\\BIB,1[11; D#=D1230; TITLE=/STRENGTH FUNCTION OF THE D5/2 HOLE STATE IN 39CA/; PURPOSE=/THE STRENGTH FUNCTION OF THE D5/2 HOLE STATE IN 39CA HAS BEEN DETERMIND FROM 40CA(P(POL),D)39CA REACTION AT 65 MEV./; ATH=(M.MATOBA'1',H.IJIRI'1',H.OHGAKI'1',S.UEHARA'1',T.FUJIKI'1', Y.UOZUMI'1',H.KUGIMIYA'1',N.KOORI'2',I.KUMABE'2',M.NAKANO'3'); INST-ATH=(2JPNKYU'1',2JPNKYU'2',2JPNKIT'3'); /*@3@*/ REF=PR/C; VLP=39(1989)1658; RCTS=(40CA(P,D)39CA); PHQS=(ANGL-DSTRN,ANALPW,SPEC-FCTR); \\EXP,1[11; RCT=40CA(P,D)39CA; RTY=(RRG-RCT); \\EXP,1[11; ENR=NAT; CHM=ELM; PHYS-FORM=SLD; THK-TGT=1.1MG/CM**2; BAC=SELF; ACC=(CYC); INST-ACC=2JPNRCN; INC-ENGY-LAB=(65MEV); POL-PRJ=X%; DET-PARTCL=(D); DET-SYS=(MAG,X'4'); /*@4@*/ ERS-DET=30KEV; ANL=(DWBA,SHELL-MODEL); \\EXP,1[10; PHQ=(ANGL-DSTRN,ANALPW); \\DATA,1; INC-ENGY-LAB=65MEV; EXC-ENGY=0.0MEV; J-PTY=3/2+; TRNSF-L=2; /*FIG.1*/ /* D1230 FIG.1 */ /* FOLLOWING DATA ARE TAKEN FROM GRAPH */ \DATA; THTC ANALPW DELTA-ANALPW (DEG) (NODIM) (NODIM) 5.390 1.962E-01 +-XXXXXXXXX 8.321 5.169E-02 +-XXXXXXXXX 11.366 -1.307E-01 +-XXXXXXXXX 14.765 -3.060E-01 +-XXXXXXXXX 17.467 -3.913E-01 +-XXXXXXXXX 20.772 -3.655E-01 +-XXXXXXXXX 24.102 -1.289E-01 +-XXXXXXXXX 27.307 5.553E-02 +-XXXXXXXXX 30.138 5.539E-02 +-XXXXXXXXX 33.429 -3.707E-02 +-XXXXXXXXX 36.606 -9.639E-02 +-XXXXXXXXX 39.440 -6.339E-02 +-0.166E-01 42.520 5.717E-02 +-0.237E-01 46.660 1.635E-01 +-0.213E-01 \END; \\DATA,2; INC-ENGY-LAB=65MEV; EXC-ENGY=5.484MEV; J-PTY=5/2+; TRNSF-L=2; /*FIG.3*/ /* D1230 FIG.3 */ /* FOLLOWING DATA ARE TAKEN FROM GRAPH */ \DATA; THTC ANALPW DELTA-ANALPW (DEG) (NODIM) (NODIM) 4.789 7.403E-02 +-0.238E-01 8.118 1.123E-01 +-0.214E-01 11.329 1.410E-01 +-0.238E-01 14.423 1.483E-01 +-0.167E-01 17.641 1.175E-01 +-XXXXXXXXX 20.982 5.575E-02 +-0.190E-01 23.966 -1.078E-02 +-0.143E-01 26.939 1.318E-02 +-0.214E-01 29.790 6.808E-02 +-0.238E-01 33.112 1.587E-01 +-0.238E-01 36.089 1.589E-01 +-0.167E-01 39.300 1.804E-01 +-0.238E-01 42.394 1.973E-01 +-0.262E-01 46.671 2.689E-01 +-0.190E-01 \END; \\DATA,3; INC-ENGY-LAB=65MEV; EXC-ENGY=6.158MEV; J-PTY=5/2+; TRNSF-L=2; /*FIG.4*/ /* D1230 FIG.4 */ /* FOLLOWING DATA ARE TAKEN FROM GRAPH */ \DATA; THTC ANALPW DELTA-ANALPW (DEG) (NODIM) (NODIM) 5.231 7.495E-02 +-0.193E-01 8.463 1.209E-01 +-0.193E-01 11.454 1.692E-01 +-0.169E-01 14.814 1.525E-01 +-0.169E-01 18.055 1.238E-01 +-XXXXXXXXX 20.941 5.402E-02 +-XXXXXXXXX 24.068 -2.535E-02 +-0.217E-01 27.181 8.535E-03 +-0.169E-01 30.050 7.855E-02 +-0.193E-01 33.518 1.558E-01 +-0.217E-01 36.397 1.511E-01 +-0.217E-01 39.389 1.923E-01 +-0.169E-01 42.627 1.900E-01 +-0.193E-01 46.692 2.914E-01 +-0.241E-01 \END; \\DATA,4; INC-ENGY-LAB=65MEV; EXC-ENGY=7.199MEV; J-PTY=5/2+; TRNSF-L=2; /*FIG.5*/ /* D1230 FIG.5 */ /* FOLLOWING DATA ARE TAKEN FROM GRAPH */ \DATA; THTC ANALPW DELTA-ANALPW (DEG) (NODIM) (NODIM) 5.107 1.860E-02 +-0.256E-01 8.314 5.116E-02 +-0.279E-01 11.164 1.651E-01 +-0.279E-01 14.489 1.535E-01 +-0.256E-01 17.815 1.070E-01 +-0.233E-01 20.784 6.977E-02 +-0.256E-01 24.109 -3.256E-02 +-0.209E-01 26.960 5.814E-02 +-0.372E-01 30.048 7.674E-02 +-0.233E-01 36.223 1.233E-01 +-0.326E-01 39.192 1.395E-01 +-0.256E-01 42.162 1.326E-01 +-0.256E-01 \END; \\DATA,5; INC-ENGY-LAB=65MEV; EXC-ENGY=7.380MEV; J-PTY=5/2+; TRNSF-L=2; /*FIG.6*/ /* D1230 FIG.6 */ /* FOLLOWING DATA ARE TAKEN FROM GRAPH */ \DATA; THTC ANALPW DELTA-ANALPW (DEG) (NODIM) (NODIM) 5.466 3.169E-02 +-0.333E-01 8.538 1.178E-01 +-0.262E-01 11.625 1.611E-01 +-0.333E-01 14.732 1.497E-01 +-0.310E-01 17.849 1.096E-01 +-0.191E-01 21.435 9.111E-02 +-0.333E-01 23.982 -2.281E-02 +-0.286E-01 27.294 5.861E-02 +-0.381E-01 30.163 4.474E-02 +-0.262E-01 33.585 1.524E-01 +-0.381E-01 39.823 6.278E-02 +-0.286E-01 42.741 2.441E-01 +-0.405E-01 47.050 2.067E-01 +-0.381E-01 \END; \\DATA,6; INC-ENGY-LAB=65MEV; EXC-ENGY=7.972MEV; J-PTY=5/2+; TRNSF-L=2; /*FIG.7*/ /* D1230 FIG.7 */ /* FOLLOWING DATA ARE TAKEN FROM GRAPH */ \DATA; THTC ANALPW DELTA-ANALPW (DEG) (NODIM) (NODIM) 5.238 1.749E-03 +-0.264E-01 8.327 4.554E-02 +-0.264E-01 11.517 1.301E-01 +-0.288E-01 14.751 1.212E-01 +-0.287E-01 17.876 8.817E-02 +-0.216E-01 21.000 5.997E-02 +-0.240E-01 24.122 3.417E-02 +-0.240E-01 26.956 1.115E-01 +-0.312E-01 30.053 1.385E-01 +-0.216E-01 33.402 1.391E-01 +-0.216E-01 36.396 1.325E-01 +-0.216E-01 39.515 1.139E-01 +-0.288E-01 42.588 1.913E-01 +-0.360E-01 46.642 2.185E-01 +-0.239E-01 \END; \\DATA,7; INC-ENGY-LAB=65MEV; EXC-ENGY=8.157MEV; J-PTY=5/2+; TRNSF-L=2; /*FIG.8*/ /* D1230 FIG.8 */ /* FOLLOWING DATA ARE TAKEN FROM GRAPH */ \DATA; THTC ANALPW DELTA-ANALPW (DEG) (NODIM) (NODIM) 5.902 -5.089E-02 +-0.331E-01 9.132 4.566E-02 +-0.378E-01 12.120 1.257E-01 +-0.307E-01 15.334 1.585E-01 +-0.213E-01 18.283 7.079E-02 +-0.260E-01 21.244 3.743E-02 +-0.331E-01 24.439 -1.012E-02 +-0.402E-01 27.524 -2.459E-02 +-0.402E-01 30.776 1.688E-01 +-0.307E-01 33.963 8.348E-02 +-0.402E-01 37.060 1.234E-01 +-0.284E-01 39.788 1.066E-01 +-0.473E-01 42.775 1.819E-01 +-0.354E-01 47.170 1.862E-01 +-0.260E-01 \END; \\DATA,8; INC-ENGY-LAB=65MEV; EXC-ENGY=8.336MEV; J-PTY=5/2+; TRNSF-L=2; /*FIG.9*/ /* D1230 FIG.9 */ /* FOLLOWING DATA ARE TAKEN FROM GRAPH */ \DATA; THTC ANALPW DELTA-ANALPW (DEG) (NODIM) (NODIM) 5.595 -5.225E-02 +-0.354E-01 8.662 3.307E-02 +-0.307E-01 11.964 1.326E-01 +-0.307E-01 15.049 1.423E-01 +-0.213E-01 18.271 8.122E-02 +-0.260E-01 21.480 6.735E-02 +-0.212E-01 24.359 -5.047E-02 +-0.425E-01 27.311 2.302E-02 +-0.283E-01 30.500 9.418E-02 +-0.260E-01 33.702 1.134E-01 +-0.260E-01 36.678 8.768E-02 +-0.283E-01 39.635 1.352E-01 +-0.307E-01 42.571 2.772E-01 +-0.402E-01 46.737 2.351E-01 +-0.260E-01 \END; \\DATA,9; INC-ENGY-LAB=65MEV; EXC-ENGY=8.692MEV; J-PTY=5/2+; TRNSF-L=2; /*FIG.10*/ /* D1230 FIG.10 */ /* FOLLOWING DATA ARE TAKEN FROM GRAPH */ \DATA; THTC ANALPW DELTA-ANALPW (DEG) (NODIM) (NODIM) 5.463 2.950E-03 +-0.312E-01 8.665 2.440E-02 +-0.312E-01 12.110 9.864E-02 +-0.336E-01 14.839 1.345E-01 +-0.312E-01 19.571 7.428E-02 +-0.726E-02 21.477 1.606E-01 +-0.264E-01 24.182 -9.950E-03 +-0.288E-01 27.375 -6.291E-02 +-0.408E-01 30.347 2.336E-02 +-0.312E-01 33.800 1.696E-01 +-0.360E-01 36.532 2.223E-01 +-0.312E-01 39.488 1.717E-01 +-0.288E-01 42.812 2.292E-01 +-0.384E-01 46.842 2.410E-01 +-0.336E-01 \END; \\DATA,10; INC-ENGY-LAB=65MEV; EXC-ENGY=5.128MEV; J-PTY=5/2+; TRNSF-L=2; /*FIG.2*/ /* D1230 FIG.2 */ /* FOLLOWING DATA ARE TAKEN FROM GRAPH */ \DATA; THTC ANALPW (DEG) (NODIM) 6.551 8.229E-02 9.557 1.326E-01 12.781 1.573E-01 15.972 1.355E-01 19.014 7.183E-02 22.170 3.513E-03 25.200 -7.640E-02 28.355 1.574E-02 31.150 1.033E-01 34.266 1.420E-01 37.829 1.410E-01 40.665 1.216E-01 43.516 1.231E-01 47.862 2.196E-01 \END; \\EXP,11; PHQ=(SPEC-FCTR); \\DATA,11; INC-ENGY-LAB=65MEV; RSD=39CA; J-PTY=5/2; /*FIG.11*/ /* D1230 FIG.11 */ /* FOLLOWING DATA ARE TAKEN FROM GRAPH */ \DATA; EXC-ENGY SPEC-FCTR (MEV) (NODIM) 5.092 1.019E+00 5.450 4.875E-01 6.133 9.303E-01 7.160 1.872E-01 7.335 1.099E-01 7.927 2.299E-01 8.134 1.067E-01 8.312 1.419E-01 8.672 9.139E-02 \END; \\END; @@3; '1' GRADUATE SCHOOL OF ENGINEERING SCIENCES, KYUSYU UNIVERSITY, KASUGA 816, JAPAN '2' FACULTY OF ENGINEERING, KYUSHU UNIVERSITY, FUKUOKA 812, JAPAN '3' SCHOOL OF NURSING AND TECHNOLOGY, UNIVERSITY OF OCCUPATIONAL AND ENVIRONMENTAL HEALTH, KITAKYUSYU 807, JAPAN @@4; '4' THE EMITTED DEUTERONS ARE ANALYZED WITH THE HIGH-RESOLUTION SPECTROGRAPH RAIDEN AND VIEWED WITH THE FOCAL PLANE DETECTOR SYSTEM KYUSHU (REF: M.MATOBA ET AL., NUCL. INSTRUM. METHODS 180,419(1981).). @@;