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| /*===================================================================*/
/* NRDF D0682 Data No.36 */
/*===================================================================*/
/* Bibliography */
/*===================================================================*/
\\BIB,36;
D#=D1193;
TITLE=/74,76,78,80,82SE BY INELASTIC SCATTERING OF 64.8 MEV PROTONS/;
PURPOSE=/THE INELASTIC SCATTERING OF 64.8 MEV PROTONS HAS BEEN STUDIED
ON THE STABLE EVEN 74-82SE ISOTOPES. LEVELS UP TO THE
EXCITATION ENERGY OF ABOUT 5MEV WERE INVESTIGATED. MANY NEW
LEVELS WERE OBSERVED./;
ATH=(K.OGINO'1');
INST-ATH=(2JPNKTO'1');
REF=PR/C;
VLP=33(1986)71;
RCTS=(74SE(P,P)74SE, 76SE(P,P)76SE, 78SE(P,P)78SE, 80SE(P,P)80SE,
82SE(P,P)82SE);
PHQS=(ANGL-DSTRN,SPIN,PTY,OPT-POTL-PARA,DEFM-PARA,DSIGMA/DOMEGA-RATIO,
EWSR);
/*===================================================================*/
/* Experimental Conditions */
/*===================================================================*/
\\EXP,36;
RTY=(ELA-SCATT,INEL-SCATT);
THK-TGT=[0.5MG/CM**2;
BAC=AU.;
POL-TGT=0%;
ALGN-TGT=0%;
ACC=(CYC);
INST-ACC=2JPNRCN;
INC-ENGY-LAB=(64.8MEV);
DET-PARTCL=(P);
DET-SYS=(MAG+MWPC);
SOLID-ANGL=XMSR;
ERS-DET=20KEV;
ANL=(OPT-MODEL,CC,DWBA,COLL-MODEL);
PHQ=(ANGL-DSTRN,SPIN,PTY,OPT-POTL-PARA,DEFM-PARA,DSIGMA/DOMEGA-RATIO,
EWSR);
RCT=76SE(P,P)76SE;
ENR=96.88%;
CHM=ELM;
PHYS-FORM=SLD;
RCT=58NI(D,D)58NI;
PHQ=OPT-POTL-PARA;
ENR=99.89%;
CHM=ELM;
PHYS-FORM=SLD;
THK-TGT=2.12MG/CM**2;
/*===================================================================*/
/* Descriptive Parameters */
/*===================================================================*/
\\DATA,36;
PRJ=P;
TGT=76SE;
INC-ENGY-LAB=64.8MEV;
POTL-FORM=/-(V*F(XR)+I*(WV*F(XIV)-4*WS*DIF(1!XIS)F(XIS)+WG*G(XIG)))+
(HBAR/(MPI*C))**2*1/R*(VSO*DIF(1!R)F(XRSO)+I*WSO*DIF(1!R)
F(XISO))*SIGMA*L+UC(R):
F(XI)=1/(1+EXP(XI)): G(XG)=EXP(-XG**2):
XI=(R-RI*A**(1/3))/AI: UNIFORM CHARGE OF RAIDUS RC*A**(1/3):/;
INC-ENGY-LAB=56MEV;
RSD=58NI;
POTL-FORM=/ Uc(X)
-V*F(X,Rr,Ar)
-i*W*F(X,Riv,Aiv)
+4*i*Ws*Ais*dif(1/X)f(X,Ris,Ais)
+(hbar/(mpi*c))**2*1/X*Vso*dif(1/X)f(X,Rrso,Arso)*L*S
+(hbar/(mpi*c))**2*Vtr*V(X)*((S*X)**2/X**2-2/3)
+i*(hbar/(mpi*c))**2*Wtr*W(X)*((S*X)**2/X**2-2/3)
: Uniform charge of radius Rc*A**(1/3)
: f(X,R,A)=1/(1+exp((X-R*A**(1/3))/A)
: V(X)=-X*dif(1/X)((1/X)*dif(1/X)f(X,Rtr,Atr))
: W(X)=X*dif(1/X)((1/X)*dif(1/X)(4*dif(1/X)f(X,Rtw,Atw)))
/*===================================================================*/
/* Data Table */
/*===================================================================*/
\DATA;
INC-ENGY-LAB V RR AR WV RIV AIV WS RIS AIS VSO RRSO ARSO
(MEV) (MEV) (FM) (FM) (MEV) (FM) (FM) (MEV) (FM) (FM) (MEV) (FM) (FM)
64.8 41.324 1.156 0.752 7.091 1.379 0.624 2.542 1.390
0.310 6.039 1.019 0.791
INC-ENGY-LAB V RR AR WV RIV AIV WS RIS AIS VSO RRSO ARSO
DATA1'127' DATA2'128' DATA3'129' DATA4'130' DATA5'131' DATA6'132'
RC
(MEV) (MEV) (FM) (FM) (MEV) (FM) (FM) (MEV) (FM) (FM) (MEV) (FM)
(FM) (MEV) (FM) (FM) (MEV) (FM) (FM) (FM)
56 76.84 1.21 0.76 3.34 1.34 0.66 10.94 1.34 0.66
5.60 1.24 0.37 X X X X X X
1.3
56 72.97 1.25 0.718 2.083 1.272 0.735 11.72 1.272 0.735
4.695 1.237 0.400 X X X X X X
1.4
56 72.97 1.25 0.718 2.083 1.272 0.735 11.72 1.272 0.735
4.694 1.237 0.400 0.085 1.25 0.693 1.501 1.4 0.801
1.4
\END;
/*===================================================================*/
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