ENTRY D4054 20160518 D104D405400000001 SUBENT D4054001 20160518 D104D405400100001 BIB 12 51 D405400100002 TITLE Activation cross sections for deuteron-induced D405400100003 reactions on some elements of the first transition D405400100004 series, up to 5.5 MeV D405400100005 AUTHOR (P.P.Coetzee, M.Peisach) D405400100006 INSTITUTE (3SAFSUN) D405400100007 REFERENCE (J,RCA,17,1,1972) D405400100008 FACILITY (VDG,3SAFSUN) D405400100009 SAMPLE targets of natural composition were electroplated on D405400100010 tantalum backing 0.4-1.0 mg/cm2 thick. Enriched targetsD405400100011 were prepared when was necessary. D405400100012 the uniformity of the targets was checked by D405400100013 autoradiography after irradiation of the targets. D405400100014 METHOD (ACTIV,EDEG,GSPEC) D405400100015 5.5 MeV deuteron beams (0.5 And 1.2 Micro-a) D405400100016 were used for irradiation. Targets were placed on A D405400100017 rotating sample holder cooled by compressed air. D405400100018 aluminum foils were used to reduce the primary deuteronD405400100019 energy. The energy degradation was calculated accordingD405400100020 to C.F. Williamson et al. CEA-R-3042 1966. D405400100021 all the irradiations were performed for the same D405400100022 amount of charge to Be able to build up a relative D405400100023 cross section curve. A single sample was irradiated in D405400100024 faraday cup for absolute determination of the cross D405400100025 section to which point the cross section curve was D405400100026 normalised. D405400100027 NaI(Tl) scintillation and Ge(Li) detectors were used D405400100028 for gamma activity measurements. D405400100029 DETECTOR (NAICR) D405400100030 (GELI) D405400100031 ANALYSIS (AREA) D405400100032 ERR-ANALYS (DATA-ERR) Contribution from: D405400100033 (ERR-S,0.5,20.) relative precision of the peak area D405400100034 was less than 0.5% When high activities were measured, D405400100035 but reached up to 20% in the case of low activities. D405400100036 (ERR-1,,3.)the detector efficiency was less than 3%. D405400100037 the relative error of the target thickness was 2.5%. D405400100038 (ERR-2)the error of the beam current measured in D405400100039 faraday-cup was 1.5%. D405400100040 every cross section was considered as a separate D405400100041 determination and each error value is the root mean D405400100042 square error calculated from all the relevant D405400100043 experimental conditions pertaining to the measurement. D405400100044 the uncertainty in the energy of the primary deuteron D405400100045 beam was +- 2.0 Kev D405400100046 STATUS (TABLE) data were taken from table 1. - 5. of D405400100047 Radiochimica Acta, vol. 17., pp. 1-6., 1972. D405400100048 HISTORY (19961114C) D405400100049 (19961129U) D405400100050 (20060730A) BIB section upgraded D405400100051 (20160513U) VS T1/2 corrected in 007. D405400100052 ERR-ANALYS modified. D405400100053 ENDBIB 51 0 D405400100054 NOCOMMON 0 0 D405400100055 ENDSUBENT 54 0 D405400199999 SUBENT D4054002 20060731 D048D405400200001 BIB 4 7 D405400200002 REACTION 1(24-CR-50(D,P)24-CR-51,,SIG) D405400200003 2(24-CR-50(D,A)23-V-48,,SIG) D405400200004 RAD-DET 1(24-CR-51,DG) D405400200005 2(23-V-48,DG) D405400200006 DECAY-DATA1(24-CR-51,,DG,319.) D405400200007 2(23-V-48,,DG,1311.7) D405400200008 SAMPLE encriched Cr-50 as Cr2O3 oxide D405400200009 ENDBIB 7 0 D405400200010 NOCOMMON 0 0 D405400200011 DATA 5 9 D405400200012 EN DATA 1DATA-ERR 1DATA 2DATA-ERR 2 D405400200013 MEV MB MB MB MB D405400200014 5.468 247.0 11. 7.1 0.4 D405400200015 4.847 180.0 9. 4.1 0.2 D405400200016 4.471 175.0 8. 3.4 0.4 D405400200017 3.959 139.0 6. 2.8 0.2 D405400200018 3.631 96.0 5. 