/* 2002-03-18 N.OTUKA: 10 POINTS CHECK */ /* 2005-11-01 N.OTUKA: 1-10 INTNSTY -> INTNSTY-GAMMA */ \\BIB,1[10; D#=D1356; TITLE=/LOW-LYING EXCITED STATES IN 213RN AND 215RA/; ATH=(Y.FUKUCHI'1,2',T.KOMATSUBARA'1',H.SAKAMOTO'1',T.AOKI'1', K.FURUNO'1'); /*@2@*/ INST-ATH=(2JPNTSU'1'); REF=JPJ; VLP=57(1988)2976; RCTS=(208PB(9BE,4*N)213RN,206PB(12C,3*N)215RA); PHQS=(ANGL-DSTRN,INTNSTY-GAMMA); \\EXP,9; RCT=208PB(9BE,4*N)213RN; RTY=(RRG-RCT); \\EXP,1[8,10; RCT=206PB(12C,3*N)215RA; RTY=(RRG-RCT); \\EXP,1[10; ENR=90%; CHM=ELM; PHYS-FORM=SLD; THK-TGT=[6MG/CM**2; BAC=SELF; ACC=(VDGT'3'); /*@3@*/ INST-ACC=2JPNTSU; INC-ENGY-LAB=(52MEV'4',67MEV'5'); /*@4@*/ DET-PARTCL=(GAMMA); DET-SYS=(GE(LI)); ERS-DET=2.0[2.5KEV; CALB-DET=/@5@/; EFCN-DET=/@6@/; ANL=(LEGD); PHQ=(ANGL-DSTRN,INTNSTY-GAMMA); \\DATA,1; INC-ENGY-LAB=67MEV; RSD=215RA; EXC-ENGY-INITL=1.821MEV; J-PTY-INITL=21/2?+?; EXC-ENGY-FINAL=1.625MEV; J-PTY-FINAL=17/2?+?; ENGY-GAMMA=0.196MEV; /*FIG.1-(1)*/ \DATA; THTL INTNSTY-GAMMA DELTA-INTNSTY-GAMMA (DEG) (ARB) (ARB) 7.879E+01 9.684E-01 2.340E-02 9.010E+01 9.769E-01 3.782E-02 9.843E+01 9.384E-01 2.610E-02 1.093E+02 9.950E-01 2.655E-02 1.182E+02 9.818E-01 2.925E-02 1.249E+02 9.887E-01 2.747E-02 1.387E+02 1.030E+00 2.161E-02 1.502E+02 1.035E+00 2.205E-02 1.591E+02 1.069E+00 3.286E-02 \END; \\DATA,2; INC-ENGY-LAB=67MEV; RSD=215RA; EXC-ENGY-INITL=0.773MEV; J-PTY-INITL=15/2?+?; EXC-ENGY-FINAL=0.0MEV; ENGY-GAMMA=0.773MEV; /*FIG.1-(2)*/ \DATA; THTL INTNSTY-GAMMA DELTA-INTNSTY-GAMMA (DEG) (ARB) (ARB) 8.031E+01 8.807E-01 1.887E-02 8.848E+01 9.021E-01 2.379E-02 9.840E+01 9.070E-01 2.336E-02 1.093E+02 9.358E-01 1.930E-02 1.166E+02 9.361E-01 2.244E-02 1.233E+02 1.000E+00 2.020E-02 1.404E+02 1.088E+00 2.200E-02 1.491E+02 1.133E+00 2.334E-02 1.600E+02 1.173E+00 3.004E-02 \END; \\DATA,3; INC-ENGY-LAB=67MEV; RSD=215RA; EXC-ENGY-INITL=1.625MEV; J-PTY-INITL=17/2?+?; EXC-ENGY-FINAL=0.773MEV; J-PTY-FINAL=15/2?+?; ENGY-GAMMA=0.852MEV; /*FIG.1-(3)*/ \DATA; THTL INTNSTY-GAMMA DELTA-INTNSTY-GAMMA (DEG) (ARB) (ARB) 7.790E+01 1.053E+00 2.684E-02 9.014E+01 1.039E+00 2.089E-02 9.873E+01 1.043E+00 2.271E-02 1.089E+02 1.024E+00 2.226E-02 1.175E+02 1.016E+00 2.088E-02 1.250E+02 1.001E+00 1.907E-02 1.390E+02 9.829E-01 1.861E-02 1.505E+02 9.348E-01 1.773E-02 1.599E+02 9.312E-01 3.180E-02 \END; \\DATA,4; INC-ENGY-LAB=67MEV; RSD=215RA; EXC-ENGY-INITL=1.821MEV; J-PTY-INITL=21/2?