/* 2002-03-18 N.OTUKA 10 POINTS CHECK */ \\BIB,1[12; D#=D603; TITLE=/INELASTIC EXCITATION OF NORMAL PARITY LEVELS IN 208PB BY 135 MEV PROTONS/; PURPOSE=/TO COMPARE THE PRESENT DATA WITH EALIER DATA SETS BY USING A COLLECTIVE MODEL ANALYSIS WHICH INCLUDES THE DEFORMED SPIN-ORBIT COUPLING AND TO INVESTIGATE A STRIKING TRANSITION FROM CENTRAL DOMINATED SHAPES TO SPIN-ORBIT DOMINATED SHAPES AT A CERTAIN ANGULAR MOMENTUM./; ATH=(G.S.ADAMS'1',A.D.BACHER'1',G.T.EMERY'1',W.P.JONES'1', D.W.MILLER'1',W.G.LOVE'2',F.PETROVICH'3'); INST-ATH=(1USAINU'1',1USAGEO'2',1USAFSU'3'); REF=PL/B; VLP=91(1980)23; RCTS=(208PB(P,P)208PB); \\EXP,1[12; RCT=208PB(P,P)208PB; RTY=INEL-SCATT; ENR=99%; PHYS-FORM=SLD; CHM=ELM; THK-TGT=15.4MG/CM**2; BAC=SELF; POL-TGT=NO; ALGN-TGT=NO; ACC=(CYC); INST-ACC=1USAINU; INC-ENGY-LAB=135.2MEV; DELTA-INC-ENGY-LAB=200KEV; ERS-PRJ=XKEV; BEAM-INTNSTY=XUA; POL-PRJ=NO; DET-PARTCL=(P); DET-SYS=(MAG'1'); /*@3@*/ SOLID-ANGL=XMSR; ERS-DET=85KEV; ANL=(DWBA,COLL-MODEL'1'); /*@4@*/ PHQ=(XSECTN,ANGL-DSTRN,ENGY-SPEC'1',DSIGMA/DOMEGA,QVL,EXC-ENGY,SPIN,PTY ,OPT-POTL-PARA,DEFORM-PARA); /*@9@*/ \\EXP,1[10; PHQ=(ANGL-DSTRN,DSIGMA/DOMEGA,QVL,EXC-ENGY,SPIN,PTY); \\DATA,1; INC-ENGY-LAB=135.2MEV; EXC-ENGY=2.61MEV; J-PI=3-; TOT-ERR=10%; /*FIG.2-(1)*/ /* D603 FIG.2-(1) */ /* SER#= 1 */ /* XSCALE=LINEAR YSCALE=LOG */ /* XMAX= 7.00000000E+01 YMAX= 1.00000000E+01 */ /* XMIN= 0.00000000E+00 YMIN= 1.00000000E+00 */ /* FOLLOWING DATA ARE TAKEN FROM GRAPH */ \DATA; THTC DSIGMA/DOMEGA (DEG) (MB/SR) 21.574 3.162E+00 29.836 5.147E-01 31.902 8.756E-01 34.426 6.282E-01 36.951 2.319E-01 39.705 2.031E-01 41.311 2.269E-01 44.295 1.334E-01 49.115 6.566E-02 53.705 3.162E-02 58.754 1.457E-02 \END; \\DATA,2; INC-ENGY-LAB=135.2MEV; EXC-ENGY=3.19MEV; J-PI=5-; TOT-ERR=10%; /*FIG.2-(2)*/ /* D603 FIG.2-(2) */ /* SER#= 2 */ /* XSCALE=LINEAR YSCALE=LOG */ /* XMAX= 7.00000000E+01 YMAX= 1.00000000E+00 */ /* XMIN= 0.00000000E+00 YMIN= 9.99999642E-02 */ /* FOLLOWING DATA ARE TAKEN FROM GRAPH */ \DATA; THTC DSIGMA/DOMEGA (DEG) (MB/SR) 22.326 7.219E-01 25.116 1.919E-01 29.535 2.658E-01 32.093 1.613E-01 34.651 6.068E-02 37.442 4.883E-02 39.767 6.337E-02 42.093 4.104E-02 44.419 2.333E-02 49.302 1.648E-02 54.419 4.675E-03 59.302 4.778E-03 \END; \\DATA,3; INC-ENGY-LAB=135.2MEV; EXC-ENGY=3.17MEV; J-PI=5-; TOT-ERR=10%; /*FIG.2-(3)*/ /* D603 FIG.2-(3) */ /* SER#= 3 */ /* XSCALE=LINEAR YSCALE=LOG */ /* XMAX= 7.00000000E+01 YMAX= 