/* 2006-11-22 File is generated by HENDEL. */ \\BIB,1[21; D#=D1872; TITLE=/ (d,alpha) reactions on 19F, 20Ne, 31P and 32S at 14.7 MeV /; ATH=(K.TAKAMATSU'1'); INST-ATH=(2JPNKTO'1'); /* '1' Department of Physics, Faculty of Science */ REF=JPJ; VLP=17(1962)896; RCTS=(19F(D,ALPHA)17O, 31P(D,ALPHA)29SI, 20NE(D,ALPHA)18F, 32S(D,ALPHA)30P, 24MG(D,ALPHA)22NA); PHQS=(ANGL-DSTRN, XSECTN); \\EXP,1[21; /* 2004-02-20 : Compiled, Ic + On */ /* Related references - K.Kimura et al., JPJ, 17(1962)9. (Details of beam handling and scattering chamber) - T.Yanabu et al., JPJ, 17(1962)914. (Details of detecting system) - M.el Nadi, PR, 119(1960)242. (Two-nucleon picjup process formula used in analysis) - H.C.Newns, PPS, 76(1960)489. (Two-nucleon picjup process formula used in analysis) */ /* Additional results shown but not compiled - Energy distribution (Typical pulse-height spectrum (channel number v.s. counts/channel) of alpha particlles are shown for 19F, 20Ne, 31P and 32S target.) */ POL-TGT=0%; ALGN-TGT=0%; ACC=CYC; INST-ACC=2JPNKTO; POL-PRJ=0%; DET-PARTCL=ALPHA; COINC=NO; ANT-COINC=NO; DET-SYS=(SI'2',CSI'3'); /* '2' To detect alpha. Energy calibration was done with the alpha particles produced in the known reactions such as 27Al(p,alpha)24Mg, 16O(d,alpha)14N and 27Al(d,alpha)25Mg etc. */ /* '3' CSI(Tl) scintillation counter to monitor the beam current of incident deuterons */ ERS-DET=1.2%'4'; /* '4' Value at 20 MeV */ /* Experimental Method: - Beam current integrated (Conventional current integrator with an accuracy better than 10%) */ \\EXP,1; /* 2006-10-05 : Altered, Is. Re-digitized */ RCT=19F(D,ALPHA)17O; PHQ=ANGL-DSTRN; CHM=X'5'; /* '5' Polytetra-fluorethylene (Teflon) */ PHYS-FORM=SLD; THK-TGT=0.76MG/CM**2; INC-ENGY-LAB=14.7MEV; ANL=DIRECT-PROC'6'; /* '6' Formulae proposed by el Nadi and Newns */ \\DATA,1; INC-ENGY-LAB=14.7MEV; TOT-ERR=X%'7'; /* '7' Uncertainty in counting and in spectral analysis of the pulse-height spectra of alpha */ SYS-ERR=<30%'8'; /* '8' Maximum uncertainty of absolute values arise from beam current and target thickness estimation */ EXC-ENGY=0.0MEV; J-PTY=5/2+; DELTA-THTL=+-1.5DEG; \DATA; THTC DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA (DEG) (MB/SR) (MB/SR) 2.305E+01 5.373E-01 +-1.253E-02 3.327E+01 2.565E-01 +-1.002E-02 4.438E+01 2.175E-01 +-1.002E-02 5.484E+01 7.699E-02 +-1.002E-02 6.599E+01 6.056E-02 +-NEGLIGIBLE 7.675E+01 8.924E-02 +-NEGLIGIBLE 8.700E+01 8.786E-02 +-NEGLIGIBLE 9.628E+01 6.643E-02 +-NEGLIGIBLE 1.061E+02 7.007E-02 +-NEGLIGIBLE 1.159E+02 8.247E-02 +-NEGLIGIBLE 1.261E+02 8.986E-02 +-NEGLIGIBLE 1.359E+02 5.966E-02 +-NEGLIGIBLE 1.447E+02 7.834E-02 +-NEGLIGIBLE 1.541E+02 1.058E-01 +-NEGLIGIBLE 1.629E+02 9.190E-02 +-NEGLIGIBLE \END; /* Data scanned from Fig.4, p899 in reference */ \\EXP,2; /* 2006-10-05 : Altered, Is. Re-digitized */ RCT=19F(D,ALPHA)17O; PHQ=ANGL-DSTRN; CHM=X'9'; /* '9' Polytetra-fluorethylene (Teflon) */ PHYS-FORM=SLD; THK-TGT=0.76MG/CM**2; INC-ENGY-LAB=14.7MEV; ANL=DIRECT-PROC'10'; /* '10' Formulae proposed by el Nadi and Newns */ \\DATA,2; INC-ENGY-LAB=14.7MEV; SYS-ERR=<30%'11'; /* '11' Maximum uncertainty of absolute values arise from beam current and target thickness estimation */ EXC-ENGY=0.87MEV; J-PTY=1/2+; DELTA-THTL=+-1.5DEG; \DATA; THTC DSIGMA/DOMEGA (DEG) (MB/SR) 2.264E+01 1.317E-01 3.408E+01 7.609E-02 4.467E+01 4.690E-02 5.584E+01 5.800E-02 6.647E+01 4.519E-02 7.663E+01 2.986E-02 8.641E+01 4.225E-02 9.755E+01 4.453E-02 1.068E+02 3.552E-02 1.170E+02 2.271E-02 1.258E+02 3.638E-02 1.356E+02 6.137E-02 1.453E+02 3.220E-02 1.537E+02 4.965E-02 1.631E+02 8.850E-02 \END; /* Data scanned from Fig.4, p899 in reference */ \\EXP,3; /* 2006-10-05 : Altered, Is. Re-digitized */ RCT=19F(D,ALPHA)17O; PHQ=ANGL-DSTRN; CHM=X'12'; /* '12' Polytetra-fluorethylene (Teflon) */ PHYS-FORM=SLD; THK-TGT=0.76MG/CM**2; INC-ENGY-LAB=14.7MEV; \\DATA,3; INC-ENGY-LAB=14.7MEV; SYS-ERR=<30%'13'; /* '13' Maximum uncertainty of absolute values arise from beam current and target thickness estimation */ EXC-ENGY=3.058MEV; J-PTY=1/2?-?; DELTA-THTL=+-1.5DEG; \DATA; THTC DSIGMA/DOMEGA (DEG) (MB/SR) 2.337E+01 3.942E-02 3.359E+01 4.284E-02 4.558E+01 2.610E-02 5.668E+01 1.819E-02 6.780E+01 1.655E-02 7.752E+01 1.120E-02 8.773E+01 1.211E-02 9.751E+01 2.057E-02 1.082E+02 1.644E-02 1.174E+02 1.486E-02 1.276E+02 1.201E-02 1.360E+02 1.298E-02 1.453E+02 2.522E-02 1.542E+02 4.000E-02 1.626E+02 4.097E-02 \END; /* Data scanned from Fig.4, p899 in reference */ \\EXP,4; /* 2006-10-05 : Altered, Is. Re-digitized */ RCT=19F(D,ALPHA)17O; PHQ=ANGL-DSTRN; CHM=X'14'; /* '14' Polytetra-fluorethylene (Teflon) */ PHYS-FORM=SLD; THK-TGT=0.76MG/CM**2; INC-ENGY-LAB=14.7MEV; ANL=DIRECT-PROC'15'; /* '15' Formulae proposed by el Nadi and Newns */ \\DATA,4; INC-ENGY-LAB=14.7MEV; TOT-ERR=X%'16'; /* '16' Uncertainty in counting and in spectral analysis of the pulse-height spectra of