ENTRY B0117 20011220 0000B011700000001 SUBENT B0117001 20011220 0000B011700100001 BIB 10 23 B011700100002 TITLE Comparison of Light- And Heavy-Ion Emission from B011700100003 The 12-C + 16-O System. B011700100004 AUTHOR (S.TABOR, Y.EISEN, D.KOVAR, Z.VAGER) B011700100005 INSTITUTE (1USAANL) B011700100006 REFERENCE (J,PR/C,16,673,1977) B011700100007 FACILITY (VDGT,1USAANL) B011700100008 SAMPLE Self-Supporting C-12 Targets of 20-40 Microgramm/Cm**2 B011700100009 Areal Density. B011700100010 MONITOR (6-C-12(8-O-16,EL)6-C-12,,DA,,,EXP) B011700100011 The Normalization of Total Cross Sections was PerformedB011700100012 By Comparing Measured Elastic Scattering Cross SectionsB011700100013 To Predictions of the Optical Model. The Used O.M. B011700100014 Parameters are Specified in the Paper. B011700100015 ADD-RES (ANGD,TRCS) B011700100016 Total Reaction- And Total Fusion Cross Sections B011700100017 Were Obtained at 3 Projectile Energies. B011700100018 MISC-COL (MISC) C.M.-Projectile Energies As Given by the AuthorsB011700100019 The Lab-Energies were Calculated by the Compiler. B011700100020 HISTORY (19800125C)Nekw B011700100021 (19940714A) Some Corrections have Been Included by B011700100022 CAJAD B011700100023 (19981223A) Loer Case and Some Remarks. B011700100024 (20011010U) Last checking has been done. B011700100025 ENDBIB 23 0 B011700100026 NOCOMMON 0 0 B011700100027 ENDSUBENT 26 0 B011700199999 SUBENT B0117002 20011220 0000B011700200001 BIB 8 33 B011700200002 REACTION (6-C-12(8-O-16,X)1-H-1,,SIG,,,EXP) B011700200003 PART-DET (P) B011700200004 DETECTOR (SOLST) Two Counter Telescopes with Silicon B011700200005 Surface-Barrier Detectors of 15 and 2000 Micrometer B011700200006 And 7.2 and 1500 Micrometer Thickness. B011700200007 METHOD (SITA,EDE,EXTB,MOMIX) B011700200008 An Excitation Curve was Measured with Two Counter B011700200009 Telescopes, Positioned at 15 Degrees and 25 Degrees, B011700200010 In Steps of 0.5-2.0 MeV in the Range E(LAB)=30-64 MeV.B011700200011 The Angular Distributions were Measured at E(LAB)=35, B011700200012 49 and 62 MeV, Whereby the Two Telescopes were Used B011700200013 From 10 to 90 Degrees and 90 to 170 Degrees, B011700200014 Respectively. B011700200015 ANALYSIS (INTAD,INTED) B011700200016 To Obtain the Excitation Curve the Differential B011700200017 Cross Sections, Measured As a Function of Bombarding B011700200018 Energy at Two Angles Only, were Converted Into Total B011700200019 Cross Sections by Normalization Factors Interpolated B011700200020 Between Those at the Three Energies at Which Angular B011700200021 Distributions were Measured. This Procedure was B011700200022 Justified by the Fact That these Factors Change Less B011700200023 Than 10% Between 35 and 62 MeV. B011700200024 A Small Hydrogen Contamination in the Target Yielded B011700200025 A Sharp Proton-Knockout Peak Which was Subtracted B011700200026 Before Integrating. B011700200027 ERR-ANALYS (DATA-ERR) The Absolute Cross Sections have an B011700200028 Estimated Uncertainty of 7%. For the Values of the B011700200029 Excitation Curve a Standard Deviation of 3% was Found B011700200030 By Comparing Two or Three Independent Measurements MadeB011700200031 At 17 Energies. B011700200032 STATUS (CURVE) B011700200033 FLAG (1.)This Value is Taken from a Data-Table in the B011700200034 Reference. B011700200035 ENDBIB 33 0 B011700200036 NOCOMMON 0 0 B011700200037 DATA 5 39 B011700200038 EN MISC DATA DATA-ERR FLAG B011700200039 MEV MEV MB MB NO-DIM B011700200040 29.9 12.8 458. B011700200041 31. 