1.00000000E+00 */ /* XMIN= 0.00000000E+00 YMIN= 9.99999642E-02 */ /* FOLLOWING DATA ARE TAKEN FROM GRAPH */ \DATA; THTC DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA (DEG) (MB/SR) (MB/SR) 22.007 3.704E-01 XXXXXXXXX 24.816 1.095E-01 XXXXXXXXX 29.966 1.341E-01 XXXXXXXXX 31.839 1.171E-01 XXXXXXXXX 35.117 5.080E-02 XXXXXXXXX 36.990 3.788E-02 XXXXXXXXX 40.033 3.875E-02 XXXXXXXXX 42.140 2.059E-02 XXXXXXXXX 44.950 1.282E-02 XXXXXXXXX 49.632 1.023E-02 XXXXXXXXX 54.548 2.825E-03 4.835E-04 60.167 1.372E-03 1.989E-04 \END; \\DATA,4; INC-ENGY-LAB=135.2MEV; EXC-ENGY=4.08MEV; J-PI=2+; TOT-ERR=10%; /*FIG.2-(4)*/ /* D603 FIG.2-(4) */ /* SER#= 4 */ /* XSCALE=LINEAR YSCALE=LOG */ /* XMAX= 7.00000000E+01 YMAX= 1.00000000E+00 */ /* XMIN= 0.00000000E+00 YMIN= 9.99999642E-02 */ /* FOLLOWING DATA ARE TAKEN FROM GRAPH */ \DATA; THTC DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA (DEG) (MB/SR) (MB/SR) 21.502 1.311E+00 XXXXXXXXX 24.369 5.080E-01 XXXXXXXXX 29.863 4.538E-01 XXXXXXXXX 32.253 2.581E-01 XXXXXXXXX 34.642 1.253E-01 XXXXXXXXX 37.031 1.372E-01 XXXXXXXXX 40.136 1.095E-01 XXXXXXXXX 42.287 5.560E-02 XXXXXXXXX 44.676 3.540E-02 XXXXXXXXX 49.693 3.788E-02 XXXXXXXXX 54.471 9.345E-03 1.116E-03 60.205 1.145E-02 1.960E-03 \END; \\DATA,5; INC-ENGY-LAB=135.2MEV; EXC-ENGY=4.32MEV; J-PI=4+; TOT-ERR=10%; /*FIG.2-(5)*/ /* D603 FIG.2-(5) */ /* SER#= 5 */ /* XSCALE=LINEAR YSCALE=LOG */ /* XMAX= 7.00000000E+01 YMAX= 1.00000000E+00 */ /* XMIN= 0.00000000E+00 YMIN= 9.99999642E-02 */ /* FOLLOWING DATA ARE TAKEN FROM GRAPH */ \DATA; THTC DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA (DEG) (MB/SR) (MB/SR) 21.146 5.436E-01 XXXXXXXXX 24.305 5.950E-01 XXXXXXXXX 29.410 5.080E-01 XXXXXXXXX 32.083 2.254E-01 XXXXXXXXX 35.000 1.968E-01 XXXXXXXXX 37.187 1.924E-01 XXXXXXXXX 39.618 1.095E-01 XXXXXXXXX 42.292 5.436E-02 XXXXXXXXX 44.965 5.687E-02 XXXXXXXXX 50.069 3.162E-02 XXXXXXXXX 55.174 1.282E-02 8.982E-04 60.521 6.367E-03 9.234E-04 \END; \\DATA,6; INC-ENGY-LAB=135.2MEV; EXC-ENGY=4.42MEV; J-PI=6+; TOT-ERR=10%; /*FIG.2-(6)*/ /* D603 FIG.2-(6) */ /* SER#= 6 */ /* XSCALE=LINEAR YSCALE=LOG */ /* XMAX= 7.00000000E+01 YMAX= 1.00000000E+00 */ /* XMIN= 0.00000000E+00 YMIN= 9.99999642E-02 */ /* FOLLOWING DATA ARE TAKEN FROM GRAPH */ \DATA; THTC DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA (DEG) (MB/SR) (MB/SR) 25.094 1.759E+00 XXXXXXXXX 28.528 1.115E+00 XXXXXXXXX 33.019 3.162E-01 XXXXXXXXX 36.189 