1.34 0.13 D405400200019 3.091 30.9 2.5 0.42 0.03 D405400200020 2.939 24.7 2.0 0.37 0.07 D405400200021 2.674 13.6 1.0 0.12 0.04 D405400200022 2.349 7.1 0.4 0.06 0.02 D405400200023 ENDDATA 11 0 D405400200024 ENDSUBENT 23 0 D405400299999 SUBENT D4054003 20060731 D048D405400300001 BIB 3 3 D405400300002 REACTION (25-MN-55(D,P)25-MN-56,,SIG) D405400300003 RAD-DET (25-MN-56,DG) D405400300004 DECAY-DATA (25-MN-56,2.58HR,DG,846.9) D405400300005 ENDBIB 3 0 D405400300006 NOCOMMON 0 0 D405400300007 DATA 3 16 D405400300008 EN DATA DATA-ERR D405400300009 MEV MB MB D405400300010 5.471 208.0 10. D405400300011 5.469 209.0 10. D405400300012 5.191 174.0 9. D405400300013 4.897 142.0 7. D405400300014 4.868 153.0 10. D405400300015 4.589 125.0 6. D405400300016 4.462 140.0 7. D405400300017 4.267 91.0 4. D405400300018 3.925 83.0 4. D405400300019 3.863 86.0 5. D405400300020 3.575 40.0 2. D405400300021 3.449 52.0 3. D405400300022 3.184 28.0 1. D405400300023 2.762 12.8 0.6 D405400300024 2.451 6.4 0.6 D405400300025 2.284 3.6 0.2 D405400300026 ENDDATA 18 0 D405400300027 ENDSUBENT 26 0 D405400399999 SUBENT D4054004 20060731 D048D405400400001 BIB 3 3 D405400400002 REACTION (26-FE-54(D,N)27-CO-55,,SIG) D405400400003 RAD-DET (27-CO-55,DG) D405400400004 DECAY-DATA (27-CO-55,18.2HR,DG,933.) D405400400005 ENDBIB 3 0 D405400400006 NOCOMMON 0 0 D405400400007 DATA 3 9 D405400400008 EN DATA DATA-ERR D405400400009 MEV MB MB D405400400010 5.499 110.0 6. D405400400011 4.992 72.0 4. D405400400012 4.689 56.0 3. D405400400013 4.199 42.0 2. D405400400014 4.158 40.0 2. D405400400015 3.768 33.0 2. D405400400016 3.387 18.1 0.9 D405400400017 3.009 8.8 0.4 D405400400018 2.439 1.9 0.09 D405400400019 ENDDATA 11 0 D405400400020 ENDSUBENT 19 0 D405400499999 SUBENT D4054005 20060731 D048D405400500001 BIB 3 3 D405400500002 REACTION (28-NI-60(D,N)29-CU-61,,SIG) D405400500003 RAD-DET 1(29-CU-61,DG) D405400500004 DECAY-DATA1(29-CU-61,3.3HR,DG,284.) D405400500005 ENDBIB 3 0 D405400500006 NOCOMMON 0 0 D405400500007 DATA 3 6 D405400500008 EN DATA DATA-ERR D405400500009 MEV MB MB D405400500010 4.883 82. 4. D405400500011 4.564 50. 2. D405400500012 4.067 41. 2. D405400500013 3.703 30. 2. D405400500014 3.257 13. 2. D405400500015 2.763 5.7 0.3 D405400500016 ENDDATA 8 0 D405400500017 ENDSUBENT 16 0 D405400599999 SUBENT D4054006 20060731 D048D405400600001 BIB 4 7 D405400600002 REACTION (28-NI-58(D,N)29-CU-59,,SIG) D405400600003 RAD-DET (29-CU-59,DG) D405400600004 DECAY-DATA (29-CU-59,81.0SEC,DG,460.,, D405400600005 DG,872.,, D405400600006 DG,1305.) D405400600007 CORRECTION the peak area was corrected for decay during the D405400600008 counting period in the case of Cu-59. D405400600009 ENDBIB 7 0 D405400600010 NOCOMMON 0 0 D405400600011 DATA 3 6 D405400600012 EN DATA DATA-ERR D405400600013 MEV MB MB D405400600014 4.883 39. 2.0 D405400600015 4.564 28. 2.0 D405400600016 4.067 16.7 1.8 D405400600017 3.703 15.6 1.0 D405400600018 3.257 3.9 0.3 D405400600019 2.763 1.8 0.3 D405400600020 ENDDATA 8 0 D405400600021 ENDSUBENT 20 0 D405400699999 SUBENT D4054007 20160518 D104D405400700001 BIB 4 4 D405400700002 REACTION (30-ZN-64(D,N)31-GA-65,,SIG) D405400700003 RAD-DET (31-GA-65,DG) D405400700004 DECAY-DATA (31-GA-65,15.2MIN,DG,933.0) D405400700005 HISTORY (20160513U) VS T1/2 corrected. D405400700006 ENDBIB 4 0 D405400700007 COMMON 1 3 D405400700008 ERR-2 D405400700009 PER-CENT D405400700010 1.5 D405400700011 ENDCOMMON 3 0 D405400700012 DATA 3 5 D405400700013 EN DATA DATA-ERR D405400700014 MEV MB MB D405400700015 4.894 64.0 3. D405400700016 4.483 37.0 2. D405400700017 3.955 20.1 1.1 D405400700018 2.949 3.1 0.2 D405400700019 2.345 0.39 0.03 D405400700020 ENDDATA 7 0 D405400700021 ENDSUBENT 20 0 D405400799999 ENDENTRY 7 0 D405499999999