962. 2. 32.4 3.3 O050501500042 1360. 2. 26. 2.7 O050501500043 1600. 20. 42. 4.3 O050501500044 2570. 2. 29.1 3.4 O050501500045 ENDDATA 19 0 O050501500046 ENDSUBENT 45 0 O050501599999 SUBENT O0505016 19991117 0000O050501600001 BIB 7 19 O050501600002 REACTION (37-RB-0(P,X)33-AS-71,CUM,SIG) O050501600003 RAD-DET (33-AS-71,DG) O050501600004 DECAY-DATA (33-AS-71,2.7D,DG,174.9,0.831, O050501600005 DG,1095.7,0.042) O050501600006 SAMPLE Rubidium Targets were Prepared by Sawing a 90 Degrees O050501600007 Section of a Cylindrical Rb-Mn-F/3 Cristall with a O050501600008 Diameter of 25 mm. O050501600009 Typical Rb Target Shape was Thus a 90 Degrees Section O050501600010 Of a Disk with a Diameter of 25 mm with a Thickness of O050501600011 About 0.5 mm and a Weight of About 0.300 Gramm. O050501600012 The Rb Target Used For Irradiation at 1600 MeV was an O050501600013 About 2 mm Thick Pill with a Diameter of 15 mm. It was O050501600014 Made by Compacting Rb/2-S-O/4 Powder. O050501600015 METHOD (GSPEC) O050501600016 (MOMIX) O050501600017 ANALYSIS (AREA) O050501600018 (DECAY) O050501600019 DETECTOR (GELI) O050501600020 (HPGE) O050501600021 ENDBIB 19 0 O050501600022 NOCOMMON 0 0 O050501600023 DATA 4 11 O050501600024 EN EN-ERR DATA ERR-T O050501600025 MEV MEV MB MB O050501600026 124. 1. 0.703 0.08 O050501600027 130. 1. 1.1 0.12 O050501600028 142. 2. 1.51 0.16 O050501600029 168. 1. 2.6 0.27 O050501600030 293. 1. 9.84 1.03 O050501600031 368. 1. 13.3 1.4 O050501600032 575. 1. 16.9 1.7 O050501600033 777. 1. 18.9 2. O050501600034 962. 2. 17.1 1.8 O050501600035 1360. 2. 14. 1.5 O050501600036 2570. 2. 14.1 1.7 O050501600037 ENDDATA 13 0 O050501600038 ENDSUBENT 37 0 O050501699999 SUBENT O0505017 19991117 0000O050501700001 BIB 7 19 O050501700002 REACTION (37-RB-0(P,X)33-AS-72,CUM,SIG) O050501700003 RAD-DET (33-AS-72,DG) O050501700004 DECAY-DATA (33-AS-72,1.08D,DG,630.1,0.0792, O050501700005 DG,1464.0,0.0111) O050501700006 SAMPLE Rubidium Targets were Prepared by Sawing a 90 Degrees O050501700007 Section of a Cylindrical Rb-Mn-F/3 Cristall with a O050501700008 Diameter of 25 mm. O050501700009 Typical Rb Target Shape was Thus a 90 Degrees Section O050501700010 Of a Disk with a Diameter of 25 mm with a Thickness of O050501700011 About 0.5 mm and a Weight of About 0.300 Gramm. O050501700012 The Rb Target Used For Irradiation at 1600 MeV was an O050501700013 About 2 mm Thick Pill with a Diameter of 15 mm. It was O050501700014 Made by Compacting Rb/2-S-O/4 Powder. O050501700015 METHOD (GSPEC) O050501700016 (MOMIX) O050501700017 ANALYSIS (AREA) O050501700018 (DECAY) O050501700019 DETECTOR (GELI) O050501700020 (HPGE) O050501700021 ENDBIB 19 0 O050501700022 NOCOMMON 0 0 O050501700023 DATA 4 4 O050501700024 EN EN-ERR DATA ERR-T O050501700025 MEV MEV MB MB O050501700026 142. 2. 2.86 0.43 O050501700027 168. 1. 5.34 0.78 O050501700028 962. 2. 25.7 2.8 O050501700029 1360. 2. 20.6 2.5 O050501700030 ENDDATA 6 0 O050501700031 ENDSUBENT 30 0 O050501799999 SUBENT O0505018 19991117 0000O050501800001 BIB 7 18 O050501800002 REACTION (37-RB-0(P,X)33-AS-73,CUM,SIG) O050501800003 RAD-DET (33-AS-73,DG) O050501800004 DECAY-DATA (33-AS-73,80.3D,DG,53.4,0.103) O050501800005 SAMPLE Rubidium Targets were Prepared by Sawing a 90 Degrees O050501800006 Section of a Cylindrical Rb-Mn-F/3 Cristall with a O050501800007 Diameter of 25 mm. O050501800008 Typical Rb Target Shape was Thus a 90 Degrees Section O050501800009 Of a Disk with a Diameter of 25 mm with a Thickness of O050501800010 About 0.5 mm and a Weight of About 0.300 Gramm. O050501800011 The Rb Target Used For Irradiation at 1600 MeV was an O050501800012 About 2 mm Thick Pill with a Diameter of 15 mm. It was O050501800013 Made by Compacting Rb/2-S-O/4 Powder. O050501800014 METHOD (GSPEC) O050501800015 (MOMIX) O050501800016 ANALYSIS (AREA) O050501800017 (DECAY) O050501800018 DETECTOR (GELI) O050501800019 (HPGE) O050501800020 ENDBIB 18 0 O050501800021 NOCOMMON 0 0 O050501800022 DATA 4 14 O050501800023 EN EN-ERR DATA ERR-T O050501800024 MEV MEV MB MB O050501800025 89. 1.4 0.679 0.104 O050501800026 99.9 1.2 2.44 0.27 O050501800027 108. 1. 3.58 0.37 O050501800028 112. 2. 4.52 0.56 O050501800029 130. 1. 5.61 0.6 O050501800030 142. 2. 7.8 0.81 O050501800031 168. 1. 12.4 1.3 O050501800032 293. 1. 30.6 3.2 O050501800033 368. 1. 36.1 3.8 O050501800034 575. 1. 39.1 4. O050501800035 777. 1. 40.6 4.2 O050501800036 962. 2. 38.8 4. O050501800037 1360. 2. 33.2 3.4 O050501800038 2570. 2. 28.4 3.4 O050501800039 ENDDATA 16 0 O050501800040 ENDSUBENT 39 0 O050501899999 SUBENT O0505019 19991117 0000O050501900001 BIB 7 19 O050501900002 REACTION (37-RB-0(P,X)33-AS-74,IND,SIG) O050501900003 RAD-DET (33-AS-74,DG) O050501900004 DECAY-DATA (33-AS-74,17.78D,DG,595.8,0.603, O050501900005 DG,634.8,0.151) O050501900006 SAMPLE Rubidium Targets were Prepared by Sawing a 90 Degrees O050501900007 Section of a Cylindrical Rb-Mn-F/3 Cristall with a O050501900008 Diameter of 25 mm. O050501900009 Typical Rb Target Shape was Thus a 90 Degrees Section O050501900010 Of a Disk with a Diameter of 25 mm with a Thickness of O050501900011 About 0.5 mm and a Weight of About 0.300 Gramm. O050501900012 The Rb Target Used For Irradiation at 1600 MeV was an O050501900013 About 2 mm Thick Pill with a Diameter of 15 mm. It was O050501900014 Made by Compacting Rb/2-S-O/4 Powder. O050501900015 METHOD (GSPEC) O050501900016 (MOMIX) O050501900017 ANALYSIS (AREA) O050501900018 (DECAY) O050501900019 DETECTOR (GELI) O050501900020 (HPGE) O050501900021 ENDBIB 19 0 O050501900022 NOCOMMON 0 0 O050501900023 DATA 4 16 O050501900024 EN EN-ERR DATA ERR-T O050501900025 MEV MEV MB MB O050501900026 81.6 1.6 0.374 0.054 O050501900027 89. 1.4 1.14 0.12 O050501900028 99.9 1.2 1.34 0.14 O050501900029 108. 1. 1.5 0.16 O050501900030 112. 2. 1.61 0.17 O050501900031 124. 1. 2.18 0.23 O050501900032 130. 1. 2.71 0.28 O050501900033 142. 2. 3.3 0.34 O050501900034 168. 1. 4.51 0.47 O050501900035 293. 1. 9.38 0.98 O050501900036 368. 1. 12.1 1.2 O050501900037 575. 1. 13.6 1.4 O050501900038 777. 1. 14.7 1.5 O050501900039 962. 2. 13.2 1.4 O050501900040 1360. 2. 10.9 1.1 O050501900041 2570. 2. 