ENTRY D4345 20160513 D104D434500000001 SUBENT D4345001 20160513 D104D434500100001 BIB 13 45 D434500100002 TITLE Experimental investigation and theoretical calculation D434500100003 for 3He induced nuclear reactions on vanadium D434500100004 AUTHOR (B.M.Ali,M.Al-Abyad,U.Seddik,S.U.El-Kameesy,F.Ditroi, D434500100005 S.Takacs,F.Tarkanyi) D434500100006 INSTITUTE (3EGYCAI,3EGYCAI,3HUNDEB) D434500100007 REFERENCE (J,NIM/B,373,76,2016) D434500100008 #doi:10.1016/j.nimb.2016.03.011 D434500100009 FACILITY (CYCLO,3HUNDEB) D434500100010 SAMPLE High purity metallic V foil of 8.41 um thick. D434500100011 DETECTOR (HPGE) D434500100012 METHOD (ACTIV) Cross sections were measured by using charged D434500100013 particle activation method. D434500100014 (GSPEC) Activity measurement of the reaction products D434500100015 was done by Gamma-spectrometry based on HPGe detectors.D434500100016 (STTA)A stacked foils targets was irradiated with D434500100017 3He beam of 26.7 MeV and 100nA for 1 h. D434500100018 One stack contained Ti the other one Cu monitor foils. D434500100019 (EDEG)Energy degradation was calculated by using the D434500100020 polynomial approximation of Andersen ad Ziegler. D434500100021 (EXTB)The irradiation was done on an extracted beam of D434500100022 the ATOMKI cyclotron. D434500100023 The activities of the produced radionuclides were D434500100024 measured nondestructively without chemical separation. D434500100025 The energy degradation as a function of depth in the D434500100026 stack was calculated from the input energy and target D434500100027 thicknesses. D434500100028 MONITOR (22-TI-0(HE3,X)23-V-48,,SIG) D434500100029 MONIT-REF (,K.Gul+,R,IAEA-TECDOC-1211,2001) Chapter 4 D434500100030 ERR-ANALYS (EN-ERR) The uncertainty of the primary beam energy D434500100031 was estimated as (+-0.3 MeV) which increased due to D434500100032 straggling effect continuously in each foil through theD434500100033 stack up 1.4 MeV. D434500100034 (ERR-T) D434500100035 Typical total uncertainty is between 12%. D434500100036 (ERR-1)number of bombarding particles(7%) D434500100037 (ERR-2)surface density of target atoms(5%) D434500100038 (ERR-3)detector efficiency (7%) D434500100039 (ERR-4)nuclear decay and branching data(3%) D434500100040 (ERR-S)statistical and peak fitting (3%) D434500100041 ADD-RES (THEO) The experimental results were compared to the D434500100042 result calculated by the TENDL and EMPIRE theoretical D434500100043 model codes. D434500100044 (TTY-C) Integral yields were calculated from the D434500100045 fitted experimental cross sections. D434500100046 HISTORY (20160513C) ts. D434500100047 ENDBIB 45 0 D434500100048 COMMON 5 3 D434500100049 ERR-1 ERR-2 ERR-3 ERR-4 ERR-S D434500100050 PER-CENT PER-CENT PER-CENT PER-CENT PER-CENT D434500100051 7. 5. 7. 3. 