ENTRY D0547 20220314 D136D054700000001 SUBENT D0547001 20220314 D136D054700100001 BIB 13 60 D054700100002 TITLE Study of the excitation function for the deuteron D054700100003 induced reaction on 64Ni(d,2n) for the production of D054700100004 the medical radioisotope 64Cu D054700100005 AUTHOR (L.Daraban, R.Adam Rebeles, A.Hermanne) D054700100006 INSTITUTE (3RUMBBU,2BLGVUB) D054700100007 REFERENCE (J,ARI,67,506,2009) D054700100008 FACILITY (CYCLO,2BLGVUB) External beam of VUB-Cyclotron CGR-560 D054700100009 SAMPLE Two stacks each containing 8 foils of enriched 64Ni D054700100010 obtained from Isoflex USA). D054700100011 The nickel targets were prepared in 2 series by D054700100012 electrodeposition of enriched 64Ni on Au backing D054700100013 (99.95%) and were respectively 23.57 um and 24 um D054700100014 thick. D054700100015 (28-NI-64,ENR=0.961) D054700100016 (28-NI-58,ENR=0.0195) D054700100017 (28-NI-60,ENR=0.0131) D054700100018 (28-NI-61,ENR=0.0013) D054700100019 (28-NI-62,ENR=0.0051) D054700100020 MONITOR (22-TI-0(D,X)23-V-48,,SIG) D054700100021 Monitor foils (12 um thick natTi, 99% purity) were D054700100022 interleaved with the targets and one 100 um thick Al D054700100023 degrader foil was inserted in front of the first Ni D054700100024 foil in the second stack. D054700100025 The foils were stacked together in the Faraday-cup D054700100026 target holder. D054700100027 MONIT-REF (,F.Tarkanyi+,R,IAEA-TECDOC-1211,2001) Chapter 4 D054700100028 The initial beam parameters were estimated from the D054700100029 accelerator settings and from current beam D054700100030 measurements by taking into account the remeasured D054700100031 cross section for the monitor reaction natTi(d,x)48V D054700100032 over the whole energy range and comparison with the D054700100033 recommended data in IAEA-TECDOC (Tarkanyi et al.,2001)D054700100034 corrections were introduced. D054700100035 DETECTOR (HPGE) Production of 64Cu was assessed shortly after D054700100036 the end of the bombardment (EOB) based on the weak D054700100037 gamma-line of 1345.84 keV with an intensity of 0.473%,D054700100038 using an HPGe detector coupled with the D054700100039 acquisition/analysis software GENIE 2000 D054700100040 (CANBERRA,USA). D054700100041 METHOD (STTA,EXTB) D054700100042 ERR-ANALYS (ERR-T) The total uncertainty of the cross-section D054700100043 values was evaluated to approximately 10-12%. D054700100044 The uncertainty on each cross-section was D054700100045 estimated by taking the square root of the sum of all D054700100046 individual contributions into quadrature: D054700100047 (ERR-1) absolute abundance of the gamma-ray from NUDAT2D054700100048 (5%)D054700100049 (ERR-2) number of target nuclei including non- D054700100050 uniformity (5%)D054700100051 (ERR-3) detector efficiency (5%)D054700100052 (ERR-4) incident particle intensity (5%)D054700100053 (ERR-5,2.,8.) determination of the peak areas D054700100054 including statistical errors (2-8%)D054700100055 STATUS (TABLE) Data from the Tbl.1 and text on pp.508-509 D054700100056 of the Appl.Rad.Isot.,67(2009)506 D054700100057 HISTORY (20090102C) SD D054700100058 (20120502U) On. DECAY-MON deleted D054700100059 (20190821A) SD: REACTION code updated according to new D054700100060 EXFOR rules in Subent 004. D054700100061 (20220314A) VT, Revision in 003 D054700100062 ENDBIB 60 0 D054700100063 COMMON 4 3 D054700100064 ERR-1 ERR-2 ERR-3 ERR-4 D054700100065 PER-CENT PER-CENT PER-CENT PER-CENT D054700100066 5.0 5.0 5.0 5.0 D054700100067 ENDCOMMON 3 0 D054700100068 ENDSUBENT 67 0 D054700199999 SUBENT D0547002 20081207 D065D054700200001 BIB 2 2 D054700200002 REACTION (28-NI-64(D,P)28-NI-65,,SIG) D054700200003 DECAY-DATA (28-NI-65,2.5HR,DG,1115.,0.154,DG,1484.,0.236) D054700200004 ENDBIB 2 0 D054700200005 NOCOMMON 0 0 D054700200006 DATA 4 12 D054700200007 EN EN-ERR DATA ERR-T D054700200008 MEV MEV MB MB D054700200009 19.6 0.3 86. 8.6 D054700200010 17.8 0.3 102. 10.3 D054700200011 16.02 0.3 120. 12.1 D054700200012 15.2 0.4 134. 13.6 D054700200013 14.02 0.4 128. 13.0 D054700200014 13.1 0.4 164. 16.5 D054700200015 11.8 0.5 173. 17.5 D054700200016 10.8 0.5 206. 20.8 D054700200017 9.2 0.6 222. 22.4 D054700200018 8.1 0.6 231. 23.3 D054700200019 6.2 0.8 68. 6.8 D054700200020 4.7 1.1 64. 6.5 D054700200021 ENDDATA 14 0 D054700200022 ENDSUBENT 21 0 D054700299999 SUBENT D0547003 20220314 D136D054700300001 BIB 3 4 D054700300002 REACTION (28-NI-64(D,2N)29-CU-64,,SIG) D054700300003 DECAY-DATA (29-CU-64,12.7HR,DG,1345.84,0.00473) D054700300004 HISTORY (20220314A) VT, DECAY-DATA: radiation fields replaced D054700300005 with DG,1345.84,0.00473 D054700300006 ENDBIB 4 0 D054700300007 NOCOMMON 0 0 D054700300008 DATA 4 11 D054700300009 EN EN-ERR DATA ERR-T D054700300010 MEV MEV MB MB D054700300011 19.6 0.3 664. 66.3 D054700300012 17.8 0.3 800. 80.7 D054700300013 16.02 0.3 908. 91.7 D054700300014 15.2 0.4 923. 93.2 D054700300015 14.02 0.4 955. 97.4 D054700300016 13.1 0.4 905. 91.3 D054700300017 11.8 0.5 883. 90.0 D054700300018 10.8 0.5 762. 76.9 D054700300019 9.2 0.6 644. 65.4 D054700300020 8.1 0.6 365. 36.8 D054700300021 6.2 0.8 145. 14.7 D054700300022 ENDDATA 13 0 D054700300023 ENDSUBENT 22 0 D054700399999 SUBENT D0547004 20190821 D121D054700400001 BIB 4 7 D054700400002 REACTION (28-NI-64(D,2N)29-CU-64,,TTY,,(PHY),DERIV) D054700400003 ANALYSIS (INTEF) Calculated from a fit to author's new data D054700400004 points D054700400005 STATUS (DEP,D0547003) Excitation function D054700400006 HISTORY (20190821A) SD: SF8=DT -> (PHY); SF9=DERIV added to D054700400007 REACTION code. ANALYSIS added. D054700400008 On. DECAY-DATA deleted. STATUS=DEP added. D054700400009 ENDBIB 7 0 D054700400010 NOCOMMON 0 0 D054700400011 DATA 3 2 D054700400012 EN-MIN EN-MAX DATA D054700400013 MEV MEV MBQ/MUAHR D054700400014 9.0 20.5 844. D054700400015 15.0 19.0 332. D054700400016 ENDDATA 4 0 D054700400017 ENDSUBENT 16 0 D054700499999 ENDENTRY 4 0 D054799999999