12.5 1.4 O050501900042 ENDDATA 18 0 O050501900043 ENDSUBENT 42 0 O050501999999 SUBENT O0505020 19991117 0000O050502000001 BIB 7 19 O050502000002 REACTION (37-RB-0(P,X)32-GE-69,CUM,SIG) O050502000003 RAD-DET (32-GE-69,DG) O050502000004 DECAY-DATA (32-GE-69,1.63D,DG,1106.8,0.360, O050502000005 DG,1336.6,0.045) O050502000006 SAMPLE Rubidium Targets were Prepared by Sawing a 90 Degrees O050502000007 Section of a Cylindrical Rb-Mn-F/3 Cristall with a O050502000008 Diameter of 25 mm. O050502000009 Typical Rb Target Shape was Thus a 90 Degrees Section O050502000010 Of a Disk with a Diameter of 25 mm with a Thickness of O050502000011 About 0.5 mm and a Weight of About 0.300 Gramm. O050502000012 The Rb Target Used For Irradiation at 1600 MeV was an O050502000013 About 2 mm Thick Pill with a Diameter of 15 mm. It was O050502000014 Made by Compacting Rb/2-S-O/4 Powder. O050502000015 METHOD (GSPEC) O050502000016 (MOMIX) O050502000017 ANALYSIS (AREA) O050502000018 (DECAY) O050502000019 DETECTOR (GELI) O050502000020 (HPGE) O050502000021 ENDBIB 19 0 O050502000022 NOCOMMON 0 0 O050502000023 DATA 4 8 O050502000024 EN EN-ERR DATA ERR-T O050502000025 MEV MEV MB MB O050502000026 168. 1. 0.858 0.11 O050502000027 293. 1. 5.11 0.55 O050502000028 368. 1. 8.07 0.83 O050502000029 575. 1. 13. 1.4 O050502000030 777. 1. 15.4 1.7 O050502000031 962. 2. 13.7 1.6 O050502000032 1360. 2. 12.2 1.4 O050502000033 2570. 2. 12.4 1.7 O050502000034 ENDDATA 10 0 O050502000035 ENDSUBENT 34 0 O050502099999 SUBENT O0505021 19991117 0000O050502100001 BIB 7 19 O050502100002 REACTION (37-RB-0(P,X)31-GA-67,CUM,SIG) O050502100003 RAD-DET (31-GA-67,DG) O050502100004 DECAY-DATA (31-GA-67,3.26D,DG,93.3,0.370, O050502100005 DG,184.6,0.204) O050502100006 SAMPLE Rubidium Targets were Prepared by Sawing a 90 Degrees O050502100007 Section of a Cylindrical Rb-Mn-F/3 Cristall with a O050502100008 Diameter of 25 mm. O050502100009 Typical Rb Target Shape was Thus a 90 Degrees Section O050502100010 Of a Disk with a Diameter of 25 mm with a Thickness of O050502100011 About 0.5 mm and a Weight of About 0.300 Gramm. O050502100012 The Rb Target Used For Irradiation at 1600 MeV was an O050502100013 About 2 mm Thick Pill with a Diameter of 15 mm. It was O050502100014 Made by Compacting Rb/2-S-O/4 Powder. O050502100015 METHOD (GSPEC) O050502100016 (MOMIX) O050502100017 ANALYSIS (AREA) O050502100018 (DECAY) O050502100019 DETECTOR (GELI) O050502100020 (HPGE) O050502100021 ENDBIB 19 0 O050502100022 NOCOMMON 0 0 O050502100023 DATA 4 7 O050502100024 EN EN-ERR DATA ERR-T O050502100025 MEV MEV MB MB O050502100026 168. 1. 0.441 0.077 O050502100027 293. 1. 4.65 0.68 O050502100028 368. 1. 8.21 0.95 O050502100029 575. 1. 14.9 1.6 O050502100030 777. 1. 21.1 2.4 O050502100031 962. 2. 20.4 2.4 O050502100032 1360. 2. 19.2 2. O050502100033 ENDDATA 9 0 O050502100034 ENDSUBENT 33 0 O050502199999 SUBENT O0505022 19991117 0000O050502200001 BIB 7 18 O050502200002 REACTION (37-RB-0(P,X)30-ZN-65,CUM,SIG) O050502200003 RAD-DET (30-ZN-65,DG) O050502200004 DECAY-DATA (30-ZN-65,244.1D,DG,1115.5,0.507) O050502200005 SAMPLE Rubidium Targets were Prepared by Sawing a 90 Degrees O050502200006 Section of a Cylindrical Rb-Mn-F/3 Cristall with a O050502200007 Diameter of 25 mm. O050502200008 Typical Rb Target Shape was Thus a 90 Degrees Section O050502200009 Of a Disk with a Diameter of 25 mm with a Thickness of O050502200010 About 0.5 mm and a Weight of About 0.300 Gramm. O050502200011 The Rb Target Used For Irradiation at 1600 MeV was an O050502200012 About 2 mm Thick Pill with a Diameter of 15 mm. It was O050502200013 Made by Compacting Rb/2-S-O/4 Powder. O050502200014 METHOD (GSPEC) O050502200015 (MOMIX) O050502200016 ANALYSIS (AREA) O050502200017 (DECAY) O050502200018 DETECTOR (GELI) O050502200019 (HPGE) O050502200020 ENDBIB 18 0 O050502200021 NOCOMMON 0 0 O050502200022 DATA 4 10 O050502200023 EN EN-ERR DATA ERR-T O050502200024 MEV MEV MB MB O050502200025 130. 1. 0.035 0.008 O050502200026 168. 1. 0.192 0.03 O050502200027 293. 1. 3.11 0.37 O050502200028 368. 1. 6.15 0.65 O050502200029 575. 1. 13.3 1.4 O050502200030 777. 1. 19.8 2.1 O050502200031 962. 2. 21.4 2.2 O050502200032 1360. 2. 19.6 2.1 O050502200033 1600. 20. 27.3 3. O050502200034 2570. 2. 22.1 2.6 O050502200035 ENDDATA 12 0 O050502200036 ENDSUBENT 35 0 O050502299999 SUBENT O0505023 19991117 0000O050502300001 BIB 7 20 O050502300002 REACTION (37-RB-0(P,X)27-CO-56,CUM,SIG) O050502300003 RAD-DET (27-CO-56,DG) O050502300004 DECAY-DATA (27-CO-56,78.8D,DG,846.8,0.999, O050502300005 DG,1283.3,0.670, O050502300006 DG,1771.4,0.155) O050502300007 SAMPLE Rubidium Targets were Prepared by Sawing a 90 Degrees O050502300008 Section of a Cylindrical Rb-Mn-F/3 Cristall with a O050502300009 Diameter of 25 mm. O050502300010 Typical Rb Target Shape was Thus a 90 Degrees Section O050502300011 Of a Disk with a Diameter of 25 mm with a Thickness of O050502300012 About 0.5 mm and a Weight of About 0.300 Gramm. O050502300013 The Rb Target Used For Irradiation at 1600 MeV was an O050502300014 About 2 mm Thick Pill with a Diameter of 15 mm. It was O050502300015 Made by Compacting Rb/2-S-O/4 Powder. O050502300016 METHOD (GSPEC) O050502300017 (MOMIX) O050502300018 ANALYSIS (AREA) O050502300019 (DECAY) O050502300020 DETECTOR (GELI) O050502300021 (HPGE) O050502300022 ENDBIB 20 0 O050502300023 NOCOMMON 0 0 O050502300024 DATA 4 7 O050502300025 EN EN-ERR DATA ERR-T O050502300026 MEV MEV MB MB O050502300027 368. 1. 0.097 0.021 O050502300028 575. 1. 0.457 0.053 O050502300029 777. 1. 1.23 0.13 O050502300030 962. 2. 1.82 0.2 O050502300031 1360. 2. 2.35 0.25 O050502300032 1600. 20. 3.84 0.4 O050502300033 2570. 2. 3.23 0.39 O050502300034 ENDDATA 9 0 O050502300035 ENDSUBENT 34 0 O050502399999 SUBENT O0505024 19991117 0000O050502400001 BIB 7 19 O050502400002 REACTION (37-RB-0(P,X)27-CO-57,CUM,SIG) O050502400003 RAD-DET (27-CO-57,DG) O050502400004 DECAY-DATA (27-CO-57,271.8D,DG,122.1,0.856, O050502400005 DG,136.0,0.106) O050502400006 SAMPLE Rubidium Targets were Prepared by Sawing a 90 Degrees O050502400007 Section of a Cylindrical Rb-Mn-F/3 Cristall with a O050502400008 Diameter of 25 mm. O050502400009 Typical Rb Target Shape was Thus a 90 Degrees Section O050502400010 Of a Disk with a Diameter of 25 mm with a Thickness of O050502400011 About 0.5 mm and a Weight of About 0.300 Gramm. O050502400012 The Rb Target Used For Irradiation at 1600 MeV was an O050502400013 About 2 mm Thick Pill with a Diameter of 15 mm. It was O050502400014 Made by Compacting Rb/2-S-O/4 Powder. O050502400015 METHOD (GSPEC) O050502400016 (MOMIX) O050502400017 ANALYSIS (AREA) O050502400018 (DECAY) O050502400019 DETECTOR (GELI) O050502400020 (HPGE) O050502400021 ENDBIB 19 0 O050502400022 NOCOMMON 0 0 O050502400023 DATA 4 5 O050502400024 EN EN-ERR DATA ERR-T O050502400025 MEV MEV MB MB O050502400026 575. 1. 2.14 0.24 O050502400027 777. 1. 4.99 0.52 O050502400028 962. 2. 7.03 0.72 O050502400029 1360. 2. 8.94 0.93 O050502400030 2570. 2. 