/*2004-03-29 N.OTUKA 1.Institute are corrected. 2.Accelerator type is added */ /*2002-08-29 H.YOSHIDA D405 IS DUPLICATION OF D83. D405 IS SELECTED AS MASTER BECAUSE D405 IS REGISTERED WITH EXFOR SYSTEM. */ /* 2002-03-18 N.OTUKA 10 POINTS CHECK */ \\BIB,1[9; D#=D405; TITLE=/ANALYZING POWER FOR THE 208PB(P,T)206PB(3+) REACTION AND (P,D)(D,T) SEQUENTIAL TRANSFER PROCESSES/; PURPOSE=/THE PURPOSE OF THE PRESENT WORK IS TO MEASURE THE ANGULAR DISTRIBUTION OF THE ANALYZING POWER A(TH,3+) FOR THE 208PB(P,T)206PB(3+) REACTION TO CLARIFY THE REACTION MECHANISM, THAT IS, A ONE-STEP PROCESS OR TWO-STEP PROCESS./; ATH=(Y.TOBA'1',Y.AOKI'1',S.KUNORI'1',K.NAGANO'1',K.YAGI'1'); INST-ATH=(2JPNTSU'1'); REF=PR/C; VLP=20(1979)1204; RCTS=(208PB(P,T)206PB); \\EXP,1[9; ENR=99.1%; CHM=ELM; THK-TGT=2.6MG/CM**2; BAC=SELF; POL-TGT=NO; ALGN-TGT=NO; ACC=VDGT; INST-ACC=2JPNTSU; INC-ENGY-LAB-RANGE=(22.0MEV); DELTA-INC-ENGY-LAB=XKEV; ERS-PRJ=XKEV; BEAM-INTNSTY=50NA; POL-PRJ=YES; DET-PARTCL=(T); DET-SYS=(X'1'); /*@3@*/ SOLID-ANGL=2.0MSR; ERS-DET=50KEV; ANL=(OPT-MODEL,DWBA,MILTST); PHQ=(XSECTN,ANGL-DSTRN,ENGY-SPEC,DSIGMA/DOMEGA,ANALPW,OPT-POTL-PARA); \\DATA,1; RSD=206PB; THTL=30DEG; /*@4@*/ /*FIG.1-(A)*/ /* D405 FIG.1-(A) */ /* SER#= 2 */ /* XSCALE=LINEAR YSCALE=LOG */ /* XMAX= 1.00000000E+02 YMAX= 1.00000000E+04 */ /* XMIN= 5.00000000E+01 YMIN= 1.00000000E+00 */ /* FOLLOWING DATA ARE TAKEN FROM GRAPH */ \DATA; CHNL-NMBR COUNTS/CHNL (NODIM) (NODIM) 35.71 4.77E-01 36.65 4.77E-01 37.89 4.77E-01 38.82 4.77E-01 40.37 4.65E-01 41.30 1.00E+00 42.55 1.03E+00 44.10 1.99E+00 44.72 4.65E-01 45.65 4.77E-01 46.58 4.77E-01 47.83 4.65E-01 48.76 4.65E-01 50.00 4.65E-01 50.93 4.89E-01 52.17 2.04E+00 52.79 4.65E-01 54.35 4.65E-01 55.59 4.65E-01 56.21 1.03E+00 56.52 4.65E-01 58.70 1.00E+00 59.63 1.00E+00 59.94 4.53E-01 61.80 1.99E+00 62.73 2.04E+00 63.35 4.65E-01 63.98 1.03E+00 65.22 1.00E+00 66.15 4.17E+00 67.08 2.04E+00 67.70 4.53E-01 69.25 4.53E-01 70.19 3.00E+00 71.43 4.07E+00 72.67 3.97E+00 72.98 1.19E+01 74.22 1.79E+01 74.53 1.02E+01 76.09 1.46E+01 77.33 2.98E+01 78.88 3.74E+01 80.43 6.56E+01 81.06 1.04E+02 81.99 1.73E+02 83.54 2.74E+02 84.47 4.45E+02 84.78 6.86E+02 86.02 9.81E+02 86.96 1.40E+03 87.89 2.06E+03 88.82 2.34E+03 90.37 2.79E+03 90.99 2.86E+03 91.61 2.59E+03 92.86 2.11E+03 93.79 1.51E+03 94.72 8.64E+02 95.96 4.45E+02 96.58 1.92E+02 97.83 6.40E+01 98.76 1.46E+01 99.38 7.13E+00 100.31 2.04E+00 101.55 3.07E+00 101.86 4.53E-01 103.42 1.03E+00 104.04 4.53E-01 105.59 3.15E+00 106.21 1.03E+00 107.45 4.53E-01 108.39 4.42E-01 110.25 4.53E-01 111.18 4.42E-01 \END; \\DATA,2; RSD=206PB; THTL=30DEG; /*@4@*/ /*FIG.1-(B)*/ /* D405 FIG.1-(B) */ /* SER#= 1 */ /* XSCALE=LINEAR YSCALE=LOG */ /* XMAX= 1.00000000E+02 