ENTRY L0250 20190521 L042L025000000001 SUBENT L0250001 20190521 L042L025000100001 BIB 12 24 L025000100002 TITLE Nine MeV bremsstrahlung fission of 238U L025000100003 AUTHOR (W.D.James,D.E.Adams,R.A.Sigg,J.T.Harvey,J.L.Meason, L025000100004 J.N.Beck, P.K.Kuroda,H.L.Wright,J.C.Hogan) L025000100005 INSTITUTE (1USAARK,1USAWSA) L025000100006 REFERENCE (J,JIN,38,1109,1976) L025000100007 #doi:10.1016/0022-1902(76)80230-8 L025000100008 #NSR: 1976JA08 L025000100009 FACILITY (LINAC,1USAWSA) The White Sands Missile Range Linear L025000100010 Electron Accelerator L025000100011 INC-SOURCE (BRST) L025000100012 SAMPLE (92-U-238,ENR=0.99989) L025000100013 (92-U-235,ENR=0.00011) L025000100014 Between 10 to 20 g of the depleted uranium was used in L025000100015 the form of the diuranate. L025000100016 METHOD (CHSEP) The radiochemical procedures and beta counting L025000100017 methods used. L025000100018 ASSUMED (ASSUM,92-U-238(G,F)42-MO-99,CUM,FY,,BRA) L025000100019 The fission yields were calculated relative to an L025000100020 assumed value of 6.00% for 99Mo. The resulting data L025000100021 were then renormalized by making the area under the L025000100022 fission mass yield curve equal 200%. L025000100023 REL-REF (I,13332001,D.E.Adams+,J,JIN,37,419,1975) L025000100024 ERR-ANALYS (DATA-ERR) No information on sources of uncertainties L025000100025 HISTORY (20190520C) OG. L025000100026 ENDBIB 24 0 L025000100027 COMMON 3 3 L025000100028 EN-MAX EN-ERR ASSUM L025000100029 MEV MEV PC/FIS L025000100030 9. 1. 6.00 L025000100031 ENDCOMMON 3 0 L025000100032 ENDSUBENT 31 0 L025000199999 SUBENT L0250002 20190521 L042L025000200001 BIB 4 26 L025000200002 REACTION (92-U-238(G,F)ELEM/MASS,CUM,FY,,BRA) L025000200003 DECAY-DATA ((1.)35-BR-83,2.4HR) L025000200004 ((2.)38-SR-89,50.5D) L025000200005 ((3.)39-Y-91-G,58.6D) L025000200006 ((4.)39-Y-93-G,10.2HR) L025000200007 ((5.)40-ZR-97,16.8HR) L025000200008 ((6.)42-MO-99,66.0HR) L025000200009 ((7.)45-RH-105-G,35.5HR) L025000200010 ((8.)47-AG-113-G,5.3HR) L025000200011 ((9.)48-CD-115-G,53.5HR) L025000200012 ((10.)48-CD-117-M,3.4HR) L025000200013 ((11.)51-SB-127,3.8D) L025000200014 ((12.)52-TE-132,78.HR) L025000200015 ((13.)53-I-133-G,20.8HR) L025000200016 ((14.)56-BA-140,12.8D) L025000200017 ((15.)58-CE-141,32.5D) L025000200018 ((16.)58-CE-143,33.0HR) L025000200019 ((17.)59-PR-145,5.98HR) L025000200020 ((18.)60-ND-147,10.99D) L025000200021 ((19.)61-PM-149,53.1HR) L025000200022 ((20.)61-PM-151,28.4HR) L025000200023 ((21.)62-SM-153,46.5HR) L025000200024 COMMENT Authors call their data chain yields but compiler L025000200025 believes these data are better described as cumulative L025000200026 yields of the given products. L025000200027 STATUS (TABLE) Table 1 in Inorg. and Nucl.Chem.,38,1109,1976 L025000200028 ENDBIB 26 0 L025000200029 NOCOMMON 0 0 L025000200030 DATA 6 21 L025000200031 MASS ELEMENT ISOMER DATA DATA-ERR DECAY-FLAG L025000200032 NO-DIM NO-DIM NO-DIM PC/FIS PC/FIS NO-DIM L025000200033 89. 35. 0.26 0.05 1. L025000200034 89. 38. 2.96 0.45 2. L025000200035 91. 39. 0.0 5.02 0.55 3. L025000200036 93. 39. 0.0 6.52 0.72 4. L025000200037 97. 40. 5.85 0.45 5. L025000200038 99. 42. 4.65 0.40 6. L025000200039 105. 45. 2.14 0.34 7. L025000200040 113. 47. 0.0 0.082 0.018 8. L025000200041 115. 48. 0.0 0.024 0.006 9. L025000200042 117. 48. 1.0 0.018 0.006 10. L025000200043 127. 51. 0.16 0.05 11. L025000200044 132. 52. 4.75 0.65 12. L025000200045 133. 53. 0.0 7.14 0.56 13. L025000200046 140. 56. 5.60 0.60 14. L025000200047 141. 58. 6.80 0.75 15. L025000200048 143. 58. 2.50 0.45 16. L025000200049 145. 59. 3.87 0.48 17. L025000200050 147. 60. 3.38 0.44 18. L025000200051 149. 61. 1.78 0.36 19. L025000200052 151. 61. 0.69 0.15 20. L025000200053 153. 62. 0.55 0.11 21. L025000200054 ENDDATA 23 0 L025000200055 ENDSUBENT 54 0 L025000299999 ENDENTRY 2 0 L025099999999