11.6 1.3 O050502400031 ENDDATA 7 0 O050502400032 ENDSUBENT 31 0 O050502499999 SUBENT O0505025 19991117 0000O050502500001 BIB 7 18 O050502500002 REACTION (37-RB-0(P,X)27-CO-58-G,IND/M+,SIG) O050502500003 RAD-DET (27-CO-58-G,DG) O050502500004 DECAY-DATA (27-CO-58-G,70.92D,DG,810.8,0.994) O050502500005 SAMPLE Rubidium Targets were Prepared by Sawing a 90 Degrees O050502500006 Section of a Cylindrical Rb-Mn-F/3 Cristall with a O050502500007 Diameter of 25 mm. O050502500008 Typical Rb Target Shape was Thus a 90 Degrees Section O050502500009 Of a Disk with a Diameter of 25 mm with a Thickness of O050502500010 About 0.5 mm and a Weight of About 0.300 Gramm. O050502500011 The Rb Target Used For Irradiation at 1600 MeV was an O050502500012 About 2 mm Thick Pill with a Diameter of 15 mm. It was O050502500013 Made by Compacting Rb/2-S-O/4 Powder. O050502500014 METHOD (GSPEC) O050502500015 (MOMIX) O050502500016 ANALYSIS (AREA) O050502500017 (DECAY) O050502500018 DETECTOR (GELI) O050502500019 (HPGE) O050502500020 ENDBIB 18 0 O050502500021 NOCOMMON 0 0 O050502500022 DATA 4 7 O050502500023 EN EN-ERR DATA ERR-T O050502500024 MEV MEV MB MB O050502500025 368. 1. 0.799 0.09 O050502500026 575. 1. 3.41 0.35 O050502500027 777. 1. 7.61 0.79 O050502500028 962. 2. 10.2 1. O050502500029 1360. 2. 12.2 1.3 O050502500030 1600. 20. 20. 2. O050502500031 2570. 2. 15.8 1.8 O050502500032 ENDDATA 9 0 O050502500033 ENDSUBENT 32 0 O050502599999 SUBENT O0505026 19991117 0000O050502600001 BIB 7 21 O050502600002 REACTION (37-RB-0(P,X)27-CO-60-G,IND/M+,SIG) O050502600003 Co-60 Production Due to Radioactive Decay of Fe-60 is O050502600004 Negligible. O050502600005 RAD-DET (27-CO-60-G,DG) O050502600006 DECAY-DATA (27-CO-60-G,5.27YR,DG,1173.2,0.999, O050502600007 DG,1332.5,1.) O050502600008 SAMPLE Rubidium Targets were Prepared by Sawing a 90 Degrees O050502600009 Section of a Cylindrical Rb-Mn-F/3 Cristall with a O050502600010 Diameter of 25 mm. O050502600011 Typical Rb Target Shape was Thus a 90 Degrees Section O050502600012 Of a Disk with a Diameter of 25 mm with a Thickness of O050502600013 About 0.5 mm and a Weight of About 0.300 Gramm. O050502600014 The Rb Target Used For Irradiation at 1600 MeV was an O050502600015 About 2 mm Thick Pill with a Diameter of 15 mm. It was O050502600016 Made by Compacting Rb/2-S-O/4 Powder. O050502600017 METHOD (GSPEC) O050502600018 (MOMIX) O050502600019 ANALYSIS (AREA) O050502600020 (DECAY) O050502600021 DETECTOR (GELI) O050502600022 (HPGE) O050502600023 ENDBIB 21 0 O050502600024 NOCOMMON 0 0 O050502600025 DATA 4 7 O050502600026 EN EN-ERR DATA ERR-T O050502600027 MEV MEV MB MB O050502600028 293. 1. 0.288 0.052 O050502600029 368. 1. 0.333 0.066 O050502600030 575. 1. 1.76 0.2 O050502600031 777. 1. 3.65 0.41 O050502600032 962. 2. 4.64 0.54 O050502600033 1360. 2. 5.36 0.61 O050502600034 2570. 2. 6.93 0.94 O050502600035 ENDDATA 9 0 O050502600036 ENDSUBENT 35 0 O050502699999 SUBENT O0505027 19991117 0000O050502700001 BIB 7 19 O050502700002 REACTION (37-RB-0(P,X)26-FE-59,CUM,SIG) O050502700003 RAD-DET (26-FE-59,DG) O050502700004 DECAY-DATA (26-FE-59,44.5D,DG,1099.3,0.565, O050502700005 DG,1291.0,0.432) O050502700006 SAMPLE Rubidium Targets were Prepared by Sawing a 90 Degrees O050502700007 Section of a Cylindrical Rb-Mn-F/3 Cristall with a O050502700008 Diameter of 25 mm. O050502700009 Typical Rb Target Shape was Thus a 90 Degrees Section O050502700010 Of a Disk with a Diameter of 25 mm with a Thickness of O050502700011 About 0.5 mm and a Weight of About 0.300 Gramm. O050502700012 The Rb Target Used For Irradiation at 1600 MeV was an O050502700013 About 2 mm Thick Pill with a Diameter of 15 mm. It was O050502700014 Made by Compacting Rb/2-S-O/4 Powder. O050502700015 METHOD (GSPEC) O050502700016 (MOMIX) O050502700017 ANALYSIS (AREA) O050502700018 (DECAY) O050502700019 DETECTOR (GELI) O050502700020 (HPGE) O050502700021 ENDBIB 19 0 O050502700022 NOCOMMON 0 0 O050502700023 DATA 4 6 O050502700024 EN EN-ERR DATA ERR-T O050502700025 MEV MEV MB MB O050502700026 575. 1. 0.415 0.051 O050502700027 777. 1. 0.953 0.108 O050502700028 962. 2. 1.29 0.15 O050502700029 1360. 2. 1.58 0.19 O050502700030 1600. 20. 2.55 0.28 O050502700031 2570. 2. 2.19 0.29 O050502700032 ENDDATA 8 0 O050502700033 ENDSUBENT 32 0 O050502799999 SUBENT O0505028 19991117 0000O050502800001 BIB 3 11 O050502800002 REACTION (37-RB-0(P,X)36-KR-78,CUM,SIG) O050502800003 SAMPLE Rubidium Targets were Prepared by Sawing a 90 Degrees O050502800004 Section of a Cylindrical Rb-Mn-F/3 Cristall with a O050502800005 Diameter of 25 mm. O050502800006 Typical Rb Target Shape was Thus a 90 Degrees Section O050502800007 Of a Disk with a Diameter of 25 mm with a Thickness of O050502800008 About 0.5 mm and a Weight of About 0.300 Gramm. O050502800009 The Rb Target Used For Irradiation at 1600 MeV was an O050502800010 About 2 mm Thick Pill with a Diameter of 15 mm. It was O050502800011 Made by Compacting Rb/2-S-O/4 Powder. O050502800012 METHOD (AMS) O050502800013 ENDBIB 11 0 O050502800014 NOCOMMON 0 0 O050502800015 DATA 4 11 O050502800016 EN EN-ERR DATA ERR-T O050502800017 MEV MEV MB MB O050502800018 81.6 1.6 15.5 0.9 O050502800019 99.9 1.2 18.9 1. O050502800020 112. 2. 27.3 1.5 O050502800021 124. 1. 30.2 1.7 O050502800022 142. 2. 32.3 1.8 O050502800023 168. 1. 31.5 1.8 O050502800024 293. 1. 30.7 1.7 O050502800025 368. 1. 30.5 1.7 O050502800026 575. 1. 23.3 1.3 O050502800027 777. 1. 21.4 1.3 O050502800028 1600. 20. 11.4 1.2 O050502800029 ENDDATA 13 0 O050502800030 ENDSUBENT 29 0 O050502899999 SUBENT O0505029 19991117 0000O050502900001 BIB 3 11 O050502900002 REACTION (37-RB-0(P,X)36-KR-80,CUM,SIG) O050502900003 SAMPLE Rubidium Targets were Prepared by Sawing a 90 Degrees O050502900004 Section of a Cylindrical Rb-Mn-F/3 Cristall with a O050502900005 Diameter of 25 mm. O050502900006 Typical Rb Target Shape was Thus a 90 Degrees Section O050502900007 Of a Disk with a Diameter of 25 mm with a Thickness of O050502900008 About 0.5 mm and a Weight of About 0.300 Gramm. O050502900009 The Rb Target Used For Irradiation at 1600 MeV was an O050502900010 About 2 mm Thick Pill with a Diameter of 15 mm. It was O050502900011 Made by Compacting Rb/2-S-O/4 Powder. O050502900012 METHOD (AMS) O050502900013 ENDBIB 11 0 O050502900014 NOCOMMON 0 0 O050502900015 DATA 4 11 O050502900016 EN EN-ERR DATA ERR-T O050502900017 MEV MEV MB MB O050502900018 81.6 1.6 98.9 5.6 O050502900019 99.9 1.2 102. 5.6 O050502900020 112. 2. 100. 5.6 O050502900021 124. 1. 98.2 5.6 O050502900022 142. 2. 96.4 5.4 O050502900023 168. 1. 88.1 4.9 O050502900024 293. 1. 80.8 4.5 O050502900025 368. 1. 80. 4.4 O050502900026 575. 1. 64. 3.5 O050502900027 777. 1. 62. 3.7 O050502900028 1600. 20. 