2.437E-01 XXXXXXXXX 38.830 2.837E-01 XXXXXXXXX 41.472 1.243E-01 XXXXXXXXX 44.113 8.589E-02 XXXXXXXXX 46.755 8.405E-02 XXXXXXXXX 49.132 5.685E-02 XXXXXXXXX 54.943 1.385E-02 1.589E-03 60.226 1.385E-02 1.257E-03 65.245 2.658E-03 5.044E-04 \END; \\DATA,7; INC-ENGY-LAB=135.2MEV; EXC-ENGY=4.60MEV; J-PI=8+; TOT-ERR=10%; /*FIG.2-(7)*/ /* D603 FIG.2-(7) */ /* SER#= 7 */ /* XSCALE=LINEAR YSCALE=LOG */ /* XMAX= 7.00000000E+01 YMAX= 9.99999642E-02 */ /* XMIN= 0.00000000E+00 YMIN= 9.99999791E-03 */ /* FOLLOWING DATA ARE TAKEN FROM GRAPH */ \DATA; THTC DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA (DEG) (MB/SR) (MB/SR) 24.382 2.796E-01 XXXXXXXXX 27.790 3.911E-01 XXXXXXXXX 33.034 3.657E-01 XXXXXXXXX 35.655 2.445E-01 XXXXXXXXX 38.539 1.529E-01 XXXXXXXXX 40.374 9.351E-02 XXXXXXXXX 43.521 5.719E-02 XXXXXXXXX 45.880 2.557E-02 XXXXXXXXX 48.764 1.000E-02 9.353E-04 53.483 1.529E-02 2.195E-03 59.251 5.114E-03 1.001E-03 64.494 1.144E-03 1.641E-04 \END; \\DATA,8; INC-ENGY-LAB=135.2MEV; EXC-ENGY=4.88MEV; J-PI=10+; TOT-ERR=10%; /*FIG.2-(8)*/ /* D603 FIG.2-(8) */ /* SER#= 8 */ /* XSCALE=LINEAR YSCALE=LOG */ /* XMAX= 7.00000000E+01 YMAX= 9.99999642E-02 */ /* XMIN= 0.00000000E+00 YMIN= 9.99999931E-04 */ /* FOLLOWING DATA ARE TAKEN FROM GRAPH */ \DATA; THTC DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA (DEG) (MB/SR) (MB/SR) 32.701 1.141E-01 XXXXXXXXX 35.000 1.141E-01 XXXXXXXXX 37.555 1.332E-01 XXXXXXXXX 40.365 1.303E-01 XXXXXXXXX 42.664 1.068E-01 XXXXXXXXX 45.219 1.022E-01 XXXXXXXXX 47.774 7.509E-02 XXXXXXXXX 52.628 3.397E-02 XXXXXXXXX 57.993 7.107E-03 1.004E-03 63.358 4.281E-03 6.051E-04 \END; \\DATA,9; INC-ENGY-LAB=135.2MEV; EXC-ENGY=5.07MEV; J-PI=10+; TOT-ERR=10%; /*FIG.2-(9)*/ /* D603 FIG.2-(9) */ /* SER#= 9 */ /* XSCALE=LINEAR YSCALE=LOG */ /* XMAX= 7.00000000E+01 YMAX= 9.99999642E-02 */ /* XMIN= 0.00000000E+00 YMIN= 9.99999931E-04 */ /* FOLLOWING DATA ARE TAKEN FROM GRAPH */ \DATA; THTC DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA (DEG) (MB/SR) (MB/SR) 23.080 1.848E-01 XXXXXXXXX 26.123 1.730E-01 XXXXXXXXX 31.956 1.585E-01 XXXXXXXXX 34.493 1.620E-01 XXXXXXXXX 37.029 1.452E-01 XXXXXXXXX 38.804 1.452E-01 XXXXXXXXX 41.848 1.301E-01 XXXXXXXXX 44.130 1.092E-01 XXXXXXXXX 47.427 8.209E-02 XXXXXXXXX 51.993 3.728E-02 XXXXXXXXX 56.558 4.346E-03 3.984E-04 62.391 2.803E-03 4.650E-04 \END; \\DATA,10; INC-ENGY-LAB=135.2MEV; EXC-ENGY=6.08MEV; J-PI=12+; TOT-ERR=10%; /*FIG.2-(10)*/ /* D603 FIG.2-(10) */ /* SER#= 10 */ /* XSCALE=LINEAR YSCALE=LOG */ /* XMAX= 7.00000000E+01 YMAX= 9.99999791E-03 */ /* XMIN= 0.00000000E+00 YMIN= 9.99999902E-05 */ /* FOLLOWING DATA ARE TAKEN FROM GRAPH */ \DATA; THTC DSIGMA/DOMEGA (DEG) (MB/SR) 31.303 4.241E-02 34.014 6.086E-02 36.725 3.875E-02 38.944 2.700E-02 41.408 3.788E-02 43.627 3.621E-02 46.584 4.437E-02 51.760 3.704E-02 56.444 2.412E-02 61.127 8.161E-03 \END; \\EXP,11; PHQ=(OPT-POTL-PARA); \\DATA,11; PRJ=P; TGT=208PB; INC-ENGY-LAB=135.2MEV; 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):/; \DATA; INC-ENGY-LAB V RR AR WV RIV AIV VSO RRSO ARSO WSO RISO AISO RC (MEV) (MEV) (FM) (FM) (MEV) (FM) (FM) (MEV) (FM) (FM) (MEV) (FM) (FM) (FM) 135.2 28.66 1.210 0.770 7.39 1.390 0.570 6.3 1.105 0.660 -2.20 X X 1.25 \END; /*@5@*/ \\EXP,12; PHQ=(QVL,SPIN,PTY,DEFORM-PARA); \\DATA,12; INC-ENGY-LAB=135.2MEV; TOT-ERR=10%; \DATA; EXC-ENGY J-PI DATA1'1' DATA2'2' (KEV) (NODIM) (NODIM) (NODIM) 4082 5 2+ 0.055 0.055 2610 9 3- 0.100 0.100 4315 10 4+ 0.064 0.064 3193 13 5- 0.043 0.043 3709 10 5- 0.030 0.045 4417 9 6+ 0.052 0.078 4604 8 8+ 0.019 0.048 4882 15 10+ 0.000 0.036 5071 7 10+ 0.000 0.040 6076 23 12+ 0.000 0.021 \END; /*@6@*/ /*@7@*/ /*@8@*/ \\END; @@3; '1' QDDM MAGNETIC SPECTROGRAPH @@4; '1' VIBRATIONAL COLLECTIVE MODEL WITH THE FULL THOMAS FORM OF DEFORMED SPIN-ORBIT COUPLING IN WHICH BOTH REAL AND IMAGINARY PARTS OF THE APTIC AL POTENTIAL WERE DEFORMED. IN THE CALCULATIONS THE CENTRAL AND DEFORME D SPIN-ORBIT COUPLING DEFORMA TION PARAMETERS WERE ADJUSTED INDEPENDENTLY TO BEST FIT THE EXPERIMENTA L DATA. @@5; THESE PARAMETERS WERE OBTAINED FROM THE ELASTIC SCATTERING STUDY OF SCH WANDT ET AL.(IUCF TECHN. AND SCI. RPT.(1977-78)79 AND SUBMITTED TO PHYS . REV. C). @@6; '1' DATA1=THE CENTRAL DEFORMATION PARAMETERS '2' DATA2=THE DEFORMED SPI N-ORBIT DEFORMATION PARAMETER. @@7; AN ADDITIONAL RUN AT A PROTON ENERGY OF 100MEV WITH IMPROVED RESOLUTION (35KEV) GAVE SIMILAR RESULTS: J-PI=12-(6415+-18KEV,7037+-12KEV),14-(672 7+-20KEV). @@8; THE J-PI ASSIGNMENTS FOR THE 12+ LEVEL AND THE HIGH SPIN UNNATURAL PARI TY STATES ARE INFERRED FROM THE SHAPES OF THE ANGULAR DISTRIBUTIONS OBS ERVED IN BOTH THE PRESENT (P,P) WORK AND THE (E,E)WORK OF LICHTENSTADT ET AL.(PHYS. REV. LETT. 40(1978)1127;BULL.AM. PHYS. SOC. 24(1979)53; PH YS. REV. C.,TO BE PUBLISHED) @@9; '1' INELASTIC PROTON SPECTRUM AT THETA(LAB)=45DEG IS DISPLAYED IN THE A RTICLE. @@;