ENTRY A0638 20220321 A099A063800000001 SUBENT A0638001 20220321 A099A063800100001 BIB 13 36 A063800100002 TITLE Astrophysical S(E) factor of 10-B(p,alpha1,)7-Be at lowA063800100003 energies A063800100004 AUTHOR (C.Angulo, W.H.Schulte, D.Zahnow, G.Raimann, C.Rolfs) A063800100005 INSTITUTE (2GERBOC) Institut fuer physik mit Ionenstrahlen, A063800100006 Ruhr-universitat A063800100007 REFERENCE (J,ZP/A,345,333,1993) A063800100008 REL-REF (M,A0636002,C.Angulo+,J,ZP/A,345,231,1993) Cross A063800100009 section of 10-B(p,alpha0). The formalism employed in A063800100010 the data analysis. A063800100011 (M,,S.Wuestenbecker+,J,NIM/A,279,448,1989) Details of A063800100012 used equipment. A063800100013 SAMPLE Thick boron films (93% enriched in 10-B) evaporated on A063800100014 Ta backings were used as targets. A063800100015 DETECTOR (GELI) A063800100016 FACILITY (CCW,2GERMST) The 400-KeV accelerator provided H1+ and A063800100017 H2+ beams at energies E-Lab=50 to 177 keV. A063800100018 METHOD (SITA) A063800100019 (BCINT) A063800100020 ERR-ANALYS (ERR-1) Errors quoted arise from uncertainties in A063800100021 number of counts, effective energy, and target A063800100022 deterioration. A063800100023 (ERR-2) Common error due to uncertainties in proton A063800100024 fluence (3%), detector efficiency (10%) and effective A063800100025 stopping power (5%). A063800100026 COMMENT - By authors - 1. Effective energy (EN-CM) in data A063800100027 sections corresponds to that energy within the target, A063800100028 at which one-half of the reaction yield is obtained. A063800100029 2. Firstly, the absolute cross sections for the A063800100030 reaction 10-B(p,alpha0)7-Be were determined and A063800100031 compared to A0636002 data. The result were found to be A063800100032 in good agreement within experimental errors. A063800100033 STATUS (TABLE) Tbl.1 from Zeitsch.Phys.A345(1993)333 A063800100034 HISTORY (19990609C) By F.Ch. A063800100035 (20041007A) Corrections for new rules. A063800100036 (20041216U) Last checking has been done. A063800100037 (20220321A) SD: Correction in Subent 002. A063800100038 ENDBIB 36 0 A063800100039 COMMON 1 3 A063800100040 ERR-2 A063800100041 PER-CENT A063800100042 12. A063800100043 ENDCOMMON 3 0 A063800100044 ENDSUBENT 43 0 A063800199999 SUBENT A0638002 20220321 A099A063800200001 BIB 4 5 A063800200002 REACTION (5-B-10(P,A)4-BE-7,PAR,SIG,,SFC) A063800200003 PART-DET (G) A063800200004 COMMENT - By author. Data in data-section are deduced from A063800200005 simulated thin target yield. See A0636001. A063800200006 HISTORY (20220321A) SD: E-LVL=479. MeV -> 429. keV. A063800200007 ENDBIB 5 0 A063800200008 COMMON 1 3 A063800200009 E-LVL A063800200010 KEV A063800200011 429. A063800200012 ENDCOMMON 3 0 A063800200013 DATA 3 32 A063800200014 EN-CM DATA ERR-1 A063800200015 KEV MB*MEV MB*MEV A063800200016 48.06 228. 57. A063800200017 52.59 293. 39. A063800200018 57.12 212. 32. A063800200019 61.65 187. 25. A063800200020 66.18 164. 27. A063800200021 70.72 156. 25. A063800200022 75. 137. 26. A063800200023 75.2 114. 9. A063800200024 84.64 150. 24. A063800200025 87.8 93. 11. A063800200026 89.38 79. 17. A063800200027 94.36 97. 19. A063800200028 97.02 84. 10. A063800200029 98.98 96. 19. A063800200030 103.6 86. 19. A063800200031 108.2 75. 19. A063800200032 110.9 65. 4. A063800200033 112.8 74. 18. A063800200034 117.4 61. 18. A063800200035 122. 84. 19. A063800200036 124.2 52. 7. A063800200037 126.7 49. 19. A063800200038 131.2 60. 19. A063800200039 133.9 45. 7. A063800200040 135.9 45. 18. A063800200041 140.6 58. 18. A063800200042 143.1 38. 7. A063800200043 145.2 35. 18. A063800200044 149.8 39. 17. A063800200045 152.4 33. 7. A063800200046 154.4 34. 17. A063800200047 159. 50. 17. A063800200048 ENDDATA 34 0 A063800200049 ENDSUBENT 48 0 A063800299999 ENDENTRY 2 0 A063899999999