37.2 4.1 O050502900029 ENDDATA 13 0 O050502900030 ENDSUBENT 29 0 O050502999999 SUBENT O0505030 19991117 0000O050503000001 BIB 3 12 O050503000002 REACTION (37-RB-0(P,X)36-KR-81-G,CUM,SIG) O050503000003 SAMPLE Rubidium Targets were Prepared by Sawing a 90 Degrees O050503000004 Section of a Cylindrical Rb-Mn-F/3 Cristall with a O050503000005 Diameter of 25 mm. O050503000006 Typical Rb Target Shape was Thus a 90 Degrees Section O050503000007 Of a Disk with a Diameter of 25 mm with a Thickness of O050503000008 About 0.5 mm and a Weight of About 0.300 Gramm. O050503000009 The Rb Target Used For Irradiation at 1600 MeV was an O050503000010 About 2 mm Thick Pill with a Diameter of 15 mm. It was O050503000011 Made by Compacting Rb/2-S-O/4 Powder. O050503000012 METHOD (AMS) O050503000013 (MOMIX) O050503000014 ENDBIB 12 0 O050503000015 NOCOMMON 0 0 O050503000016 DATA 4 11 O050503000017 EN EN-ERR DATA ERR-T O050503000018 MEV MEV MB MB O050503000019 81.6 1.6 148. 8.4 O050503000020 99.9 1.2 134. 7.3 O050503000021 112. 2. 122. 6.8 O050503000022 124. 1. 115. 6.6 O050503000023 142. 2. 109. 6.1 O050503000024 168. 1. 96.1 5.4 O050503000025 293. 1. 79.6 4.5 O050503000026 368. 1. 76.6 4.2 O050503000027 575. 1. 59.5 3.3 O050503000028 777. 1. 57.4 3.4 O050503000029 1600. 20. 35.1 3.9 O050503000030 ENDDATA 13 0 O050503000031 ENDSUBENT 30 0 O050503099999 SUBENT O0505031 19991117 0000O050503100001 BIB 3 12 O050503100002 REACTION (37-RB-0(P,X)36-KR-82,CUM,SIG) O050503100003 SAMPLE Rubidium Targets were Prepared by Sawing a 90 Degrees O050503100004 Section of a Cylindrical Rb-Mn-F/3 Cristall with a O050503100005 Diameter of 25 mm. O050503100006 Typical Rb Target Shape was Thus a 90 Degrees Section O050503100007 Of a Disk with a Diameter of 25 mm with a Thickness of O050503100008 About 0.5 mm and a Weight of About 0.300 Gramm. O050503100009 The Rb Target Used For Irradiation at 1600 MeV was an O050503100010 About 2 mm Thick Pill with a Diameter of 15 mm. It was O050503100011 Made by Compacting Rb/2-S-O/4 Powder. O050503100012 METHOD (AMS) O050503100013 (MOMIX) O050503100014 ENDBIB 12 0 O050503100015 NOCOMMON 0 0 O050503100016 DATA 4 11 O050503100017 EN EN-ERR DATA ERR-T O050503100018 MEV MEV MB MB O050503100019 81.6 1.6 187. 11. O050503100020 99.9 1.2 158. 9. O050503100021 112. 2. 143. 8. O050503100022 124. 1. 135. 8. O050503100023 142. 2. 127. 7. O050503100024 168. 1. 112. 6. O050503100025 293. 1. 93.4 5.2 O050503100026 368. 1. 91.4 5. O050503100027 575. 1. 74.6 4.1 O050503100028 777. 1. 75.2 4.4 O050503100029 1600. 20. 45.1 5.1 O050503100030 ENDDATA 13 0 O050503100031 ENDSUBENT 30 0 O050503199999 SUBENT O0505032 19991117 0000O050503200001 BIB 3 12 O050503200002 REACTION (37-RB-0(P,X)36-KR-83-G,CUM,SIG) O050503200003 SAMPLE Rubidium Targets were Prepared by Sawing a 90 Degrees O050503200004 Section of a Cylindrical Rb-Mn-F/3 Cristall with a O050503200005 Diameter of 25 mm. O050503200006 Typical Rb Target Shape was Thus a 90 Degrees Section O050503200007 Of a Disk with a Diameter of 25 mm with a Thickness of O050503200008 About 0.5 mm and a Weight of About 0.300 Gramm. O050503200009 The Rb Target Used For Irradiation at 1600 MeV was an O050503200010 About 2 mm Thick Pill with a Diameter of 15 mm. It was O050503200011 Made by Compacting Rb/2-S-O/4 Powder. O050503200012 METHOD (AMS) O050503200013 (MOMIX) O050503200014 ENDBIB 12 0 O050503200015 NOCOMMON 0 0 O050503200016 DATA 4 11 O050503200017 EN EN-ERR DATA ERR-T O050503200018 MEV MEV MB MB O050503200019 81.6 1.6 213. 12. O050503200020 99.9 1.2 176. 10. O050503200021 112. 2. 160. 9. O050503200022 124. 1. 150. 9. O050503200023 142. 2. 140. 8. O050503200024 168. 1. 123. 7. O050503200025 293. 1. 103. 6. O050503200026 368. 1. 99.2 5.4 O050503200027 575. 1. 84.4 4.6 O050503200028 777. 1. 86.5 5.1 O050503200029 1600. 20. 49.1 5.8 O050503200030 ENDDATA 13 0 O050503200031 ENDSUBENT 30 0 O050503299999 SUBENT O0505033 19991117 0000O050503300001 BIB 3 12 O050503300002 REACTION (37-RB-0(P,X)36-KR-84,CUM,SIG) O050503300003 SAMPLE Rubidium Targets were Prepared by Sawing a 90 Degrees O050503300004 Section of a Cylindrical Rb-Mn-F/3 Cristall with a O050503300005 Diameter of 25 mm. O050503300006 Typical Rb Target Shape was Thus a 90 Degrees Section O050503300007 Of a Disk with a Diameter of 25 mm with a Thickness of O050503300008 About 0.5 mm and a Weight of About 0.300 Gramm. O050503300009 The Rb Target Used For Irradiation at 1600 MeV was an O050503300010 About 2 mm Thick Pill with a Diameter of 15 mm. It was O050503300011 Made by Compacting Rb/2-S-O/4 Powder. O050503300012 METHOD (AMS) O050503300013 (MOMIX) O050503300014 ENDBIB 12 0 O050503300015 NOCOMMON 0 0 O050503300016 DATA 4 11 O050503300017 EN EN-ERR DATA ERR-T O050503300018 MEV MEV MB MB O050503300019 81.6 1.6 151. 9. O050503300020 99.9 1.2 133. 7. O050503300021 112. 2. 126. 7. O050503300022 124. 1. 118. 7. O050503300023 142. 2. 115. 6. O050503300024 168. 1. 103. 6. O050503300025 293. 1. 91. 5.1 O050503300026 368. 1. 94.7 5.2 O050503300027 575. 1. 88. 4.9 O050503300028 777. 1. 96.6 5.8 O050503300029 1600. 20. 50. 6.3 O050503300030 ENDDATA 13 0 O050503300031 ENDSUBENT 30 0 O050503399999 SUBENT O0505034 19991117 0000O050503400001 BIB 3 12 O050503400002 REACTION (37-RB-0(P,X)36-KR-85,CUM,SIG) O050503400003 SAMPLE Rubidium Targets were Prepared by Sawing a 90 Degrees O050503400004 Section of a Cylindrical Rb-Mn-F/3 Cristall with a O050503400005 Diameter of 25 mm. O050503400006 Typical Rb Target Shape was Thus a 90 Degrees Section O050503400007 Of a Disk with a Diameter of 25 mm with a Thickness of O050503400008 About 0.5 mm and a Weight of About 0.300 Gramm. O050503400009 The Rb Target Used For Irradiation at 1600 MeV was an O050503400010 About 2 mm Thick Pill with a Diameter of 15 mm. It was O050503400011 Made by Compacting Rb/2-S-O/4 Powder. O050503400012 METHOD (AMS) O050503400013 (MOMIX) O050503400014 ENDBIB 12 0 O050503400015 NOCOMMON 0 0 O050503400016 DATA 4 11 O050503400017 EN EN-ERR DATA ERR-T O050503400018 MEV MEV MB MB O050503400019 81.6 1.6 3.12 0.18 O050503400020 99.9 1.2 3.61 0.2 O050503400021 112. 2. 3.96 0.22 O050503400022 124. 1. 4. 0.23 O050503400023 142. 2. 4.45 0.25 O050503400024 168. 1. 4.45 0.25 O050503400025 293. 1. 5.14 0.29 O050503400026 368. 1. 5.57 0.31 O050503400027 575. 1. 5.6 0.31 O050503400028 777. 1. 6.45 0.38 O050503400029 1600. 20. 