ENTRY D0693 20121008 D086D069300000001 SUBENT D0693001 20121008 D086D069300100001 BIB 12 22 D069300100002 TITLE Excitation function for the 109Ag(d,2n)109Cd D069300100003 reaction D069300100004 AUTHOR (H.F.Roehm, J.Steyn, W.L.Rautenbach, C.J.Verwey) D069300100005 INSTITUTE (3SAFNLP) D069300100006 REFERENCE (J,JIN,32,1413,1970) D069300100007 METHOD (STTA,BCINT) D069300100008 (ACTIV) Irradiated sample was cooled for 35 days D069300100009 FACILITY (CYCLO,3SAFNLP) D069300100010 DETECTOR (GELI) 2 cm3 Ge(Li) detector D069300100011 SAMPLE (47-AG-109,NAT=0.4865) Natural silver foils, of D069300100012 thickness 0.001 in. rolled down to thicknesses D069300100013 varying between 2 and 5 mg/cm2. D069300100014 The aluminium catcher and degrader foils were of D069300100015 the same origin and had an average thickness of about D069300100016 3.3 mg/cm2. D069300100017 DECAY-DATA (48-CD-109,453.D,DG,88.) D069300100018 REL-REF (R,,C.M.Lederer+,B,LEDERER-6,,1967) D069300100019 Decay data D069300100020 (M,B0099001,H.F.Roehm+,J,JIN,31,3345,1969) D069300100021 STATUS (TABLE) Table 2 of J.Inorg.Nucl.Chem.32(1970)1413 D069300100022 HISTORY (20120716C) SB D069300100023 (20121008U) On. Finalized D069300100024 ENDBIB 22 0 D069300100025 NOCOMMON 0 0 D069300100026 ENDSUBENT 25 0 D069300199999 SUBENT D0693002 20121008 D086D069300200001 BIB 2 8 D069300200002 REACTION (47-AG-109(D,2N)48-CD-109,,SIG) D069300200003 ERR-ANALYS (DATA-ERR) The standard error associated in the D069300200004 vicinity of the maximum is estimated as about 1%. D069300200005 Combined with the estimated error of 2% in the D069300200006 radioactivity standardization and an error of about D069300200007 l% in the integrated beam measurement, an overall D069300200008 error of about 2.5% is estimated for the maximum D069300200009 cross section. D069300200010 ENDBIB 8 0 D069300200011 NOCOMMON 0 0 D069300200012 DATA 3 13 D069300200013 EN DATA DATA-ERR D069300200014 MEV MB MB D069300200015 5. 10. D069300200016 6. 80. D069300200017 7. 190. D069300200018 8. 345. D069300200019 9. 520. D069300200020 10. 670. D069300200021 11. 800. D069300200022 12. 890. D069300200023 13. 925. D069300200024 13.3 930. 23. D069300200025 14. 915. D069300200026 15. 860. D069300200027 16. 770. D069300200028 ENDDATA 15 0 D069300200029 ENDSUBENT 28 0 D069300299999 SUBENT D0693003 20121008 D086D069300300001 BIB 4 11 D069300300002 REACTION 1(47-AG-0(D,X)48-CD-109,,TTY,,PHY,DERIV) D069300300003 Yield calculated from excitation function D069300300004 2(47-AG-0(D,X)48-CD-109,,TTY,,PHY) D069300300005 Direct irradiation D069300300006 ANALYSIS 2Mean of 5.74 uCi/uA-hr (perpendicular irradiation) and D069300300007 5.59 uCi/uA-hr (6 deg irradiation) D069300300008 COMMENT G.F.Steyn (2012-10-10): D069300300009 It is a certainty that the "thick-target yields" D069300300010 presented are "physical yields", i.e. they have been D069300300011 corrected for decay losses. D069300300012 ERR-ANALYS (DATA-ERR) No information on source of uncertainties D069300300013 ENDBIB 11 0 D069300300014 NOCOMMON 0 0 D069300300015 DATA 5 11 D069300300016 EN DATA 1DATA 2+DATA-ERR 2-DATA-ERR 2 D069300300017 MEV MUCI/MUAHR MUCI/MUAHR MUCI/MUAHR MUCI/MUAHR D069300300018 6. 0.023 D069300300019 7. 0.102 D069300300020 8. 0.275 D069300300021 9. 0.587 D069300300022 10. 1.049 D069300300023 11. 1.657 D069300300024 12. 2.398 D069300300025 13. 3.238 D069300300026 14. 4.138 D069300300027 15. 5.050 D069300300028 16. 5.926 5.66 0.20 0.10 D069300300029 ENDDATA 13 0 D069300300030 ENDSUBENT 29 0 D069300399999 ENDENTRY 3 0 D069399999999