alpha */ SYS-ERR=<30%'17'; /* '17' Maximum uncertainty of absolute values arise from beam current and target thickness estimation */ EXC-ENGY=3.846MEV; J-PTY=7/2?; DELTA-THTL=+-1.5DEG; \DATA; THTC DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA (DEG) (MB/SR) (MB/SR) 2.239E+01 1.355E-01 +-NEGLIGIBLE 3.292E+01 9.109E-02 +-NEGLIGIBLE 4.391E+01 4.792E-02 +-NEGLIGIBLE 5.423E+01 6.906E-02 +-1.008E-02 6.623E+01 4.477E-02 +-7.563E-03 7.644E+01 3.944E-02 +-NEGLIGIBLE 8.621E+01 3.917E-02 +-NEGLIGIBLE 9.736E+01 3.634E-02 +-NEGLIGIBLE 1.066E+02 9.608E-03 +-NEGLIGIBLE 1.168E+02 2.067E-02 +-NEGLIGIBLE 1.275E+02 1.028E-02 +-NEGLIGIBLE \END; /* Data scanned from Fig.4, p899 in reference */ \\EXP,5; /* 2006-10-05 : Altered, Is. Re-digitized */ RCT=19F(D,ALPHA)17O; PHQ=ANGL-DSTRN; CHM=X'18'; /* '18' Polytetra-fluorethylene (Teflon) */ PHYS-FORM=SLD; THK-TGT=0.76MG/CM**2; INC-ENGY-LAB=14.7MEV; \\DATA,5; INC-ENGY-LAB=14.7MEV; SYS-ERR=<30%'19'; /* '19' Maximum uncertainty of absolute values arise from beam current and target thickness estimation */ EXC-ENGY=4.555MEV; J-PTY=3/2-; DELTA-THTL=+-1.5DEG; \DATA; THTC DSIGMA/DOMEGA (DEG) (MB/SR) 2.330E+01 5.388E-02 3.393E+01 3.609E-02 4.555E+01 4.601E-02 5.619E+01 2.821E-02 6.685E+01 2.302E-02 7.660E+01 2.919E-02 8.680E+01 2.526E-02 9.653E+01 1.756E-02 1.077E+02 2.245E-02 1.267E+02 2.344E-02 \END; /* Data scanned from Fig.4, p899 in reference */ \\EXP,6; /* 2006-10-05 : Altered, Is. Re-digitized */ RCT=31P(D,ALPHA)29SI; PHQ=ANGL-DSTRN; CHM=ELM; PHYS-FORM=SLD'20'; /* '20' Red phosphor */ THK-TGT=(0.6MG/CM**2, 2.7MG/CM**2); BAC=MYLAR; THK-BAC=0.9MG/CM**2; INC-ENGY-LAB=14.7MEV; ANL=DIRECT-PROC'21'; /* '21' Formulae proposed by el Nadi and Newns */ \\DATA,6; INC-ENGY-LAB=14.7MEV; TOT-ERR=X%'22'; /* '22' Uncertainty in counting and in spectral analysis of the pulse-height spectra of alpha */ SYS-ERR=<30%'23'; /* '23' Maximum uncertainty of absolute values arise from beam current and target thickness estimation */ EXC-ENGY=0.0MEV; J-PTY=1/2+; DELTA-THTL=+-1.5DEG; \DATA; THTC DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA (DEG) (MB/SR) (MB/SR) 2.273E+01 1.548E-01 +-7.055E-03 3.254E+01 5.843E-02 +-2.470E-03 3.738E+01 4.254E-02 +-3.175E-03 4.365E+01 6.050E-02 +-3.880E-03 4.826E+01 7.177E-02 +-4.938E-03 5.349E+01 7.281E-02 +-3.527E-03 6.477E+01 2.762E-02 +-2.116E-03 6.965E+01 1.913E-02 +-2.822E-03 7.424E+01 2.405E-02 +-2.469E-03 7.987E+01 2.262E-02 +-2.281E-03 