4.34 0.49 O050503400030 ENDDATA 13 0 O050503400031 ENDSUBENT 30 0 O050503499999 SUBENT O0505035 19991117 0000O050503500001 BIB 3 12 O050503500002 REACTION (37-RB-0(P,X)36-KR-86,CUM,SIG) O050503500003 SAMPLE Rubidium Targets were Prepared by Sawing a 90 Degrees O050503500004 Section of a Cylindrical Rb-Mn-F/3 Cristall with a O050503500005 Diameter of 25 mm. O050503500006 Typical Rb Target Shape was Thus a 90 Degrees Section O050503500007 Of a Disk with a Diameter of 25 mm with a Thickness of O050503500008 About 0.5 mm and a Weight of About 0.300 Gramm. O050503500009 The Rb Target Used For Irradiation at 1600 MeV was an O050503500010 About 2 mm Thick Pill with a Diameter of 15 mm. It was O050503500011 Made by Compacting Rb/2-S-O/4 Powder. O050503500012 METHOD (AMS) O050503500013 (MOMIX) O050503500014 ENDBIB 12 0 O050503500015 NOCOMMON 0 0 O050503500016 DATA 4 11 O050503500017 EN EN-ERR DATA ERR-T O050503500018 MEV MEV MB MB O050503500019 81.6 1.6 2.93 0.62 O050503500020 99.9 1.2 2.57 0.21 O050503500021 112. 2. 2.97 0.17 O050503500022 124. 1. 3.17 0.26 O050503500023 142. 2. 3.55 0.21 O050503500024 168. 1. 3.81 0.22 O050503500025 293. 1. 4.69 0.35 O050503500026 368. 1. 5.49 0.36 O050503500027 575. 1. 5.84 0.47 O050503500028 777. 1. 7.25 0.59 O050503500029 1600. 20. 5.4 0.79 O050503500030 ENDDATA 13 0 O050503500031 ENDSUBENT 30 0 O050503599999 SUBENT O0505036 19991117 0000O050503600001 BIB 3 13 O050503600002 REACTION (38-SR-0(P,X)36-KR-78,CUM,SIG) O050503600003 SAMPLE Strontium was Irradiated As Sr-F/2 in Form of O050503600004 Circular Cristals with 15 mm Diameter with a Typical O050503600005 Weight of 900 Milligramm. O050503600006 For Proton Energies Above 500 MeV Each Three Sr Target O050503600007 Were Put Together in Order to Minimize Recoil Losses O050503600008 And Cross Contaminations by Analyzing Only the Targets O050503600009 In the Middle of a Set of Three. O050503600010 Only One Sr-F/2 Target was Irradiated For Lower Proton O050503600011 Energies in Order to Provide a Large Number of Energy O050503600012 Points in Spite of the Proton Stopping Becoming LargeO050503600013 At these Energies. O050503600014 METHOD (AMS) O050503600015 ENDBIB 13 0 O050503600016 NOCOMMON 0 0 O050503600017 DATA 4 12 O050503600018 EN EN-ERR DATA ERR-T O050503600019 MEV MEV MB MB O050503600020 44.2 2.7 0.0029 0.0008 O050503600021 65.7 2.1 0.428 0.024 O050503600022 135. 2. 17.4 1. O050503600023 146. 2. 18.8 1. O050503600024 158. 1. 21.3 4.5 O050503600025 224. 2. 24.8 2.9 O050503600026 336. 2. 27.1 1.6 O050503600027 373. 2. 33.1 6.8 O050503600028 574. 1. 29.6 1.6 O050503600029 776. 1. 24.1 1.3 O050503600030 1200. 20. 18.9 1. O050503600031 1600. 20. 16.1 0.9 O050503600032 ENDDATA 14 0 O050503600033 ENDSUBENT 32 0 O050503699999 SUBENT O0505037 19991117 0000O050503700001 BIB 3 13 O050503700002 REACTION (38-SR-0(P,X)36-KR-80,CUM,SIG) O050503700003 SAMPLE Strontium was Irradiated As Sr-F/2 in Form of O050503700004 Circular Cristals with 15 mm Diameter with a Typical O050503700005 Weight of 900 Milligramm. O050503700006 For Proton Energies Above 500 MeV Each Three Sr Target O050503700007 Were Put Together in Order to Minimize Recoil Losses O050503700008 And Cross Contaminations by Analyzing Only the Targets O050503700009 In the Middle of a Set of Three. O050503700010 Only One Sr-F/2 Target was Irradiated For Lower Proton O050503700011 Energies in Order to Provide a Large Number of Energy O050503700012 Points in Spite of the Proton Stopping Becoming LargeO050503700013 At these Energies. O050503700014 METHOD (AMS) O050503700015 ENDBIB 13 0 O050503700016 NOCOMMON 0 0 O050503700017 DATA 4 13 O050503700018 EN EN-ERR DATA ERR-T O050503700019 MEV MEV MB MB O050503700020 41.8 2.2 0.436 0.029 O050503700021 44.2 2.7 0.342 0.039 O050503700022 65.7 2.1 10.3 0.6 O050503700023 135. 2. 57.5 3.1 O050503700024 146. 2. 61.5 3.4 O050503700025 158. 1. 66.1 13.9 O050503700026 224. 2. 62.3 7.4 O050503700027 336. 2. 62.3 3.7 O050503700028 373. 2. 75.4 15.6 O050503700029 574. 1. 65.2 3.6 O050503700030 776. 1. 54.4 3. O050503700031 1200. 20. 45.4 2.5 O050503700032 1600. 20. 40.3 2.2 O050503700033 ENDDATA 15 0 O050503700034 ENDSUBENT 33 0 O050503799999 SUBENT O0505038 19991117 0000O050503800001 BIB 3 13 O050503800002 REACTION (38-SR-0(P,X)36-KR-81-G,CUM,SIG) O050503800003 SAMPLE Strontium was Irradiated As Sr-F/2 in Form of O050503800004 Circular Cristals with 15 mm Diameter with a Typical O050503800005 Weight of 900 Milligramm. O050503800006 For Proton Energies Above 500 MeV Each Three Sr Target O050503800007 Were Put Together in Order to Minimize Recoil Losses O050503800008 And Cross Contaminations by Analyzing Only the Targets O050503800009 In the Middle of a Set of Three. O050503800010 Only One Sr-F/2 Target was Irradiated For Lower Proton O050503800011 Energies in Order to Provide a Large Number of Energy O050503800012 Points in Spite of the Proton Stopping Becoming LargeO050503800013 At these Energies. O050503800014 METHOD (AMS) O050503800015 ENDBIB 13 0 O050503800016 NOCOMMON 0 0 O050503800017 DATA 4 14 O050503800018 EN EN-ERR DATA ERR-T O050503800019 MEV MEV MB MB O050503800020 15.4 5. 0.17 0.035 O050503800021 41.8 2.2 7.14 0.46 O050503800022 44.2 2.7 5.92 0.67 O050503800023 65.7 2.1 29. 1.6 O050503800024 135. 2. 79.9 4.4 O050503800025 146. 2. 80.9 4.4 O050503800026 158. 1. 83.6 17.6 O050503800027 224. 2. 70.9 8.4 O050503800028 336. 2. 65.9 3.9 O050503800029 373. 2. 78.4 16.3 O050503800030 574. 1. 64.7 3.6 O050503800031 776. 1. 52.9 2.9 O050503800032 1200. 20. 44.4 2.4 O050503800033 1600. 20. 40.1 2.2 O050503800034 ENDDATA 16 0 O050503800035 ENDSUBENT 34 0 O050503899999 SUBENT O0505039 19991117 0000O050503900001 BIB 3 13 O050503900002 REACTION (38-SR-0(P,X)36-KR-82,CUM,SIG) O050503900003 SAMPLE Strontium was Irradiated As Sr-F/2 in Form of O050503900004 Circular Cristals with 15 mm Diameter with a Typical O050503900005 Weight of 900 Milligramm. O050503900006 For Proton Energies Above 500 MeV Each Three Sr Target O050503900007 Were Put Together in Order to Minimize Recoil Losses O050503900008 And Cross Contaminations by Analyzing Only the Targets O050503900009 In the Middle of a Set of Three. O050503900010 Only One Sr-F/2 Target was Irradiated For Lower Proton O050503900011 Energies in Order to Provide a Large Number of Energy O050503900012 Points in Spite of the Proton Stopping Becoming LargeO050503900013 At these Energies. O050503900014 METHOD (AMS) O050503900015 ENDBIB 13 0 O050503900016 NOCOMMON 0 0 O050503900017 DATA 4 14 O050503900018 EN EN-ERR DATA ERR-T O050503900019 MEV MEV MB MB O050503900020 15.4 5. 0.097 0.083 O050503900021 41.8 2.2 10.5 0.7 O050503900022 44.2 2.7 8.13 0.91 O050503900023 65.7 2.1 61.7 3.4 O050503900024 135. 2. 105. 6. O050503900025 146. 2. 104. 6. O050503900026 158. 1. 105. 22. O050503900027 224. 2. 83.8 9.9 O050503900028 336. 2. 75. 4.5 O050503900029 373. 2. 88.4 18.4 O050503900030 574. 1. 73.2 4. O050503900031 776. 1. 60.8 3.3 O050503900032 1200. 20. 53. 2.9 O050503900033 1600. 20. 