YMAX= 1.00000000E+04 */ /* XMIN= 2.50000000E+01 YMIN= 1.00000000E+00 */ /* FOLLOWING DATA ARE TAKEN FROM GRAPH */ \DATA; CHNL-NMBR COUNTS/CHNL (NODIM) (NODIM) 3.09 9.26E+00 4.01 3.59E+01 5.25 6.64E+01 5.86 7.94E+01 7.10 4.64E+01 8.02 6.64E+01 8.64 6.64E+01 10.49 1.03E+02 11.42 1.43E+02 12.35 2.10E+02 13.58 2.85E+02 14.51 3.98E+02 15.43 5.55E+02 16.05 8.15E+02 17.28 1.00E+03 18.52 1.23E+03 19.14 1.36E+03 20.06 1.36E+03 20.99 1.26E+03 21.91 9.50E+02 23.15 6.31E+02 24.07 4.08E+02 25.31 1.85E+02 25.93 7.94E+01 27.16 2.78E+01 28.09 4.76E+00 28.70 7.36E+00 30.25 5.99E+00 30.86 1.03E+00 32.10 2.10E+00 33.02 3.00E+00 34.57 3.98E+00 35.19 5.01E+00 36.11 5.99E+00 37.35 4.64E-01 38.27 1.67E+01 39.51 1.00E+01 40.43 1.94E+01 41.36 3.16E+01 41.98 4.52E+01 42.90 7.74E+01 43.83 9.03E+01 45.06 1.58E+02 45.99 2.21E+02 46.91 2.78E+02 48.15 3.98E+02 49.07 4.19E+02 50.00 4.52E+02 50.62 4.52E+02 52.16 4.41E+02 53.09 3.41E+02 54.01 2.00E+02 55.56 1.58E+02 56.17 4.89E+01 57.41 2.39E+01 58.02 3.08E+00 58.95 1.94E+00 59.88 3.00E+00 61.11 1.03E+00 62.04 3.00E+00 63.27 7.94E+00 63.89 1.33E+01 65.12 9.75E+00 65.43 2.45E+01 66.98 2.00E+01 67.90 2.58E+01 68.83 2.64E+01 70.37 1.67E+01 70.99 1.20E+01 72.53 1.51E+01 73.46 9.75E+00 74.07 5.84E+00 75.00 1.00E+00 76.85 2.05E+00 77.47 1.00E+00 78.39 4.52E-01 79.32 2.10E+00 79.94 1.00E+00 81.48 4.64E-01 82.41 2.00E+00 83.33 3.08E+00 84.26 4.08E+00 85.19 2.00E+00 85.80 4.08E+00 87.35 8.15E+00 88.27 9.03E+00 89.51 1.76E+01 90.12 2.27E+01 91.36 3.78E+01 92.28 3.98E+01 93.21 5.99E+01 94.44 7.55E+01 95.37 6.99E+01 96.30 7.17E+01 97.22 8.15E+01 98.46 6.64E+01 99.07 5.01E+01 100.31 3.33E+01 101.23 2.21E+01 102.16 7.17E+00 103.09 1.03E+00 104.01 1.00E+00 104.94 4.64E-01 105.56 4.64E-01 107.10 2.10E+00 108.02 2.05E+00 108.64 4.52E-01 110.19 4.64E-01 111.42 4.52E-01 112.65 4.52E-01 114.20 4.64E-01 \END; \\DATA,3; EXC-ENGY=1.34MEV; DELTA-EXC-ENGY=XMEV; J-PI=3+; /*FIG.2-(A)*/ /* D405 FIG.2-(A) */ /* SER#= 3 */ /* XSCALE=LINEAR YSCALE=LOG */ /* XMAX= 6.00000000E+01 YMAX= 1.00000000E+01 */ /* XMIN= 0.00000000E+00 YMIN= 1.00000000E+00 */ /* FOLLOWING DATA ARE TAKEN FROM GRAPH */ \DATA; THTC DSIGMA/DOMEGA (DEG) (UB/SR) 7.15 2.60E+00 9.54 3.01E+00 14.70 4.78E+00 19.87 5.60E+00 25.23 4.99E+00 30.00 3.23E+00 35.76 2.25E+00 40.93 1.84E+00 45.50 1.81E+00 50.66 1.28E+00 55.83 1.09E+00 60.79 1.11E+00 65.76 8.28E-01 \END; \\DATA,4; EXC-ENGY=1.34MEV; DELTA-EXC-ENGY=XMEV; J-PI=3+; /*FIG.2-(B)*/ /* D405 FIG.2-(B) */ /* SER#= 4 */ /* XSCALE=LINEAR YSCALE=LINEAR */ /* XMAX= 6.00000000E+01 YMAX= 5.00000000E-01 */ /* XMIN= 0.00000000E+00 YMIN=-5.00000000E-01 */ /* FOLLOWING DATA ARE TAKEN FROM GRAPH */ \DATA; THTC ANALPW DELTA-ANALPW (DEG) (NODIM) (NODIM) 7.33 3.59E-01 