8.481E+01 2.488E-02 +-3.041E-03 9.462E+01 1.318E-02 +-2.027E-03 1.045E+02 1.492E-02 +-3.801E-03 1.143E+02 1.488E-02 +-3.295E-03 1.246E+02 7.488E-03 +-1.775E-03 1.338E+02 8.213E-03 +-2.788E-03 1.434E+02 7.415E-03 +-2.027E-03 1.521E+02 1.676E-02 +-3.295E-03 1.618E+02 1.976E-02 +-2.789E-03 \END; /* Data scanned from Fig.6, p900 in reference */ \\EXP,7; /* 2006-10-05 : Altered, Is. Re-digitized */ RCT=20NE(D,ALPHA)18F; PHQ=ANGL-DSTRN; ENR=NAT; CHM=ELM; PHYS-FORM=GAS; THK-TGT=XMG/CM**2'24'; /* '24' about 30 cmHg */ INC-ENGY-LAB=14.5MEV; ANL=DIRECT-PROC'25'; /* '25' Formulae proposed by el Nadi and Newns */ \\DATA,7; INC-ENGY-LAB=14.5MEV; SYS-ERR=(<20%'26',<20%'27'); /* '26' Maximum uncertainty of absolute values arise from spectrum analysis */ /* '27' Maximum uncertainty of absolute values arise from beam current estimation */ EXC-ENGY=0.0MEV; J-PTY=1+; DELTA-THTL=+-3DEG; \DATA; THTC DSIGMA/DOMEGA (DEG) (MB/SR) 2.282E+01 1.267E+00 3.419E+01 6.607E-01 4.535E+01 1.633E-01 5.603E+01 1.268E-01 6.535E+01 1.905E-01 7.585E+01 1.925E-01 8.769E+01 1.031E-01 9.225E+01 1.725E-01 9.758E+01 2.297E-01 1.071E+02 1.932E-01 1.167E+02 1.284E-01 1.270E+02 5.910E-02 1.365E+02 8.787E-02 1.453E+02 2.145E-01 1.536E+02 2.514E-01 1.624E+02 4.311E-01 1.677E+02 5.943E-01 \END; /* Data scanned from Fig.8, p901 in reference */ \\EXP,8; /* 2006-10-05 : Altered, Is. Re-digitized */ RCT=20NE(D,ALPHA)18F; PHQ=ANGL-DSTRN; ENR=NAT; CHM=ELM; PHYS-FORM=GAS; THK-TGT=XMG/CM**2'28'; /* '28' about 30 cmHg */ INC-ENGY-LAB=14.5MEV; \\DATA,8; INC-ENGY-LAB=14.5MEV; SYS-ERR=(<20%'29',<20%'30'); /* '29' Maximum uncertainty of absolute values arise from spectrum analysis */ /* '30' Maximum uncertainty of absolute values arise from beam current estimation */ DELTA-THTL=+-3DEG; DATA1=1'31'; /* '31' First to fourth excited states could not be resolved in author's detecting system. */ DATA2=2; DATA3=3; DATA4=4; \DATA; THTC DSIGMA/DOMEGA (DEG) (MB/SR) 2.383E+01 2.428E+00 3.447E+01 1.488E+00 4.581E+01 1.147E+00 5.599E+01 1.050E+00 6.735E+01 5.173E-01 7.712E+01 6.841E-01 8.803E+01 7.371E-01 9.293E+01 7.453E-01 9.782E+01 7.697E-01 1.087E+02 9.284E-01 1.174E+02 9.814E-01 1.268E+02 9.775E-01 1.358E+02 1.404E+00 1.463E+02 1.559E+00 1.538E+02 1.405E+00 1.628E+02 1.698E+00 1.673E+02 2.076E+00 \END; /* Data scanned from Fig.8, p901 in reference */ \\EXP,9; /* 2006-10-05 : Altered, Is. Re-digitized */ RCT=20NE(D,ALPHA)18F; PHQ=ANGL-DSTRN; ENR=NAT; CHM=ELM; PHYS-FORM=GAS; THK-TGT=XMG/CM**2'32'; /* '32' about 