48.6 2.7 O050503900034 ENDDATA 16 0 O050503900035 ENDSUBENT 34 0 O050503999999 SUBENT O0505040 19991117 0000O050504000001 BIB 3 13 O050504000002 REACTION (38-SR-0(P,X)36-KR-83-G,CUM,SIG) O050504000003 SAMPLE Strontium was Irradiated As Sr-F/2 in Form of O050504000004 Circular Cristals with 15 mm Diameter with a Typical O050504000005 Weight of 900 Milligramm. O050504000006 For Proton Energies Above 500 MeV Each Three Sr Target O050504000007 Were Put Together in Order to Minimize Recoil Losses O050504000008 And Cross Contaminations by Analyzing Only the Targets O050504000009 In the Middle of a Set of Three. O050504000010 Only One Sr-F/2 Target was Irradiated For Lower Proton O050504000011 Energies in Order to Provide a Large Number of Energy O050504000012 Points in Spite of the Proton Stopping Becoming LargeO050504000013 At these Energies. O050504000014 METHOD (AMS) O050504000015 ENDBIB 13 0 O050504000016 NOCOMMON 0 0 O050504000017 DATA 4 14 O050504000018 EN EN-ERR DATA ERR-T O050504000019 MEV MEV MB MB O050504000020 15.4 5. 2.07 0.18 O050504000021 41.8 2.2 49.6 3.2 O050504000022 44.2 2.7 40.9 4.6 O050504000023 65.7 2.1 70.2 3.9 O050504000024 135. 2. 136. 7. O050504000025 146. 2. 132. 7. O050504000026 158. 1. 129. 27. O050504000027 224. 2. 98.6 11.6 O050504000028 336. 2. 85.2 5.1 O050504000029 373. 2. 99.1 20.6 O050504000030 574. 1. 81.5 4.5 O050504000031 776. 1. 68.2 3.7 O050504000032 1200. 20. 62.7 3.4 O050504000033 1600. 20. 54.5 3. O050504000034 ENDDATA 16 0 O050504000035 ENDSUBENT 34 0 O050504099999 SUBENT O0505041 19991117 0000O050504100001 BIB 3 13 O050504100002 REACTION (38-SR-0(P,X)36-KR-84,CUM,SIG) O050504100003 SAMPLE Strontium was Irradiated As Sr-F/2 in Form of O050504100004 Circular Cristals with 15 mm Diameter with a Typical O050504100005 Weight of 900 Milligramm. O050504100006 For Proton Energies Above 500 MeV Each Three Sr Target O050504100007 Were Put Together in Order to Minimize Recoil Losses O050504100008 And Cross Contaminations by Analyzing Only the Targets O050504100009 In the Middle of a Set of Three. O050504100010 Only One Sr-F/2 Target was Irradiated For Lower Proton O050504100011 Energies in Order to Provide a Large Number of Energy O050504100012 Points in Spite of the Proton Stopping Becoming LargeO050504100013 At these Energies. O050504100014 METHOD (AMS) O050504100015 ENDBIB 13 0 O050504100016 NOCOMMON 0 0 O050504100017 DATA 4 14 O050504100018 EN EN-ERR DATA ERR-T O050504100019 MEV MEV MB MB O050504100020 15.4 5. 0.54 0.37 O050504100021 41.8 2.2 13.8 0.9 O050504100022 44.2 2.7 10.4 1.2 O050504100023 65.7 2.1 24. 1.3 O050504100024 135. 2. 46.7 2.6 O050504100025 146. 2. 47.2 2.6 O050504100026 158. 1. 48.6 10.2 O050504100027 224. 2. 40.8 4.9 O050504100028 336. 2. 39.3 2.4 O050504100029 373. 2. 48.1 10. O050504100030 574. 1. 42.8 2.5 O050504100031 776. 1. 39.2 2.2 O050504100032 1200. 20. 37.2 2. O050504100033 1600. 20. 35.6 2. O050504100034 ENDDATA 16 0 O050504100035 ENDSUBENT 34 0 O050504199999 SUBENT O0505042 19991117 0000O050504200001 BIB 3 13 O050504200002 REACTION (38-SR-0(P,X)36-KR-85-G,CUM,SIG) O050504200003 SAMPLE Strontium was Irradiated As Sr-F/2 in Form of O050504200004 Circular Cristals with 15 mm Diameter with a Typical O050504200005 Weight of 900 Milligramm. O050504200006 For Proton Energies Above 500 MeV Each Three Sr Target O050504200007 Were Put Together in Order to Minimize Recoil Losses O050504200008 And Cross Contaminations by Analyzing Only the Targets O050504200009 In the Middle of a Set of Three. O050504200010 Only One Sr-F/2 Target was Irradiated For Lower Proton O050504200011 Energies in Order to Provide a Large Number of Energy O050504200012 Points in Spite of the Proton Stopping Becoming LargeO050504200013 At these Energies. O050504200014 METHOD (AMS) O050504200015 ENDBIB 13 0 O050504200016 NOCOMMON 0 0 O050504200017 DATA 4 14 O050504200018 EN EN-ERR DATA ERR-T O050504200019 MEV MEV MB MB O050504200020 15.4 5. 0.0094 0.0021 O050504200021 41.8 2.2 0.0185 0.0017 O050504200022 44.2 2.7 0.0248 0.0028 O050504200023 65.7 2.1 0.185 0.01 O050504200024 135. 2. 1. 0.06 O050504200025 146. 2. 1.09 0.06 O050504200026 158. 1. 1.21 0.25 O050504200027 224. 2. 1.25 0.15 O050504200028 336. 2. 1.62 0.11 O050504200029 373. 2. 2.17 0.45 O050504200030 574. 1. 2.58 0.14 O050504200031 776. 1. 2.73 0.15 O050504200032 1200. 20. 2.66 0.15 O050504200033 1600. 20. 2.59 0.14 O050504200034 ENDDATA 16 0 O050504200035 ENDSUBENT 34 0 O050504299999 SUBENT O0505043 19991117 0000O050504300001 BIB 3 13 O050504300002 REACTION (38-SR-0(P,X)36-KR-86,CUM,SIG) O050504300003 SAMPLE Strontium was Irradiated As Sr-F/2 in Form of O050504300004 Circular Cristals with 15 mm Diameter with a Typical O050504300005 Weight of 900 Milligramm. O050504300006 For Proton Energies Above 500 MeV Each Three Sr Target O050504300007 Were Put Together in Order to Minimize Recoil Losses O050504300008 And Cross Contaminations by Analyzing Only the Targets O050504300009 In the Middle of a Set of Three. O050504300010 Only One Sr-F/2 Target was Irradiated For Lower Proton O050504300011 Energies in Order to Provide a Large Number of Energy O050504300012 Points in Spite of the Proton Stopping Becoming LargeO050504300013 At these Energies. O050504300014 METHOD (AMS) O050504300015 ENDBIB 13 0 O050504300016 NOCOMMON 0 0 O050504300017 DATA 4 13 O050504300018 EN EN-ERR DATA ERR-T O050504300019 MEV MEV MB MB O050504300020 41.8 2.2 0.0083 0.026 O050504300021 44.2 2.7 0.0012 0.0063 O050504300022 65.7 2.1 0.024 0.027 O050504300023 135. 2. 0.24 0.07 O050504300024 146. 2. 0.31 0.06 O050504300025 158. 1. 0.39 0.09 O050504300026 224. 2. 0.3 0.16 O050504300027 336. 2. 0.58 0.13 O050504300028 373. 2. 0.83 0.2 O050504300029 574. 1. 1. 0.3 O050504300030 776. 1. 1.26 0.14 O050504300031 1200. 20. 1.31 0.12 O050504300032 1600. 20. 1.27 0.1 O050504300033 ENDDATA 15 0 O050504300034 ENDSUBENT 33 0 O050504399999 SUBENT O0505044 19991117 0000O050504400001 BIB 3 8 O050504400002 REACTION (39-Y-89(P,X)36-KR-78,CUM,SIG) O050504400003 SAMPLE Yttrium was Irradiated As Pure Element Foils with 15.7 O050504400004 Mm in Diameter and Typical Weight of 95 Milligramm. O050504400005 In All Irradiations, Each Three Y Target O050504400006 Were Put Together in Order to Minimize Recoil Losses O050504400007 And Cross Contaminations by Analyzing Only the Targets O050504400008 In the Middle of a Set of Three. O050504400009 METHOD (AMS) O050504400010 ENDBIB 8 0 O050504400011 NOCOMMON 0 0 O050504400012 DATA 4 7 O050504400013 EN EN-ERR DATA ERR-T O050504400014 MEV MEV MB MB O050504400015 70.2 1. 0.046 0.004 O050504400016 157. 1. 14.6 0.8 O050504400017 223. 2. 24.1 1.4 O050504400018 372. 