13.3 472. 11. B011700200042 32. 13.7 488. 9. B011700200043 32.9 14.1 507. 12. B011700200044 33.8 14.5 507. 11. B011700200045 34.8 14.9 488. 11. B011700200046 35. 15. 495. 1. B011700200047 35.7 15.3 499. 12. B011700200048 36.9 15.8 515. 11. B011700200049 37.8 16.2 517. 12. B011700200050 38.7 16.6 501. 12. B011700200051 39.6 17. 517. 12. B011700200052 40.8 17.5 528. 12. B011700200053 41.8 17.9 520. 11. B011700200054 42.7 18.3 542. 12. B011700200055 43.9 18.8 542. 13. B011700200056 44.8 19.2 552. 13. B011700200057 45.9 19.7 571. 12. B011700200058 46.7 20. 560. 11. B011700200059 47.1 20.2 566. 11. B011700200060 47.5 20.4 560. 12. B011700200061 48.3 20.7 558. 13. B011700200062 48.8 20.9 560. 13. B011700200063 49. 21. 566. 1. B011700200064 49.2 21.1 566. 11. B011700200065 49.7 21.3 566. 9. B011700200066 50.1 21.5 576. 9. B011700200067 50.6 21.7 568. 11. B011700200068 51. 21.9 584. 17. B011700200069 51.5 22.1 550. 13. B011700200070 52. 22.3 539. 11. B011700200071 52.4 22.5 531. 12. B011700200072 53.6 23. 576. 11. B011700200073 55.8 23.9 638. 16. B011700200074 57.8 24.7 649. 16. B011700200075 59.7 25.6 670. 13. B011700200076 61.5 26.4 713. 16. B011700200077 62. 26.6 721. 1. B011700200078 63.7 27.3 735. 17. B011700200079 ENDDATA 41 0 B011700200080 ENDSUBENT 79 0 B011700299999 SUBENT B0117003 20011220 0000B011700300001 BIB 8 31 B011700300002 REACTION (6-C-12(8-O-16,X)2-HE-4,,SIG,,,EXP) B011700300003 PART-DET (A) B011700300004 DETECTOR (SOLST)Two Counter Telescopes with Silicon B011700300005 Surface-Barrier Detectors of 15 and 2000 Micrometer B011700300006 And 7.2 and 1500 Micrometer Thickness. B011700300007 METHOD (SITA,EDE,EXTB,MOMIX) B011700300008 An Excitation Curve was Measured with Two Counter B011700300009 Telescopes, Positioned at 15 Degrees and 25 Degrees B011700300010 In Steps of 0.5-2.0 MeV in the Range B011700300011 E(LAB)=30-64 MeV. B011700300012 The Angular Distributions were Measured at E(LAB)=35, B011700300013 49 and 62 MeV, Whereby the Two Telescopes were Used B011700300014 From 10 to 90 Degrees and 90 to 170 Degrees, B011700300015 Respectively. B011700300016 ANALYSIS (INTAD,INTED) B011700300017 To Obtain the Excitation Curve the Differential B011700300018 Cross Sections, Measured As a Function of Bombarding B011700300019 Energy at Two Angles Only, were Converted Into Total B011700300020 Cross Sections by Normalization Factors Interpolated B011700300021 Between Those at the Three Energies at Which Angular B011700300022 Distributions were Measured. This Procedure was B011700300023 Justified by the Fact That these Factors Change Less B011700300024 Than 10% Between 35 and 62 MeV. B011700300025 ERR-ANALYS (DATA-ERR) The Absolute Cross Sections have an B011700300026 Estimated Uncertainty of 7%. For the Values of the B011700300027 Excitation Curve a Standard Deviation of 3% was Found B011700300028 By Comparing Two or Three Independent Measurements MadeB011700300029 At 17 Energies. B011700300030 STATUS (CURVE) B011700300031 FLAG (1.)This Value is Taken from a Data-Table in the B011700300032 Reference. B011700300033 ENDBIB 31 0 B011700300034 NOCOMMON 0 0 B011700300035 DATA 5 39 B011700300036 EN MISC DATA DATA-ERR FLAG B011700300037 MEV MEV MB MB NO-DIM B011700300038 29.9 12.8 475. B011700300039 31. 