ENTRY D4390 20180926 D118D439000000001 SUBENT D4390001 20180926 D118D439000100001 BIB 13 43 D439000100002 TITLE Activation cross section data for alpha-particle D439000100003 induced nuclear reactions on natural vanadium for D439000100004 practical applications D439000100005 AUTHOR (B.M.Ali,M.Al-Abyad,U.Seddik,S.U.El-Kameesy,F.Ditroi, D439000100006 S.Takacs,F.Tarkanyi) D439000100007 INSTITUTE (3EGYCAI,3EGYASM,3HUNDEB) D439000100008 REFERENCE (J,PRM,90,41,2018) D439000100009 #doi:10.1007/s12043-018-1527-z D439000100010 FACILITY (CYCLO,3HUNDEB) D439000100011 SAMPLE High purity (99.98%) vanadium foil 8.41um. D439000100012 High purity Ti foil, 12um, for monitoring the beam. D439000100013 DETECTOR (HPGE) D439000100014 METHOD (ACTIV) Activation method was used to measure D439000100015 cross section. D439000100016 (GSPEC) HPGe detector based Gamma-spectrometry was D439000100017 used to measure the activity. D439000100018 (STTA) A stack of 7 V and 3 Ti foils was irradiated D439000100019 20MeV, 108nA alpha beam for 80 min. D439000100020 (EDEG)Energy degradation was calculated by using the D439000100021 SRIM-2013 code. Primary beam energy 20 MeV D439000100022 (EXTB)The irradiation was done on an extracted beam of D439000100023 the atomki cyclotron. D439000100024 The activities of the produced radionuclides were D439000100025 measured nondestructively without chemical separation. D439000100026 MONITOR (22-TI-0(A,X)24-CR-51,,SIG) D439000100027 MONIT-REF (,K.Gul+,R,IAEA-NDS-1211,2001) D439000100028 ERR-ANALYS (EN-ERR) The uncertainty of the primary beam energy D439000100029 was estimated as (+-0.2 MeV) which increased due to D439000100030 straggling effect continuously in each foil through theD439000100031 stack up 1.0 MeV. D439000100032 (ERR-T) Total given uncertainty of the cross section. D439000100033 (ERR-1)target thickness (5.0%) D439000100034 (ERR-2)incident charged particle flux (7%) D439000100035 (ERR-3)detector efficiency (7%) D439000100036 (ERR-4)decay parameters (3%) D439000100037 (ERR-S,1.0,12.0)statistical uncertainty (1.-12.%) D439000100038 Typical total uncertainty is between 12-17%. D439000100039 ADD-RES (COMP) The experimental results were compared to the D439000100040 result calculated by the TALYS-1.6, and D439000100041 EMPIRE-3.2 theoretical model codes. D439000100042 (TTY-C) Integral yields were calculated from the D439000100043 fitted experimental cross sections. D439000100044 HISTORY (20180926C) ST. D439000100045 ENDBIB 43 0 D439000100046 COMMON 4 3 D439000100047 ERR-1 ERR-2 ERR-3 ERR-4 D439000100048 PER-CENT PER-CENT PER-CENT PER-CENT D439000100049 5. 7. 7. 3. D439000100050 ENDCOMMON 3 0 D439000100051 ENDSUBENT 50 0 D439000199999 SUBENT D4390002 20180926 D118D439000200001 BIB 4 4 D439000200002 REACTION (23-V-51(A,N)25-MN-54,,SIG) D439000200003 SAMPLE (23-V-51,NAT=0.9975) D439000200004 DECAY-DATA (25-MN-54,312.2D,DG,834.8,0.99976) D439000200005 STATUS (TABLE) Table 2. of the reference D439000200006 ENDBIB 4 0 D439000200007 NOCOMMON 0 0 D439000200008 DATA 4 8 D439000200009 EN EN-ERR DATA ERR-T D439000200010 MEV MEV MB MB D439000200011 19.5 0.3 196. 24. D439000200012 17.3 0.4 363. 42. D439000200013 16.2 0.4 488. 57. D439000200014 15.0 0.5 626. 73. D439000200015 12.3 0.6 623. 72. D439000200016 10.8 0.7 505. 58. D439000200017 7.2 0.9 42. 5. D439000200018 4.9 1.0 3. 0.5 D439000200019 ENDDATA 10 0 D439000200020 ENDSUBENT 19 0 D439000299999 SUBENT D4390003 20180926 D118D439000300001 BIB 4 6 D439000300002 REACTION (23-V-50(A,2N)25-MN-52-G,M+,SIG) D439000300003 SAMPLE (23-V-50,NAT=0.0025) D439000300004 DECAY-DATA (25-MN-52-G,5.6D,DG,744.2,0.90, D439000300005 DG,935.5,0.945, D439000300006 DG,1434.1,1.0) D439000300007 STATUS (TABLE) Table 2. of the reference D439000300008 ENDBIB 6 0 D439000300009 NOCOMMON 0 0 D439000300010 DATA 4 4 D439000300011 EN EN-ERR DATA ERR-T D439000300012 MEV MEV MB MB D439000300013 19.5 0.3 378. 55. D439000300014 17.3 0.4 251. 40. D439000300015 16.2 0.4 180. 28. D439000300016 15.0 0.5 78. 13. D439000300017 ENDDATA 6 0 D439000300018 ENDSUBENT 17 0 D439000399999 ENDENTRY 3 0 D439099999999