1. 31.1 1.7 O050504400019 569. 1. 34.7 1.9 O050504400020 1600. 20. 20.5 1.1 O050504400021 1600. 20. 17.2 1.6 O050504400022 ENDDATA 9 0 O050504400023 ENDSUBENT 22 0 O050504499999 SUBENT O0505045 19991117 0000O050504500001 BIB 3 8 O050504500002 REACTION (39-Y-89(P,X)36-KR-80,CUM,SIG) O050504500003 SAMPLE Yttrium was Irradiated As Pure Element Foils with 15.7 O050504500004 Mm in Diameter and Typical Weight of 95 Milligramm. O050504500005 In All Irradiations, Each Three Y Target O050504500006 Were Put Together in Order to Minimize Recoil Losses O050504500007 And Cross Contaminations by Analyzing Only the Targets O050504500008 In the Middle of a Set of Three. O050504500009 METHOD (AMS) O050504500010 ENDBIB 8 0 O050504500011 NOCOMMON 0 0 O050504500012 DATA 4 7 O050504500013 EN EN-ERR DATA ERR-T O050504500014 MEV MEV MB MB O050504500015 70.2 1. 3.63 0.2 O050504500016 157. 1. 40.7 2.2 O050504500017 223. 2. 52.4 3. O050504500018 372. 1. 57.9 3.2 O050504500019 569. 1. 62. 3.4 O050504500020 1600. 20. 37.8 2.1 O050504500021 1600. 20. 32.3 3. O050504500022 ENDDATA 9 0 O050504500023 ENDSUBENT 22 0 O050504599999 SUBENT O0505046 19991117 0000O050504600001 BIB 3 8 O050504600002 REACTION (39-Y-89(P,X)36-KR-81-G,CUM,SIG) O050504600003 SAMPLE Yttrium was Irradiated As Pure Element Foils with 15.7 O050504600004 Mm in Diameter and Typical Weight of 95 Milligramm. O050504600005 In All Irradiations, Each Three Y Target O050504600006 Were Put Together in Order to Minimize Recoil Losses O050504600007 And Cross Contaminations by Analyzing Only the Targets O050504600008 In the Middle of a Set of Three. O050504600009 METHOD (AMS) O050504600010 ENDBIB 8 0 O050504600011 NOCOMMON 0 0 O050504600012 DATA 4 7 O050504600013 EN EN-ERR DATA ERR-T O050504600014 MEV MEV MB MB O050504600015 70.2 1. 1.64 0.09 O050504600016 157. 1. 55.3 3. O050504600017 223. 2. 62. 3.5 O050504600018 372. 1. 63.3 3.5 O050504600019 569. 1. 64.3 3.6 O050504600020 1600. 20. 38.9 2.1 O050504600021 1600. 20. 33.5 3.1 O050504600022 ENDDATA 9 0 O050504600023 ENDSUBENT 22 0 O050504699999 SUBENT O0505047 19991117 0000O050504700001 BIB 3 8 O050504700002 REACTION (39-Y-89(P,X)36-KR-82,CUM,SIG) O050504700003 SAMPLE Yttrium was Irradiated As Pure Element Foils with 15.7 O050504700004 Mm in Diameter and Typical Weight of 95 Milligramm. O050504700005 In All Irradiations, Each Three Y Target O050504700006 Were Put Together in Order to Minimize Recoil Losses O050504700007 And Cross Contaminations by Analyzing Only the Targets O050504700008 In the Middle of a Set of Three. O050504700009 METHOD (AMS) O050504700010 ENDBIB 8 0 O050504700011 NOCOMMON 0 0 O050504700012 DATA 4 7 O050504700013 EN EN-ERR DATA ERR-T O050504700014 MEV MEV MB MB O050504700015 70.2 1. 41.6 2.3 O050504700016 157. 1. 71.6 3.9 O050504700017 223. 2. 73.5 4.2 O050504700018 372. 1. 69.2 3.8 O050504700019 569. 1. 69.3 3.8 O050504700020 1600. 20. 42.5 2.3 O050504700021 1600. 20. 36.5 3.5 O050504700022 ENDDATA 9 0 O050504700023 ENDSUBENT 22 0 O050504799999 SUBENT O0505048 19991117 0000O050504800001 BIB 3 8 O050504800002 REACTION (39-Y-89(P,X)36-KR-83-G,CUM,SIG) O050504800003 SAMPLE Yttrium was Irradiated As Pure Element Foils with 15.7 O050504800004 Mm in Diameter and Typical Weight of 95 Milligramm. O050504800005 In All Irradiations, Each Three Y Target O050504800006 Were Put Together in Order to Minimize Recoil Losses O050504800007 And Cross Contaminations by Analyzing Only the Targets O050504800008 In the Middle of a Set of Three. O050504800009 METHOD (AMS) O050504800010 ENDBIB 8 0 O050504800011 NOCOMMON 0 0 O050504800012 DATA 4 7 O050504800013 EN EN-ERR DATA ERR-T O050504800014 MEV MEV MB MB O050504800015 70.2 1. 54.9 3. O050504800016 157. 1. 92.6 5. O050504800017 223. 2. 86.3 4.9 O050504800018 372. 1. 75.6 4.3 O050504800019 569. 1. 78.1 4.3 O050504800020 1600. 20. 47.8 2.6 O050504800021 1600. 20. 41.2 4. O050504800022 ENDDATA 9 0 O050504800023 ENDSUBENT 22 0 O050504899999 SUBENT O0505049 19991117 0000O050504900001 BIB 3 8 O050504900002 REACTION (39-Y-89(P,X)36-KR-84,CUM,SIG) O050504900003 SAMPLE Yttrium was Irradiated As Pure Element Foils with 15.7 O050504900004 Mm in Diameter and Typical Weight of 95 Milligramm. O050504900005 In All Irradiations, Each Three Y Target O050504900006 Were Put Together in Order to Minimize Recoil Losses O050504900007 And Cross Contaminations by Analyzing Only the Targets O050504900008 In the Middle of a Set of Three. O050504900009 METHOD (AMS) O050504900010 ENDBIB 8 0 O050504900011 NOCOMMON 0 0 O050504900012 DATA 4 7 O050504900013 EN EN-ERR DATA ERR-T O050504900014 MEV MEV MB MB O050504900015 70.2 1. 6.15 0.39 O050504900016 157. 1. 14.1 0.8 O050504900017 223. 2. 15.2 1. O050504900018 372. 1. 15.8 0.9 O050504900019 569. 1. 19.7 1.2 O050504900020 1600. 20. 15.1 0.8 O050504900021 1600. 20. 13.1 1.3 O050504900022 ENDDATA 9 0 O050504900023 ENDSUBENT 22 0 O050504999999 SUBENT O0505050 19991117 0000O050505000001 BIB 3 8 O050505000002 REACTION (39-Y-89(P,X)36-KR-85-G,CUM,SIG) O050505000003 SAMPLE Yttrium was Irradiated As Pure Element Foils with 15.7 O050505000004 Mm in Diameter and Typical Weight of 95 Milligramm. O050505000005 In All Irradiations, Each Three Y Target O050505000006 Were Put Together in Order to Minimize Recoil Losses O050505000007 And Cross Contaminations by Analyzing Only the Targets O050505000008 In the Middle of a Set of Three. O050505000009 METHOD (AMS) O050505000010 ENDBIB 8 0 O050505000011 NOCOMMON 0 0 O050505000012 DATA 4 7 O050505000013 EN EN-ERR DATA ERR-T O050505000014 MEV MEV MB MB O050505000015 70.2 1. 0.0029 0.0004 O050505000016 157. 1. 0.063 0.0037 O050505000017 223. 2. 0.133 0.012 O050505000018 372. 1. 0.175 0.011 O050505000019 569. 1. 0.293 0.018 O050505000020 1600. 20. 0.329 0.018 O050505000021 1600. 20. 0.303 0.036 O050505000022 ENDDATA 9 0 O050505000023 ENDSUBENT 22 0 O050505099999 SUBENT O0505051 19991117 0000O050505100001 BIB 3 8 O050505100002 REACTION (39-Y-89(P,4P)36-KR-86,IND,SIG) O050505100003 SAMPLE Yttrium was Irradiated As Pure Element Foils with 15.7 O050505100004 Mm in Diameter and Typical Weight of 95 Milligramm. O050505100005 In All Irradiations, Each Three Y Target O050505100006 Were Put Together in Order to Minimize Recoil Losses O050505100007 And Cross Contaminations by Analyzing Only the Targets O050505100008 In the Middle of a Set of Three. O050505100009 METHOD (AMS) O050505100010 ENDBIB 8 0 O050505100011 NOCOMMON 0 0 O050505100012 DATA 4 3 O050505100013 EN EN-ERR DATA ERR-T O050505100014 MEV MEV MB MB O050505100015 157. 1. 0.033 0.027 O050505100016 569. 1. 0.19 0.17 O050505100017 1600. 20. 