+?; EXC-ENGY-FINAL=0.773MEV; J-PTY-FINAL=15/2?+?; ENGY-GAMMA=1.048MEV; /*FIG.1-(4)*/ \DATA; THTL INTNSTY-GAMMA DELTA-INTNSTY-GAMMA (DEG) (ARB) (ARB) 8.074E+01 1.011E+00 4.758E-02 8.947E+01 9.473E-01 6.294E-02 9.940E+01 9.558E-01 4.351E-02 1.112E+02 8.893E-01 5.157E-02 1.172E+02 9.790E-01 4.892E-02 1.242E+02 9.496E-01 6.070E-02 1.402E+02 1.098E+00 5.843E-02 1.496E+02 1.044E+00 4.897E-02 1.600E+02 1.153E+00 5.798E-02 \END; \\DATA,5; INC-ENGY-LAB=67MEV; RSD=215RA; EXC-ENGY-INITL=1.821MEV; J-PTY-INITL=21/2?+?; EXC-ENGY-FINAL=1.625MEV; J-PTY-FINAL=17/2?+?; THTL-1=90DEG; ENGY-GAMMA=0.196MEV; /*FIG.2-(1)*/ \DATA; PHIL INTNSTY-GAMMA DELTA-INTNSTY-GAMMA (DEG) (ARB) (ARB) 2.722E-01 8.639E-01 1.201E-01 2.363E+01 1.001E+00 1.202E-01 4.454E+01 1.005E+00 1.093E-01 6.629E+01 1.149E+00 1.268E-01 8.917E+01 1.004E+00 1.109E-01 \END; /*@7@*/ \\DATA,6; INC-ENGY-LAB=67MEV; RSD=215RA; EXC-ENGY-INITL=0.773MEV; J-PTY-INITL=15/2?-?; EXC-ENGY-FINAL=0.0MEV; J-PTY-FINAL=9/2?+?; THTL-1=90DEG; ENGY-GAMMA=0.773MEV; /*FIG.2-(2)*/ \DATA; PHIL INTNSTY-GAMMA DELTA-INTNSTY-GAMMA (DEG) (ARB) (ARB) 6.162E-02 8.670E-01 2.405E-02 2.390E+01 9.235E-01 2.853E-02 4.522E+01 9.844E-01 2.305E-02 6.718E+01 1.119E+00 2.597E-02 8.949E+01 1.115E+00 2.565E-02 \END; /*@7@*/ \\DATA,7; INC-ENGY-LAB=67MEV; RSD=215RA; EXC-ENGY-INITL=1.625MEV; J-PTY-INITL=17/2?+?; EXC-ENGY-FINAL=0.773MEV; J-PTY-FINAL=15/2?+?; THTL-1=90DEG; ENGY-GAMMA=0.852MEV; /*FIG.2-(3)*/ \DATA; PHIL INTNSTY-GAMMA DELTA-INTNSTY-GAMMA (DEG) (ARB) (ARB) -1.840E-01 9.384E-01 2.161E-02 2.285E+01 9.973E-01 2.807E-02 4.592E+01 9.868E-01 3.033E-02 6.739E+01 1.044E+00 2.839E-02 8.869E+01 1.030E+00 2.742E-02 \END; /*@7@*/ \\DATA,8; INC-ENGY-LAB=67MEV; RSD=215RA; EXC-ENGY-INITL=1.821MEV; J-PTY-INITL=21/2?+?; EXC-ENGY-FINAL=0.773MEV; J-PTY-FINAL=15/2?-?; THTL-1=90DEG; ENGY-GAMMA=1.048MEV; /*FIG.2-(4)*/ \DATA; PHIL INTNSTY-GAMMA DELTA-INTNSTY-GAMMA (DEG) (ARB) (ARB) 1.763E-01 9.532E-01 8.117E-02 2.393E+01 9.484E-01 9.637E-02 4.575E+01 1.031E+00 8.279E-02 6.775E+01 1.082E+00 9.121E-02 8.952E+01 9.889E-01 8.277E-02 \END; /*@7@*/ \\DATA,9; INC-ENGY-LAB=52MEV; RSD=213RN; \DATA; ENGY-GAMMA INTNSTY-GAMMA'6,89' DELTA-INTNSTY-GAMMA'6,89' INTNSTY-GAMMA'7,89' DELTA-INTNSTY-GAMMA'7,89' LEG-2 DELTA-LEG-2 LEG-4 DELTA-LEG-4 