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| /*===================================================================*/
/* NRDF D1690 Data No.9 */
/*===================================================================*/
/* Bibliography */
/*===================================================================*/
\\BIB,9;
D#=D1690;
TITLE=/Shell-model study of 40Ca with the 56-MeV (d,p) reaction/;
PURPOSE=/To investigate single-particle states in 41Ca through the
40Ca(d,p)41Ca reaction with polarized deutrons of E_d=56 MeV/;
ATH=(Y.UOZUMI'1', N.KIKUZAWA'1', T.SAKAE'1', M.MATOBA'1',
K.KINOSHITA'2', T.SAJIMA'2', H.IJIRI'2', N.KOORI'3',
M.NAKANO'4', T.MAKI'4');
INST-ATH=(2JPNKYU'1', 2JPNKYU'2', 2JPNTKS'3', 2JPNKIT'4');
/* '1' Department of Nuclear Engineering */
/* '2' Graduate School of Engineering and Sciences */
/* '3' Faculty of Integrated Arts and Sciences */
REF=PR/C;
VLP=50(1994)263;
RCTS=40CA(D,P)41CA;
PHQS=(SPEC-FCTR'5', ANGL-DSTRN, ANALPW);
/* '5' C**2*S */
/*===================================================================*/
/* Experimental Conditions */
/*===================================================================*/
\\EXP,9;
/* 2002-12-12 : Converted, Data converted to EXFOR E1690 */
RTY=POL-RCT;
ENR=NAT;
CHM=ELM;
PHYS-FORM=SLD'6';
/* '6' Metalic foil */
THK-TGT=1.10MG/CM**2;
BAC=SELF;
POL-TGT=0%;
ALGN-TGT=0%;
ACC=CYC'7';
/* '7'Isochronous cyclotron, AVF Cyclotron */
INST-ACC=2JPNRCN;
INC-ENGY-LAB=56MEV;
BEAM-INTNSTY=15[20NA;
POL-PRJ=52%'8';
/* '8' measured upstream of the scattering chamber at 10-sec
intervals before the (d,p) measurements were made for 90
seconds */
ION-SOURCE=/ Polarized ion source /;
DET-PARTCL=P;
COINC=NO;
ANT-COINC=NO;
DET-SYS=(MAG'9',PS-PC'10',PLST-SCT'11',X'12');
/* '9' RAIDEN [H.Ikegami et al., Nucl. Instrum. Methods
175(1980)33], solid angle is 32 msr. */
/* '10' to measure proton on focal plane position */
/* '11' E counter for particle identification */
/* '12' gaseous Delta-E counter for particle identification */
EFCN-DET=/ The detection efficiency was better than 99% during the
measurement /;
ANL=DWBA'13';
/* '13' Zero-range DWBA calculations were carried out by using
the code DWUCK [P.D. Kunz, code DWUCK, University of Colorado
(unpublished)]. */
/* Experimental Method:
- Particle identification by 'E/Delta E' measurement (To identify
proton)
RCT=40CA(D,P)41CA;
PHQ=ANALPW;
/*===================================================================*/
/* Descriptive Parameters */
/*===================================================================*/
\\DATA,9;
INC-ENGY-LAB=56MEV;
EMT=P;
RSD=41CA;
EXC-ENGY=2.461MEV;
J-PTY=3/2-;
/*===================================================================*/
/* Data Table */
/*===================================================================*/
\DATA;
THTC ANALPW DELTA-ANALPW'23'
(DEG) (NODIM) (NODIM)
5.17562 0.0909189 +-0.0366943
8.28043 0.116611 +-0.0152121
11.3845 0.0446297 +-0.0191574
14.4874 -0.0146218 +-0.0240452
17.5891 -0.0316892 +-0.0250784
20.6891 -6.736E-03 +-0.0230451
23.7872 0.0839148 +-0.0229332
26.8832 0.245867 +-0.0298248
29.9767 0.256811 +-0.0347882
33.0675 0.122366 +-0.0414422
36.1554 -0.0652703 +-0.0442302
39.2401 -0.0306554 +-0.0375947
42.3214 0.0320907 +-0.0311026
46.4241 0.224348 +-0.0338443
\END;
/*===================================================================*/
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