0.051 0.053 O050505100018 ENDDATA 5 0 O050505100019 ENDSUBENT 18 0 O050505199999 SUBENT O0505052 19991117 0000O050505200001 BIB 3 8 O050505200002 REACTION (40-ZR-0(P,X)36-KR-78,CUM,SIG) O050505200003 SAMPLE Zirconium was Irradiated As Pure Element Foils with 15.O050505200004 Mm in Diameter and Typical Weight of 165 Milligramm. O050505200005 In All Irradiations, Each Three Zr Target O050505200006 Were Put Together in Order to Minimize Recoil Losses O050505200007 And Cross Contaminations by Analyzing Only the Targets O050505200008 In the Middle of a Set of Three. O050505200009 METHOD (AMS) O050505200010 ENDBIB 8 0 O050505200011 NOCOMMON 0 0 O050505200012 DATA 4 3 O050505200013 EN EN-ERR DATA ERR-T O050505200014 MEV MEV MB MB O050505200015 156. 1. 6.8 0.4 O050505200016 569. 1. 32.8 1.9 O050505200017 1200. 20. 25. 1.5 O050505200018 ENDDATA 5 0 O050505200019 ENDSUBENT 18 0 O050505299999 SUBENT O0505053 19991117 0000O050505300001 BIB 3 8 O050505300002 REACTION (40-ZR-0(P,X)36-KR-80,CUM,SIG) O050505300003 SAMPLE Zirconium was Irradiated As Pure Element Foils with 15.O050505300004 Mm in Diameter and Typical Weight of 165 Milligramm. O050505300005 In All Irradiations, Each Three Zr Target O050505300006 Were Put Together in Order to Minimize Recoil Losses O050505300007 And Cross Contaminations by Analyzing Only the Targets O050505300008 In the Middle of a Set of Three. O050505300009 METHOD (AMS) O050505300010 ENDBIB 8 0 O050505300011 NOCOMMON 0 0 O050505300012 DATA 4 3 O050505300013 EN EN-ERR DATA ERR-T O050505300014 MEV MEV MB MB O050505300015 156. 1. 20.9 1.1 O050505300016 569. 1. 55.8 3.2 O050505300017 1200. 20. 41.3 2.4 O050505300018 ENDDATA 5 0 O050505300019 ENDSUBENT 18 0 O050505399999 SUBENT O0505054 19991117 0000O050505400001 BIB 3 8 O050505400002 REACTION (40-ZR-0(P,X)36-KR-81-G,CUM,SIG) O050505400003 SAMPLE Zirconium was Irradiated As Pure Element Foils with 15.O050505400004 Mm in Diameter and Typical Weight of 165 Milligramm. O050505400005 In All Irradiations, Each Three Zr Target O050505400006 Were Put Together in Order to Minimize Recoil Losses O050505400007 And Cross Contaminations by Analyzing Only the Targets O050505400008 In the Middle of a Set of Three. O050505400009 METHOD (AMS) O050505400010 ENDBIB 8 0 O050505400011 NOCOMMON 0 0 O050505400012 DATA 4 3 O050505400013 EN EN-ERR DATA ERR-T O050505400014 MEV MEV MB MB O050505400015 156. 1. 30.2 1.6 O050505400016 569. 1. 59.1 3.4 O050505400017 1200. 20. 42.3 2.4 O050505400018 ENDDATA 5 0 O050505400019 ENDSUBENT 18 0 O050505499999 SUBENT O0505055 19991117 0000O050505500001 BIB 3 8 O050505500002 REACTION (40-ZR-0(P,X)36-KR-82,CUM,SIG) O050505500003 SAMPLE Zirconium was Irradiated As Pure Element Foils with 15.O050505500004 Mm in Diameter and Typical Weight of 165 Milligramm. O050505500005 In All Irradiations, Each Three Zr Target O050505500006 Were Put Together in Order to Minimize Recoil Losses O050505500007 And Cross Contaminations by Analyzing Only the Targets O050505500008 In the Middle of a Set of Three. O050505500009 METHOD (AMS) O050505500010 ENDBIB 8 0 O050505500011 NOCOMMON 0 0 O050505500012 DATA 4 3 O050505500013 EN EN-ERR DATA ERR-T O050505500014 MEV MEV MB MB O050505500015 156. 1. 41.9 2.3 O050505500016 569. 1. 63.5 3.6 O050505500017 1200. 20. 45. 2.6 O050505500018 ENDDATA 5 0 O050505500019 ENDSUBENT 18 0 O050505599999 SUBENT O0505056 19991117 0000O050505600001 BIB 3 8 O050505600002 REACTION (40-ZR-0(P,X)36-KR-83-G,CUM,SIG) O050505600003 SAMPLE Zirconium was Irradiated As Pure Element Foils with 15.O050505600004 Mm in Diameter and Typical Weight of 165 Milligramm. O050505600005 In All Irradiations, Each Three Zr Target O050505600006 Were Put Together in Order to Minimize Recoil Losses O050505600007 And Cross Contaminations by Analyzing Only the Targets O050505600008 In the Middle of a Set of Three. O050505600009 METHOD (AMS) O050505600010 ENDBIB 8 0 O050505600011 NOCOMMON 0 0 O050505600012 DATA 4 3 O050505600013 EN EN-ERR DATA ERR-T O050505600014 MEV MEV MB MB O050505600015 156. 1. 56.4 3. O050505600016 569. 1. 68.6 3.9 O050505600017 1200. 20. 48.4 2.8 O050505600018 ENDDATA 5 0 O050505600019 ENDSUBENT 18 0 O050505699999 SUBENT O0505057 19991117 0000O050505700001 BIB 3 8 O050505700002 REACTION (40-ZR-0(P,X)36-KR-84,CUM,SIG) O050505700003 SAMPLE Zirconium was Irradiated As Pure Element Foils with 15.O050505700004 Mm in Diameter and Typical Weight of 165 Milligramm. O050505700005 In All Irradiations, Each Three Zr Target O050505700006 Were Put Together in Order to Minimize Recoil Losses O050505700007 And Cross Contaminations by Analyzing Only the Targets O050505700008 In the Middle of a Set of Three. O050505700009 METHOD (AMS) O050505700010 ENDBIB 8 0 O050505700011 NOCOMMON 0 0 O050505700012 DATA 4 3 O050505700013 EN EN-ERR DATA ERR-T O050505700014 MEV MEV MB MB O050505700015 156. 1. 5.9 0.3 O050505700016 569. 1. 12. 0.7 O050505700017 1200. 20. 10.1 0.6 O050505700018 ENDDATA 5 0 O050505700019 ENDSUBENT 18 0 O050505799999 SUBENT O0505058 19991117 0000O050505800001 BIB 3 8 O050505800002 REACTION (40-ZR-0(P,X)36-KR-85-G,CUM,SIG) O050505800003 SAMPLE Zirconium was Irradiated As Pure Element Foils with 15.O050505800004 Mm in Diameter and Typical Weight of 165 Milligramm. O050505800005 In All Irradiations, Each Three Zr Target O050505800006 Were Put Together in Order to Minimize Recoil Losses O050505800007 And Cross Contaminations by Analyzing Only the Targets O050505800008 In the Middle of a Set of Three. O050505800009 METHOD (AMS) O050505800010 ENDBIB 8 0 O050505800011 NOCOMMON 0 0 O050505800012 DATA 4 3 O050505800013 EN EN-ERR DATA ERR-T O050505800014 MEV MEV MB MB O050505800015 156. 1. 0.094 0.017 O050505800016 569. 1. 0.225 0.075 O050505800017 1200. 20. 0.394 0.035 O050505800018 ENDDATA 5 0 O050505800019 ENDSUBENT 18 0 O050505899999 SUBENT O0505059 19991117 0000O050505900001 BIB 3 8 O050505900002 REACTION (40-ZR-0(P,X)36-KR-86,CUM,SIG) O050505900003 SAMPLE Zirconium was Irradiated As Pure Element Foils with 15.O050505900004 Mm in Diameter and Typical Weight of 165 Milligramm. O050505900005 In All Irradiations, Each Three Zr Target O050505900006 Were Put Together in Order to Minimize Recoil Losses O050505900007 And Cross Contaminations by Analyzing Only the Targets O050505900008 In the Middle of a Set of Three. O050505900009 METHOD (AMS) O050505900010 ENDBIB 8 0 O050505900011 NOCOMMON 0 0 O050505900012 DATA 4 3 O050505900013 EN EN-ERR DATA ERR-T O050505900014 MEV MEV MB MB O050505900015 156. 1. 0.0063 0.015 O050505900016 569. 1. 0.055 0.083 O050505900017 1200. 20. 0.113 0.032 O050505900018 ENDDATA 5 0 O050505900019 ENDSUBENT 18 0 O050505999999 ENDENTRY 59 0 O050599999999