30 cmHg */ INC-ENGY-LAB=14.5MEV; ANL=DIRECT-PROC'33'; /* '33' Formulae proposed by el Nadi and Newns */ \\DATA,9; INC-ENGY-LAB=14.5MEV; TOT-ERR=X%'34'; /* '34' Uncertainty in counting and in spectral analysis of the pulse-height spectra of alpha */ SYS-ERR=(<20%'35',<20%'36'); /* '35' Maximum uncertainty of absolute values arise from spectrum analysis */ /* '36' Maximum uncertainty of absolute values arise from beam current estimation */ EXC-ENGY=1.70MEV; J-PTY=1+; DELTA-THTL=+-3DEG; \DATA; THTC DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA (DEG) (MB/SR) (MB/SR) 2.357E+01 4.552E-01 +-4.888E-02 3.447E+01 3.325E-01 +-4.888E-02 4.501E+01 2.628E-01 +-3.666E-02 5.671E+01 2.622E-01 +-3.666E-02 6.760E+01 1.233E-01 +-NEGLIGIBLE 7.779E+01 1.310E-01 +-NEGLIGIBLE 8.835E+01 1.264E-01 +-NEGLIGIBLE 9.439E+01 1.261E-01 +-3.666E-02 9.853E+01 1.056E-01 +-NEGLIGIBLE 1.087E+02 1.296E-01 +-NEGLIGIBLE 1.167E+02 1.251E-01 +-NEGLIGIBLE 1.276E+02 8.800E-02 +-NEGLIGIBLE 1.366E+02 1.039E-01 +-NEGLIGIBLE 1.457E+02 1.646E-01 +-NEGLIGIBLE 1.540E+02 2.253E-01 +-4.073E-02 1.628E+02 3.512E-01 +-4.073E-02 1.684E+02 3.306E-01 +-4.481E-02 \END; /* Data scanned from Fig.8, p901 in reference */ \\EXP,10; /* 2006-10-05 : Altered, Is. Re-digitized */ RCT=20NE(D,ALPHA)18F; PHQ=ANGL-DSTRN; ENR=NAT; CHM=ELM; PHYS-FORM=GAS; THK-TGT=XMG/CM**2'37'; /* '37' about 30 cmHg */ INC-ENGY-LAB=14.5MEV; ANL=DIRECT-PROC'38'; /* '38' Formulae proposed by el Nadi and Newns */ \\DATA,10; INC-ENGY-LAB=14.5MEV; TOT-ERR=X%'39'; /* '39' Uncertainty in counting and in spectral analysis of the pulse-height spectra of alpha */ SYS-ERR=(<20%'40',<20%'41'); /* '40' Maximum uncertainty of absolute values arise from spectrum analysis */ /* '41' Maximum uncertainty of absolute values arise from beam current estimation */ EXC-ENGY=2.10MEV; J-PTY=(1,2); DELTA-THTL=+-3DEG; \DATA; THTC DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA (DEG) (MB/SR) (MB/SR) 2.300E+01 6.272E-01 +-6.024E-02 3.367E+01 3.704E-01 +-4.016E-02 4.431E+01 2.463E-01 +-4.016E-02 5.493E+01 1.743E-01 +-NEGLIGIBLE 6.629E+01 2.268E-01 +-4.418E-02 7.655E+01 8.251E-02 +-NEGLIGIBLE 8.715E+01 1.270E-01 +-NEGLIGIBLE 9.243E+01 2.115E-01 +-4.418E-02 9.736E+01 1.795E-01 +-NEGLIGIBLE 1.072E+02 1.356E-01 +-NEGLIGIBLE 1.171E+02 1.600E-01 +-NEGLIGIBLE 1.269E+02 1.603E-01 +-NEGLIGIBLE 1.360E+02 2.609E-01 +-4.017E-02 1.451E+02 2.491E-01 +-4.016E-02 