6.25E-02 9.90 4.84E-01 3.90E-02 15.45 3.91E-01 4.68E-02 20.59 2.66E-01 4.29E-02 25.54 1.25E-01 3.90E-02 30.69 0.00E+00 3.90E-02 35.45 -2.50E-01 6.25E-02 40.99 -2.81E-01 5.07E-02 45.54 -2.30E-01 5.46E-02 50.49 -2.03E-01 6.25E-02 56.24 -3.32E-01 8.59E-02 60.59 -5.23E-01 6.64E-02 65.94 -3.32E-01 8.59E-02 \END; \\DATA,5; EXC-ENGY=0.0MEV; DELTA-EXC-ENGY=XMEV; J-PI=0+; /*FIG.3-(A)*/ /* D405 FIG.3-(A) */ /* SER#= 5 */ /* XSCALE=LINEAR YSCALE=LOG */ /* XMAX= 6.00000000E+01 YMAX= 1.00000000E+03 */ /* XMIN= 0.00000000E+00 YMIN= 1.00000000E+01 */ /* FOLLOWING DATA ARE TAKEN FROM GRAPH */ \DATA; THTC DSIGMA/DOMEGA (DEG) (UB/SR) 5.79 3.98E+02 7.71 2.04E+02 10.07 5.83E+01 11.36 1.42E+01 13.50 4.52E+01 14.79 1.21E+02 20.14 4.82E+02 24.64 6.31E+02 30.43 4.45E+02 35.57 1.56E+02 37.50 6.51E+01 40.07 5.65E+01 43.29 9.24E+01 45.64 1.64E+02 50.57 2.47E+02 55.29 2.40E+02 60.43 1.49E+02 65.14 9.24E+01 \END; \\DATA,6; EXC-ENGY=0.0MEV; DELTA-EXC-ENGY=XMEV; J-PI=0+; /*FIG.3-(B)*/ /* D405 FIG.3-(B) */ /* SER#= 6 */ /* XSCALE=LINEAR YSCALE=LINEAR */ /* XMAX= 6.00000000E+01 YMAX= 5.00000000E-01 */ /* XMIN= 0.00000000E+00 YMIN=-5.00000000E-01 */ /* FOLLOWING DATA ARE TAKEN FROM GRAPH */ \DATA; THTC ANALPW DELTA-ANALPW (DEG) (NODIM) (NODIM) 5.34 -6.41E-02 XXXXXXXX 7.90 -1.79E-01 XXXXXXXX 10.25 -3.55E-01 5.55E-02 11.53 -1.54E-01 3.41E-02 13.45 4.19E-01 3.84E-02 15.16 2.91E-01 4.27E-02 20.50 9.40E-02 2.56E-02 25.20 1.28E-02 XXXXXXXX 30.11 -1.37E-01 XXXXXXXX 35.23 -4.19E-01 XXXXXXXX 37.58 -5.60E-01 XXXXXXXX 39.93 -9.83E-02 XXXXXXXX 42.92 2.44E-01 2.56E-02 45.27 2.39E-01 XXXXXXXX 50.60 7.69E-02 XXXXXXXX 55.30 -1.11E-01 XXXXXXXX 60.43 -2.99E-01 XXXXXXXX 65.55 -2.05E-01 XXXXXXXX \END; \\DATA,7; PRJ=P; TGT=208PB; INC-ENGY=22MEV; 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**1): 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 WS RIS AIS VSO RRSO ARSO RC (MEV) (MEV) (FM) (FM) (MEV) (FM) (FM) (MEV) (FM) (FM) (MEV) (FM) (FM) (FM) 22.0 51.8 1.25 0.65 0 X X 10 1.25 0.76 6 1.12 0.47 1.25 22.0 57.6 1.17 0.75 2.14 1.32 0.66 8.84 1.32 0.66 6.2 1.01 0.75 1.25 \END; \\DATA,8; PRJ=D; 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 WS RIS AIS VSO RRSO ARSO RC (MEV) (MEV) (FM) (FM) (MEV) (FM) (FM) (MEV) (FM) (FM) (MEV) (FM) (FM) (FM) X 112 1.25 0.682 0 X X 19.4 1.25 0.783 6 1.12 0.47 1.25 X 105 1.15 0.81 0 X X 19.68 1.34 0.68 0 X X 1.15 \END; \\DATA,9; PRJ=T; TGT=206PB; 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 WS RIS AIS VSO RRSO ARSO RC (MEV) (MEV) (FM) (FM) (MEV) (FM) (FM) (MEV) (FM) (FM) (MEV) (FM) (FM) (FM) X 168.9 1.2 0.65 9.9 1.6 0.97 0 X X 6 1.15 0.92 1.3 X 160.9 1.2 0.73 17.3 1.4 0.84 0 X X 2.5 1.2 0.72 1.3 \END; \\END; @@3; '1' MAGNETIC SPECTROGRAPH @@4; SPIN UP @@;