/*===================================================================*/ /* NRDF D1777 Data No.23 */ /*===================================================================*/ /* Bibliography */ /*===================================================================*/ \\BIB,23; D#=D1777; TITLE=/ Effect of shell structure in the fusion reactions 82Se+134Ba and 82Se+138Ba /; PURPOSE=/ In order to investigate the effect of the nuclear shell structure on the fusion process, we investigated the isotope dependence in the fusion reactions 82Se+134Ba and 82Se+138Ba. /; ATH=(K.SATOU'1,2', H.IKEZOE'1', S.MITSUOKA'1', K.NISHIO'1', S.C.JEONG'3'); INST-ATH=(2JPNJAE'1', 2JPNTSU'2', 2JPNKEK'3'); /* '1' Advanced Science Research Center */ /* '2' Institute of Physics and Tandem Accelerator Center */ /* '3' Institute of Particle and Nuclear Studies */ REF=PR/C; VLP=65(2002)054602; RCTS=(138BA(82SE,N)219TH, 138BA(82SE,X)215RA, 138BA(82SE,2*N)218TH, 138BA(82SE,X)214RA, 138BA(82SE,3*N)217TH, 138BA(82SE,4*N)216TH, 138BA(82SE,5*N)215TH, 138BA(82SE,6*N)214TH, 138BA(82SE,7*N)213TH, 138BA(82SE,X)216AC, 138BA(82SE,X)215AC, 138BA(82SE,X)214AC, 138BA(82SE,X)213AC, 138BA(82SE,X)212AC, 138BA(82SE,X)212RA, 138BA(82SE,X)211RA, 138BA(82SE,X)210RA, 138BA(82SE,X)209RA, 134BA(82SE,N)215TH, 134BA(82SE,2*N)214TH, 134BA(82SE,3*N)213TH, 134BA(82SE,4*N)212TH, 134BA(82SE,5*N)211TH, 134BA(82SE,P)215AC, 134BA(82SE,X)214AC, 134BA(82SE,X)207RA, 134BA(82SE,X)213AC, 134BA(82SE,X)212AC, 134BA(82SE,X)211AC, 134BA(82SE,X)210AC, 134BA(82SE,X)212RA, 134BA(82SE,X)211RA, 134BA(82SE,X)210RA, 134BA(82SE,X)209RA, 134BA(82SE,X)208RA, 138BA(82SE,FUSN), 134BA(82SE,FUSN)); PHQS=(XSECTN'4', X'5'); /* '4' Evaporation residue production cross section */ /* '5' fusion probability */ /*===================================================================*/ /* Experimental Conditions */ /*===================================================================*/ \\EXP,23; /* 2003-03-12 : Compiled */ CHM=ELM; PHYS-FORM=SLD; BAC=AL; THK-BAC=XMG/CM**2'6'; /* '6' 1.3 micro-meter */ POL-TGT=0%; ALGN-TGT=0%; ACC=VDGT'7'; /* '7' JAERI tandem booster accelerator */ INST-ACC=2JPNJAE; POL-PRJ=0%; COINC=NO; ANT-COINC=NO; DET-SYS=(SI'8',SBD'9',TOF); /* '8' Double sided position-sensitive strip detector (DPSD). The typical energy resolution was 75 keV (FWHM) for alpha-decay energy of 7.921 MeV from 216Th produced in the present reaction. */ /* '9' To measure the elastic scattering events of the 82Se from the barium target, which used to determine the absolute value of the evaporation residue cross sections. */ ANL=(CC'10',STATIST-MODEL'11'); /* '10' Coupled-channel calculation using the code CCDEF [J.O.Fernandez Niello et al., Comput. Phys. Commun. 54(1989)409]. In the calculation of the fusion cross section, the coupling of the inelastic excitations of the first 2+ and 3- states for both the projectile and the target to the fusion process are taken into account. */ /* '11' After the coupled-channel calculation, the survival probability of each evaporation residue is calculated by using the statistical model code HIVAP[W. Reisdorf and M. Schadel, Z. Phys. A343(1992),47] */ /* Experimental Method: - Time-of-flight /* 2006-09-07 : Altered, Mh. Re-digitized */ RCT=138BA(82SE,FUSN); RTY=FUSN; PHQ=X'135'; /* '135' fusion probability */ ENR=99.7%; THK-TGT=0.41MG/CM**2; INC-ENGY-LAB=(193MEV, 196MEV, 200MEV, 201MEV, 206MEV, 210MEV, 215MEV, 220MEV, 225MEV, 230MEV, 235MEV, 240MEV, 245MEV, 251MEV); /*===================================================================*/ /* Descriptive Parameters */ /*===================================================================*/ \\DATA,23; NORM=/ Elastic scattering events of the 82Se beam from the barium target were used to determine the absolute value of the evaporation residue cross sections. /; INC-ENGY-LAB=(193MEV, 196MEV, 200MEV, 201MEV, 206MEV, 210MEV, 215MEV, 220MEV, 225MEV, 230MEV, 235MEV, 240MEV, 245MEV, 251MEV); /*===================================================================*/ /* Data Table */ /*===================================================================*/ \DATA; ENGY'136' DATA1'137' DELTA-DATA1'137' (MEV) (NODIM) (NODIM) -1.311E+01 5.896E-04 +-2.426E-04 -1.059E+01 3.069E-03 +-1.263E-03 -6.438E+00 2.906E-02 +-1.122E-02 -5.440E+00 1.072E-01 +-4.970E-02 -5.781E-01 5.283E-01 +-2.310E-01 3.462E+00 4.093E-01 +-1.183E-01 8.494E+00 5.768E-01 +-1.607E-01 1.352E+01 5.073E-01 +-1.009E-01 1.856E+01 7.413E-01 +-2.318E-01 2.332E+01 8.404E-01 +-2.627E-01 2.853E+01 1.228E+00 +-4.436E-01 3.356E+01 1.183E+00 +-3.697E-01 3.841E+01 1.270E+00 +-4.585E-01 4.443E+01 1.604E+00 +-7.014E-01 \END; /*===================================================================*/ |