ENTRY D4350 20160518 D105D435000000001 SUBENT D4350001 20160518 D105D435000100001 BIB 13 50 D435000100002 TITLE Proton induced nuclear reactions on natural D435000100003 antimony up to 17 MeV D435000100004 AUTHOR (A.Elbinawi,M.Al-abyad,K.E.Abd-Elmageed,K.F.Hassan, D435000100005 F.Ditroi) D435000100006 INSTITUTE (3EGYCAI,3HUNDEB) D4350 1D435000100007 (3EGYEGY) Department of Physics, Faculty of Science, D435000100008 Benha University, Egypt D435000100009 REFERENCE (J,RCA,104,221,2016) D435000100010 #doi:10.1515/ract-2015-2483 D435000100011 FACILITY (CYCLO,3HUNDEB) D435000100012 SAMPLE High purity metalic Sb powder sedimented onto Al D435000100013 backing foil of 25 um thick. Covered by 10 um Al foil. D435000100014 DETECTOR (HPGE) D435000100015 METHOD (ACTIV) Cross sections were measured by using charged D435000100016 particle activation method. D435000100017 (GSPEC) Activity measurement of the reaction products D435000100018 was done by Gamma-spectrometry based on HPGe detectors.D435000100019 (STTA)A stacked foils targets was irradiated with D435000100020 Proton beams of 17 MeV, 150 nA. D435000100021 Two stacks, 5-5 Sb samples and Cu monitor foils, D435000100022 (EDEG)Energy degradation was calculated by using the D435000100023 polynomial approximation of Andersen ad Ziegler. D435000100024 (EXTB)The irradiation was done on an extracted beam of D435000100025 the ATOMKI cyclotron. D435000100026 The activities of the produced radionuclides were D435000100027 measured nondestructively without chemical separation. D435000100028 The energy degradation as a function of depth in the D435000100029 stack was calculated from the input energy and target D435000100030 thicknesses. D435000100031 MONITOR (29-CU-0(P,X)30-ZN-62,,SIG) D435000100032 (29-CU-0(P,X)30-ZN-63,,SIG) D435000100033 (29-CU-0(P,X)30-ZN-65,,SIG) D435000100034 MONIT-REF (,K.Gul+,R,IAEA-NDS-1211,2001) Chapter 4 D435000100035 ERR-ANALYS (EN-ERR) The uncertainty of the primary beam energy D435000100036 was estimated as (+-0.3 MeV) which increased due to D435000100037 straggling effect continuously in each foil through theD435000100038 stack up 1.4 MeV. D435000100039 (ERR-T) D435000100040 Typical total uncertainty is between 12%. D435000100041 (ERR-1)number of bombarding particles(7%) D435000100042 (ERR-2)surface density of target atoms(5%) D435000100043 (ERR-3)detector efficiency (7%) D435000100044 (ERR-4)nuclear decay and branching data(3%) D435000100045 (ERR-S)statistical and peak fitting (3%) D435000100046 ADD-RES (THEO) The experimental results were compared to the D435000100047 result calculated by the TENDL and EMPIRE theoretical D435000100048 model codes. D435000100049 (TTY-C) Integral yields were calculated from the D435000100050 fitted experimental cross sections. D435000100051 HISTORY (20160513C) ts. D435000100052 ENDBIB 50 0 D435000100053 COMMON 5 3 D435000100054 ERR-1 ERR-2 ERR-3 ERR-4 ERR-S D435000100055 PER-CENT PER-CENT PER-CENT PER-CENT PER-CENT D435000100056 7. 5. 7. 3. 3. D435000100057 ENDCOMMON 3 0 D435000100058 ENDSUBENT 57 0 D435000199999 SUBENT D4350002 20160513 D105D435000200001 BIB 3 3 D435000200002 REACTION (51-SB-0(P,X)52-TE-121-G,M-,SIG) D435000200003 DECAY-DATA (52-TE-121-G,19.17D,DG,573.1,0.804) D435000200004 STATUS (TABLE) Table 2. of the article D435000200005 ENDBIB 3 0 D435000200006 NOCOMMON 0 0 D435000200007 DATA 4 10 D435000200008 EN EN-ERR DATA ERR-T D435000200009 MEV MEV MB MB D435000200010 16.8 1.1 19.8 2.2 D435000200011 16.0 1.2 28.4 3.3 D435000200012 14.4 1.3 48.3 5.8 D435000200013 14.4 1.3 67.9 8.5 D435000200014 12.8 1.5 75.8 9.9 D435000200015 11.4 1.6 101.5 13.7 D435000200016 9.1 1.8 141.2 19.8 D435000200017 7.3 2.0 80.5 11.7 D435000200018 6.0 2.0 28.5 4.3 D435000200019 4.3 2.1 5.7 0.9 D435000200020 ENDDATA 12 0 D435000200021 ENDSUBENT 20 0 D435000299999 SUBENT D4350003 20160513 D105D435000300001 BIB 3 3 D435000300002 REACTION (51-SB-0(P,X)52-TE-121-M,,SIG) D435000300003 DECAY-DATA (52-TE-121-M,164.2D,DG,212.2,0.815) D435000300004 STATUS (TABLE) Table 2. of the article D435000300005 ENDBIB 3 0 D435000300006 NOCOMMON 0 0 D435000300007 DATA 4 10 D435000300008 EN EN-ERR DATA ERR-T D435000300009 MEV MEV MB MB D435000300010 16.8 1.1 19.6 2.2 D435000300011 16.0 1.2 30.9 3.6 D435000300012 14.4 1.3 42.8 5.1 D435000300013 14.4 1.3 59.8 7.5 D435000300014 12.8 1.5 45.2 5.9 D435000300015 11.4 1.6 88.3 11.9 D435000300016 9.1 1.8 84.7 11.9 D435000300017 7.3 2.0 30.0 4.4 D435000300018 6.0 2.0 26.2 3.9 D435000300019 4.3 2.1 5.3 0.8 D435000300020 ENDDATA 12 0 D435000300021 ENDSUBENT 20 0 D435000399999 SUBENT D4350004 20160513 D105D435000400001 BIB 3 3 D435000400002 REACTION (51-SB-0(P,X)52-TE-123-M,,SIG) D435000400003 DECAY-DATA (52-TE-123-M,119.2D,DG,159.0,0.84) D435000400004 STATUS (TABLE) Table 2. of the article D435000400005 ENDBIB 3 0 D435000400006 NOCOMMON 0 0 D435000400007 DATA 4 10 D435000400008 EN EN-ERR DATA ERR-T D435000400009 MEV MEV MB MB D435000400010 16.8 1.1 12.8 1.4 D435000400011 16.0 1.2 18.5 2.1 D435000400012 14.4 1.3 25.6 3.1 D435000400013 14.4 1.3 28.3 3.5 D435000400014 12.8 1.5 52.0 6.8 D435000400015 11.4 1.6 52.2 7.0 D435000400016 9.1 1.8 87.1 12.2 D435000400017 7.3 2.0 39.0 5.7 D435000400018 6.0 2.0 14.8 2.2 D435000400019 4.3 2.1 7.0 1.1 D435000400020 ENDDATA 12 0 D435000400021 ENDSUBENT 20 0 D435000499999 ENDENTRY 4 0 D435099999999