|
| /*===================================================================*/
/* NRDF D1738 Data No.1 */
/*===================================================================*/
/* Bibliography */
/*===================================================================*/
\\BIB,1;
D#=D1738;
TITLE=/ Sub-barrier fusion of deformed nuclei in 60Ni+154Sm and
32S+182W Reactions /;
ATH=(S.MITSUOKA'1', H.IKEZOE'1', K.NISHIO'1', J.LU'1');
INST-ATH=(2JPNJAE'1');
REF=PR/C;
VLP=62(2000)054603;
RCTS=(182W(32S,FISSN), 154SM(60NI,FISSN), 182W(32S,3*N)211TH,
182W(32S,2*N)212TH, 182W(32S,4*N)210TH, 182W(32S,X)210AC,
182W(32S,X)211AC, 182W(32S,X)208AC, 182W(32S,X)209AC,
182W(32S,X)209RA, 182W(32S,X)210RA, 182W(32S,X)207RA,
182W(32S,X)208RA, 182W(32S,X)208FR, 182W(32S,X)209FR,
182W(32S,X)206FR, 182W(32S,X)207FR, 154SM(60NI,3*N)211TH,
154SM(60NI,2*N)212TH, 154SM(60NI,4*N)210TH, 154SM(60NI,X)210AC,
154SM(60NI,X)211AC, 154SM(60NI,X)208AC, 154SM(60NI,X)209AC,
154SM(60NI,X)209RA, 154SM(60NI,X)210RA, 154SM(60NI,X)207RA,
154SM(60NI,X)208RA, 154SM(60NI,X)208FR, 154SM(60NI,X)209FR,
154SM(60NI,X)206FR, 154SM(60NI,X)207FR);
PHQS=(ANGL-DSTRN'2', FISSN-XSECTN, EXC-FUNCT'3');
/* '2' for fission fragments */
/* '3' for fusion-evapolation cross section */
/*===================================================================*/
/* Experimental Conditions */
/*===================================================================*/
\\EXP,1;
/* 2002-02-08 : Converted, Mt + On. Data converted to EXFOR E1738
/* 2003-06-13 : Altered, On */
PHYS-FORM=SLD;
BAC=AL;
THK-BAC=XMG/CM**2'4';
/* '4' 0.7 micro-meter */
POL-TGT=0%;
ALGN-TGT=0%;
ACC=VDGT;
INST-ACC=2JPNJAE;
BEAM-INTNSTY=XMA'5';
/* '5' 30+-20 particle-nA */
POL-PRJ=0%;
COINC=NO;
ANT-COINC=NO;
DET-SYS=(MAG,IC'6',SSD'7',TOF'8');
/* '6' To detect fusion-fission products */
/* '7' To monitor Rutherford scattering */
/* '8' To obtain information on fusion-evaporation residue */
SOLID-ANGL=20MSR;
ERS-DET=80KEV'9';
/* '9' for position sensitive strip detector working on 5.486MeV
alpha particles from an 241Am source */
MONTR-RCT=/ , Rutherford scattering was monitored at forward angle of
theta(lab)=45deg by small-area solid-state detector for
the normalization of the cross section measurements. /;
EFCN-DET=/ Total efficiency is typically 25% for xn channel and 18%
for alpha+xn channel in 60Ni+154Sm system. /;
/* Experimental Method:
- Time-of-flight (To obtain information on fusion-evaporation
residue)
/* 2006-09-05 : Altered, At. Re-digitized */
RCT=182W(32S,FISSN);
RTY=FISSN;
PHQ=ANGL-DSTRN'10';
/* '10' for fission fragments */
ENR=94.5%;
CHM=ELM;
THK-TGT=0.4MG/CM**2;
INC-ENGY-LAB=165.5MEV;
DET-PARTCL=X'11';
/* '11' Fission fragments */
DET-SYS=EDE'12';
/* '12' To distinguish fission fragments (including both
fusion-fission and quasifission) from elastic, quasielastic
and deep-inelastic scattered particles */
/* Experimental Method:
- Particle identification by 'E/Delta E' measurement (To
distinguish fission fragments (including both fusion-fission and
quasifission) from elastic, quasielastic and deep-inelastic
scattered particles)
/*===================================================================*/
/* Descriptive Parameters */
/*===================================================================*/
\\DATA,1;
INC-ENGY-LAB=165.5MEV;
CMPD=214TH;
THTL=62DEG;
/*===================================================================*/
/* Data Table */
/*===================================================================*/
\DATA;
THTL DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA
(DEG) (MB/SR) (MB/SR)
8.269E+01 3.310E-02 +-1.983E-03
8.825E+01 3.567E-02 +-2.137E-03
9.409E+01 3.256E-02 +-1.840E-03
9.964E+01 3.844E-02 +-1.966E-03
1.052E+02 3.538E-02 +-2.120E-03
1.099E+02 3.366E-02 +-2.017E-03
1.148E+02 4.355E-02 +-2.609E-03
1.517E+02 6.490E-02 +-3.669E-03
1.549E+02 7.601E-02 +-4.297E-03
1.581E+02 8.329E-02 +-4.708E-03
1.613E+02 9.051E-02 +-5.116E-03
1.642E+02 1.087E-01 +-6.143E-03
1.671E+02 1.069E-01 +-6.403E-03
\END;
/*===================================================================*/
|