DATA'8' DELTA-DATA'9' DATA'9' (KEV) (%) (%) (%) (%) (NODIM) (NODIM) (NODIM) (NODIM) (NODIM) (NODIM) (NODIM) 135.1 26 6 88 20 0.085 0.012 -0.008 0.023 X X EL-2 344.7 6 3 X X X X X X X X X 411.8 14 2 X X X X X X X X X 522.7 39 2 X X 0.148 0.011 0.017 0.018 -0.01 0.04 EL-3 632.7 89 5 90 5 -0.095 0.006 0.010 0.011 -0.01 0.02 EL-1 728.7 13 2 X X X X X X X X X 767.6 2 1 X X X X X X X X EL-3? 797.1 18 2 X X X X X X X X X 896.0 100 X 103 X 0.155 0.007 0.009 0.011 -0.04 0.02 EL-3 \END; /* '89' Intensity normalized to 100 at 896.0 keV gamma line */ /*@8@*/ \\DATA,10; INC-ENGY-LAB=67MEV; RSD=215RA; \DATA; ENGY-GAMMA INTNSTY-GAMMA'6,90' DELTA-INTNSTY-GAMMA'6,90' INTNSTY-GAMMA'7,90' DELTA-INTNSTY-GAMMA'7,90' LEG-2 DELTA-LEG-2 LEG-4 DELTA-LEG-4 DATA'8' DELTA-DATA'8' DATA'9' (KEV) (%) (%) (%) (%) (NODIM) (NODIM) (NODIM) (NODIM) (NODIM) (NODIM) (NODIM) 173.0 2 1 X X X X X X X X X 175.8 5 2 X X X X X X X X X 195.9 42 12 66 11 0.070 0.013 -0.002 0.021 -0.08 0.07 EL-2 269.3 5 2 X X X X X X X X X 773.2 100 X 104 X 0.227 0.010 0.002 0.016 -0.13 0.01 EL-3 841.8 18 2 X X X X X X X X X 852.4 64 3 64 3 -0.092 0.013 0.001 0.021 -0.04 0.02 EL-1 1048.3 18 2 18 2 0.134 0.039 0.050 0.066 -0.04 0.05 EL-3 \END; /* '90' Intensity normalized to 100 at 773.2 keV gamma line */ /*@8@*/ \\END; @@2; '2' PRESENT ADDRESS --> HITACHI KENKI CO., LTD. 650 KANDATSU-CHO, TSUCH IURA-SHI, IBARAKI 300. @@3; '3' 12UD PELLETRON TANDEM ACCELERATOR @@4; '4' 9BE BOMBARDING ENERGY '5' 12C BOMBARDING ENERGY @@5; THE ENERGY CALIBRATION OF DETECTORS WAS MADE BY MEANS OF STANDARD SOURCES OF 241AM, 22NA, 137CS, 60CO AND 152EU. THE ABSOLUTE ENERGY WAS DETERMINED TO AN ACCURACY OF BETTER THAN 1KEV. @@6; THE ABSOLUTE DETECTION EFFICIENCIES WERE CALIBRATED BY A 152EU SOURCE AT SEVERAL ENERGIES. @@7; INTENSITY DISTRIBUTIONS N(PHI,THETA=90DEG) FOR THE LINEAR POLARIZATION MEASUREMENTS. THE PHI IS THE ANGLE BETWEEN THE REACTION AND COMPTON SCATTERING PLANE. @@8; '6' RELATIVE INTENSITIES DETERMINED FROM GAMMA RAY SINGLES SPECTRA '7' CORRECTED FOR INTERNAL CONVERSION USING TABLES IN R.S. HAGER AND E. C. SELTZER, NUCLEAR DATA A4(1968)1. '8' THE SCATTERED INTENSITIES MEASURED WITH A COMPTON POLARIMETER WERE FITTED WITH THE FUNCTION N(PHI,THETA=90DEG)0N(0)(1+BCOS(2*PHI)). THE POLARIZATION AMPLITUDE B ARE GIVEN BY DATA'8' IN THE TABLE '9' ASSIGNMENT OF GAMMA TRANSITION PROPERTY @@;