3. D434500100052 ENDCOMMON 3 0 D434500100053 ENDSUBENT 52 0 D434500199999 SUBENT D4345002 20160513 D104D434500200001 BIB 3 6 D434500200002 REACTION (23-V-0(HE3,X)25-MN-52-G,M+,SIG) D434500200003 DECAY-DATA (25-MN-52-G,5.6D,DG,744.2,0.90,DG,935.5,0.945, D434500200004 DG,1434.1,1.0) D434500200005 Includes 1.7% decay contribution of the metastable D434500200006 state. D434500200007 STATUS (TABLE) Table 2. of the article D434500200008 ENDBIB 6 0 D434500200009 NOCOMMON 0 0 D434500200010 DATA 4 15 D434500200011 EN EN-ERR DATA ERR-T D434500200012 MEV MEV MB MB D434500200013 26.7 0.3 38. 5. D434500200014 25.3 0.4 50. 6. D434500200015 24.6 0.4 56. 6. D434500200016 23.9 0.4 67. 7. D434500200017 22.4 0.5 79. 9. D434500200018 21.6 0.5 89. 12. D434500200019 20.0 0.6 110. 12. D434500200020 19.2 0.6 130. 14. D434500200021 17.4 0.7 150. 16. D434500200022 16.5 0.8 149. 16. D434500200023 15.5 0.8 165. 18. D434500200024 13.4 0.9 134. 15. D434500200025 12.3 0.9 111. 12. D434500200026 9.7 1.0 46. 5. D434500200027 8.3 1.0 16. 2. D434500200028 ENDDATA 17 0 D434500200029 ENDSUBENT 28 0 D434500299999 SUBENT D4345003 20160513 D104D434500300001 BIB 3 3 D434500300002 REACTION (23-V-0(HE3,X)25-MN-52-M,,SIG) D434500300003 DECAY-DATA (25-MN-52-M,22.1MIN,DG,1434.1,0.983) D434500300004 STATUS (TABLE) Table 2. of the article D434500300005 ENDBIB 3 0 D434500300006 NOCOMMON 0 0 D434500300007 DATA 4 6 D434500300008 EN EN-ERR DATA ERR-T D434500300009 MEV MEV MB MB D434500300010 26.7 0.3 15. 2. D434500300011 25.3 0.4 21. 2. D434500300012 24.6 0.4 21. 2. D434500300013 23.9 0.4 23. 3. D434500300014 22.4 0.5 32. 4. D434500300015 21.6 0.5 33. 4. D434500300016 ENDDATA 8 0 D434500300017 ENDSUBENT 16 0 D434500399999 SUBENT D4345004 20160513 D104D434500400001 BIB 3 3 D434500400002 REACTION (23-V-0(HE3,X)25-MN-51,,SIG) D434500400003 DECAY-DATA (25-MN-51,46.2MIN,DG,749.,0.0027) D434500400004 STATUS (TABLE) Table 2. of the article D434500400005 ENDBIB 3 0 D434500400006 NOCOMMON 0 0 D434500400007 DATA 4 4 D434500400008 EN EN-ERR DATA ERR-T D434500400009 MEV MEV MB MB D434500400010 26.7 0.3 100. 38. D434500400011 25.3 0.4 59. 19. D434500400012 24.6 0.4 25. 17. D434500400013 23.9 0.4 31. 20. D434500400014 ENDDATA 6 0 D434500400015 ENDSUBENT 14 0 D434500499999 SUBENT D4345005 20160513 D104D434500500001 BIB 3 3 D434500500002 REACTION (23-V-0(HE3,X)24-CR-51,CUM,SIG) D434500500003 DECAY-DATA (24-CR-51,27.7D,DG,320.08,0.0991) D434500500004 STATUS (TABLE) Table 2. of the article D434500500005 ENDBIB 3 0 D434500500006 NOCOMMON 0 0 D434500500007 DATA 4 14 D434500500008 EN EN-ERR DATA ERR-T D434500500009 MEV MEV MB MB D434500500010 26.7 0.3 714. 78. D434500500011 25.3 0.4 718. 78. D434500500012 24.6 0.4 677. 75. D434500500013 23.9 0.4 698. 77. D434500500014 22.4 0.5 550. 60. D434500500015 21.6 0.5 500. 56. D434500500016 20.0 0.6 362. 41. D434500500017 19.2 0.6 324. 37. D434500500018 17.4 0.7 173. 21. D434500500019 16.5 0.8 115. 16. D434500500020 15.5 0.8 75. 9. D434500500021 13.4 0.9 18. 2. D434500500022 12.3 0.9 8. 1. D434500500023 9.7 1.0 2. 1. D434500500024 ENDDATA 16 0 D434500500025 ENDSUBENT 24 0 D434500599999 ENDENTRY 5 0 D434599999999