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| /*===================================================================*/
/* NRDF D1613 Data No.3 */
/*===================================================================*/
/* Bibliography */
/*===================================================================*/
\\BIB,3;
D#=D1613;
TITLE=/Airy minimum crossing theta(cm)=90 deg at E(lab)=124 MeV for
the 16O+16O system/;
PURPOSE=/In the present paper we shall extend the study to the
lowerenergy region where interesting 20 year old data exist/;
ATH=(Y.KONDO'1', Y.SUGIYAMA'2', Y.TOMITA'2', Y.YAMANOUCHI'2',
H.IKEZOE'2', K.IDENO'2', S.HAMADA'2', T.SUGIMITSU'3',
M.HIJIYA'3', H.FUJITA'4');
INST-ATH=(2JPNJPN'1', 2JPNJAE'2', 2JPNKYU'3', 2JPNJPN'4');
/* '1' Depertment of Natural Sciences, Kyoto Women's University */
/* '2' Advanced Science Research Center */
/* '3' Department of Physics */
/* '4' Daiichi College of Pharmaceutical Sciences */
REF=PL/B;
VLP=365(1996)17;
RCTS=16O(16O,16O)16O;
PHQS=(XSECTN-RATIO'5', OPT-POTL-PARA);
/* '5' Cross section ratio to Mott scattering */
/*===================================================================*/
/* Experimental Conditions */
/*===================================================================*/
\\EXP,3;
/* 2003-08-22 : Converted, Data converted to EXFOR E1613 */
RTY=ELA-SCATT;
CHM=X'6';
/* '6' V2O5 */
PHYS-FORM=SLD;
THK-TGT=0.2MG/CM**2;
POL-TGT=0%;
ALGN-TGT=0%;
ACC=VDGT;
INST-ACC=2JPNJAE;
POL-PRJ=0%;
DET-PARTCL=16O;
COINC=(16O'7',16O'8',16O'8');
/* '7' outgoing */
/* '8' recoiling */
ANT-COINC=NO;
DET-SYS=(MAG'9',SBD'10');
/* '9' To detect outgoing 16O at forward angles from theta(lab)=5
deg to 32 deg [Y. Sugiyama et al., Phys. Lett. B312(1993)35].
/* '10' To detect recoiling 16O at backward angles from
theta(lab)=32 deg to 46.8 deg. */
ANL=OPT-MODEL;
RCT=16O(16O,16O)16O;
PHQ=OPT-POTL-PARA;
/*===================================================================*/
/* Descriptive Parameters */
/*===================================================================*/
\\DATA,3;
EMT=16O;
RSD=16O;
POTL-FORM=/ Uc(X)
-VR*F(X,RR,AR)
-WV*F(X,RV,AV)
-4*I*WS*EXP((X-RS)/AS)*F(X,RS,AS)
: Uniform charge of radius Rc*A**(1/3)
: F(X,R,A)=1/(1+EXP((X-R)/A)**2
/*===================================================================*/
/* Data Table */
/*===================================================================*/
\DATA;
INC-ENGY-LAB FLAG'17' RC DATA1'18' DATA2'19' DATA3'20' DATA4'21'
DATA5'22' DATA6'23' DATA7'24' DATA8'25' DATA9'26'
(MEV) (NODIM) (FM) (MEV) (FM) (FM) (MEV) (FM) (FM) (MEV) (FM)
(FM)
124 1 3.533 136.3 5.223 1.354 16.6 6.931 0.858 X X X
124 2 3.533 250.7 4.405 1.562 14.4 7.021 0.808 X X X
124 3 3.533 366.0 3.918 1.639 14.5 6.963 0.904 X X X
124 4 3.533 412.9 3.971 1.530 16.0 6.858 0.970 X X X
124 5 3.533 459.4 4.029 1.440 17.5 6.769 1.022 X X X
124 6 3.533 513.7 4.056 1.376 19.2 6.676 1.080 X X X
124 7 3.533 449.1 3.742 1.600 14.9 5.536 0.291 5.11 6.469 0.540
145 1 3.533 119.5 5.274 1.293 19.0 6.678 0.959 X X X
145 2 3.533 180.0 4.938 1.267 14.2 7.050 0.882 X X X
145 3 3.533 347.6 3.998 1.533 17.1 6.709 0.940 X X X
145 4 3.533 414.4 3.947 1.493 16.8 6.796 0.883 X X X
145 5 3.533 469.9 3.982 1.413 19.2 6.657 0.991 X X X
145 6 3.533 525.9 4.018 1.348 21.0 6.571 1.051 X X X
145 7 3.533 386.4 4.179 1.429 9.14 6.796 0.869 16.1 5.422 0.435
\END;
/*===================================================================*/
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