ENTRY D0916 20181112 D119D091600000001 SUBENT D0916001 20181112 D119D091600100001 BIB 11 42 D091600100002 TITLE Thick target yield measurement of 32S(d,pg1)33S D091600100003 reaction using a dedicated PIGE experimental chamber D091600100004 AUTHOR (O.Kakuee, V.Fathollahi, M.Lamehi-Rachti, A.Jokar) D091600100005 INSTITUTE (3IRNNRT) D091600100006 REFERENCE (J,APP/B,48,1399,2017) D091600100007 (J,APP/B,49,97,2018) erratum later D091600100008 FACILITY (VDG,3IRNNRT) Particle Induced Gamma-ray Emission, PIGED091600100009 beamline (45 degree right) of the 3 MV Van de Graaff D091600100010 electrostatic accelerator D091600100011 DETECTOR (HPGE) p-type HPGe detector with crystal size of 6.58 D091600100012 cm x 6.58 cm active volume of 213 cm**3 positioned D091600100013 perpendicular to the beamline direction 5.2 cm from theD091600100014 the target center. D091600100015 (SI) Ion-implanted silicon detector of 25 mm**2 active D091600100016 area, 300 um thickness, 13 keV energy resolution, D091600100017 positioned at the scattering angle of 165 degree. D091600100018 METHOD The incident beam current was varied within 2 - 20 nA D091600100019 depending on the deuteron energy. D091600100020 The beam energy calibration of the accelerator was D091600100021 performed through the 27Al(p,g)28Si reaction at the D091600100022 991.88 keV resonance, and through the 7Li(p,n)7Be D091600100023 reaction at the threshold at 1880.44 keV. D091600100024 The spot size of the deuteron beam on the target D091600100025 was kept around 4 mm in diameter. D091600100026 ANALYSIS (NTRTH) Deuteron Rutherford cross section from Au D091600100027 SAMPLE Thick target: Sulfur powder pressed into 1 mm thick D091600100028 pellets with a diameter of 10 mm using a hydraulic D091600100029 press. D091600100030 Thin Au film: Vacuum deposited on the surface of D091600100031 the sulfur pellets. D091600100032 Thickness was about (50+/-3)x10**15 atom/cm**2 D091600100033 determined by simulation of the collected RBS spectra. D091600100034 ERR-ANALYS (ERR-T,,9.) The uncertainty D091600100035 in the thick target yield (<9%) D091600100036 (ERR-1) The absolute efficiency D091600100037 of the HPGe detector (7%) D091600100038 (ERR-2) Thickness of the Au film for ERR-2 (+/-5%) D091600100039 (ERR-3) The solid angle for ERR-2 (+/-2%) D091600100040 (ERR-4) Deuteron Rutherfored crss section of Au(+/-1%) D091600100041 HISTORY (20181112C) So. D091600100042 (20181110R) Numerical data of Table 6 recieved D091600100043 from Dr. Kakuee D091600100044 ENDBIB 42 0 D091600100045 COMMON 6 3 D091600100046 E ANG ERR-1 ERR-2 ERR-3 ERR-4 D091600100047 KEV ADEG PER-CENT PER-CENT PER-CENT PER-CENT D091600100048 841. 90. 7. 5. 2. 1. D091600100049 ENDCOMMON 3 0 D091600100050 ENDSUBENT 49 0 D091600199999 SUBENT D0916002 20181112 D119D091600200001 BIB 3 3 D091600200002 REACTION (16-S-32(D,P)16-S-33,PAR,MLT/DA,G,TT/CH) D091600200003 ERR-ANALYS (DATA-ERR) No information on the source of uncertainty D091600200004 STATUS (TABLE) Fig.6 of Acta Physica Polonica B,48,1399,2017 D091600200005 ENDBIB 3 0 D091600200006 COMMON 1 3 D091600200007 EN-ERR D091600200008 KEV D091600200009 2. D091600200010 ENDCOMMON 3 0 D091600200011 DATA 3 13 D091600200012 EN DATA DATA-ERR D091600200013 KEV PRT/MUC/SR PRT/MUC/SR D091600200014 1300. 18880. 360. D091600200015 1400. 30818. 460. D091600200016 1500. 60204. 644. D091600200017 1550. 77761. 944. D091600200018 1600. 86063. 993. D091600200019 1650. 114170. 1144. D091600200020 1700. 144249. 1286. D091600200021 1750. 189167. 1473. D091600200022 1800. 235036. 1272. D091600200023 1850. 297641. 1431. D091600200024 1900. 385828. 1629. D091600200025 1950. 478412. 1814. D091600200026 2000. 533290. 1916. D091600200027 ENDDATA 15 0 D091600200028 ENDSUBENT 27 0 D091600299999 ENDENTRY 2 0 D091699999999