13.3 558. 16. B011700300040 32. 13.7 633. 19. B011700300041 32.7 14. 625. 16. B011700300042 33.8 14.5 670. 13. B011700300043 34.8 14.9 652. 17. B011700300044 35. 15. 657. 1. B011700300045 35.7 15.3 705. 13. B011700300046 36.9 15.8 780. 17. B011700300047 37.8 16.2 882. 24. B011700300048 39. 16.7 914. 24. B011700300049 40. 17.1 930. 24. B011700300050 40.8 17.5 941. 23. B011700300051 41.8 17.9 981. 24. B011700300052 42.7 18.3 1040. 24. B011700300053 43.9 18.8 1010. 25. B011700300054 44.8 19.2 1100. 29. B011700300055 45.7 19.6 1130. 29. B011700300056 46.7 20. 1220. 28. B011700300057 47.1 20.2 1230. 29. B011700300058 47.8 20.5 1250. 31. B011700300059 48.3 20.7 1310. 35. B011700300060 48.8 20.9 1290. 29. B011700300061 49. 21. 1297. 1. B011700300062 49.2 21.1 1260. 35. B011700300063 49.7 21.3 1220. 27. B011700300064 50.4 21.6 1270. 34. B011700300065 50.6 21.7 1240. 31. B011700300066 51.3 22. 1310. 34. B011700300067 51.8 22.2 1260. 29. B011700300068 52.3 22.4 1300. 31. B011700300069 52.7 22.6 1260. 31. B011700300070 53.9 23.1 1320. 31. B011700300071 55.8 23.9 1420. 40. B011700300072 57.9 24.8 1510. 35. B011700300073 59.7 25.6 1500. 38. B011700300074 61.8 26.5 1600. 32. B011700300075 62. 26.6 1601. 1. B011700300076 63.7 27.3 1680. 42. B011700300077 ENDDATA 41 0 B011700300078 ENDSUBENT 77 0 B011700399999 SUBENT B0117004 20011220 0000B011700400001 BIB 5 20 B011700400002 REACTION (6-C-12(8-O-16,X)ELEM,,SIG,,,EXP) B011700400003 The Given Cross Sections Contain Contributions from B011700400004 Several Isotopes of the Specified Element. B011700400005 DETECTOR (TELES,SOLST,IOCH) B011700400006 Counter Telescope Similar to One Described by B011700400007 M.Fowler and R.Jared, Nucl.Inst.Meth.124,341(1975). B011700400008 A Gas Ionization Chamber Provides the De/Dx Signal B011700400009 And a Silicon Surface-Barrier Detector is Mounted B011700400010 Inside the Gas Volume to Give the E-Signal.The B011700400011 Thickness of the Single Window was 50 Microgram/Cm**2, B011700400012 The Density of Gas (10% METHANE AND 90% AR) Was About B011700400013 0.5 Mg/Cm**2 Along the Flight Path. B011700400014 METHOD (SITA,EDE,EXTB,MOMIX) B011700400015 The Angular Distributions of the Evaporation B011700400016 Residues were Measured from 3 Degrees to 30 Degrees B011700400017 In Steps of 1 Degree to 3 Degrees at Laboratory B011700400018 Energies of 35, 49 and 62 MeV. B011700400019 ANALYSIS (INTAD,INTED) B011700400020 ERR-ANALYS (DATA-ERR) Absolute Cross Sections have an Estimated B011700400021 Uncertainty of 7%. B011700400022 ENDBIB 20 0 B011700400023 COMMON 1 3 B011700400024 DATA-ERR B011700400025 PER-CENT B011700400026 7. B011700400027 ENDCOMMON 3 0 B011700400028 DATA 4 15 B011700400029 EN MISC ELEMENT DATA B011700400030 MEV MEV NO-DIM MB B011700400031 35. 15. 10. 221. B011700400032 35. 15. 11. 150. B011700400033 35. 15. 12. 164. B011700400034 35. 15. 13. 220. B011700400035 35. 15. 14. 10. B011700400036 49. 21. 10. 380. B011700400037 49. 21. 11. 239. B011700400038 49. 21. 12. 188. B011700400039 49. 21. 13. 141. B011700400040 49. 21. 14. 5. B011700400041 62. 26.6 10. 323. B011700400042 62. 26.6 11. 254. B011700400043 62. 26.6 12. 222. B011700400044 62. 26.6 13. 72. B011700400045 62. 26.6 14. 5. B011700400046 ENDDATA 17 0 B011700400047 ENDSUBENT 46 0 B011700499999 ENDENTRY 4 0 B011799999999