1.534E+02 2.614E-01 +-4.016E-02 1.625E+02 2.817E-01 +-4.016E-02 1.667E+02 3.220E-01 +-4.418E-02 \END; /* Data scanned from Fig.8, p901 in reference */ \\EXP,11; /* 2006-10-05 : Altered, Is. Re-digitized */ RCT=20NE(D,ALPHA)18F; PHQ=ANGL-DSTRN; ENR=NAT; CHM=ELM; PHYS-FORM=GAS; THK-TGT=XMG/CM**2'42'; /* '42' about 30 cmHg */ INC-ENGY-LAB=14.5MEV; ANL=DIRECT-PROC'43'; /* '43' Formulae proposed by el Nadi and Newns */ \\DATA,11; INC-ENGY-LAB=14.5MEV; TOT-ERR=X%'44'; /* '44' Uncertainty in counting and in spectral analysis of the pulse-height spectra of alpha */ SYS-ERR=(<20%'45',<20%'46'); /* '45' Maximum uncertainty of absolute values arise from spectrum analysis */ /* '46' Maximum uncertainty of absolute values arise from beam current estimation */ EXC-ENGY=2.53MEV; DELTA-THTL=+-3DEG; \DATA; THTC DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA (DEG) (MB/SR) (MB/SR) 2.335E+01 4.350E-01 +-5.691E-02 3.351E+01 1.748E-01 +-NEGLIGIBLE 4.406E+01 1.260E-01 +-NEGLIGIBLE 5.573E+01 6.911E-02 +-NEGLIGIBLE 6.665E+01 7.317E-02 +-NEGLIGIBLE 7.757E+01 6.504E-02 +-NEGLIGIBLE 8.736E+01 1.057E-01 +-NEGLIGIBLE 9.339E+01 8.130E-02 +-NEGLIGIBLE 9.791E+01 8.130E-02 +-NEGLIGIBLE 1.077E+02 8.943E-02 +-NEGLIGIBLE 1.179E+02 1.301E-01 +-NEGLIGIBLE 1.273E+02 1.463E-01 +-NEGLIGIBLE 1.374E+02 6.098E-02 +-NEGLIGIBLE 1.442E+02 1.138E-01 +-NEGLIGIBLE 1.540E+02 1.829E-01 +-4.065E-02 1.623E+02 1.951E-01 +-2.846E-02 1.671E+02 2.439E-01 +-3.821E-02 \END; /* Data scanned from Fig.8, p901 in reference */ \\EXP,12; /* 2006-10-05 : Altered, Is. Re-digitized */ RCT=32S(D,ALPHA)30P; PHQ=ANGL-DSTRN; CHM=X'47'; /* '47' Hydrogen sulfide */ PHYS-FORM=GAS; THK-TGT=XMG/CM**2'48'; /* '48' about 30 cmHg */ INC-ENGY-LAB=14.5MEV; ANL=DIRECT-PROC'49'; /* '49' Formulae proposed by el Nadi and Newns */ \\DATA,12; INC-ENGY-LAB=14.5MEV; SYS-ERR=<20%'50'; /* '50' Maximum uncertainty of absolute values arise from beam current estimation */ EXC-ENGY=0.0MEV; J-PTY=1+; DELTA-THTL=+-3DEG; \DATA; THTC DSIGMA/DOMEGA (DEG) (MB/SR) 2.170E+01 2.931E-01 2.688E+01 1.765E-01 3.284E+01 1.348E-01 4.270E+01 1.444E-01 5.322E+01 9.413E-02 6.324E+01 7.124E-02 7.381E+01 7.463E-02 8.385E+01 7.573E-02 9.438E+01 2.998E-02 1.039E+02 5.508E-02 1.134E+02 7.104E-02 1.240E+02 4.129E-02 1.335E+02 4.353E-02 1.430E+02 4.921E-02 1.525E+02 5.031E-02 1.620E+02 7.084E-02 \END; /* Data scanned from Fig.10, p902 in reference */ \\EXP,13; /* 2006-10-05 : Altered, Is. Re-digitized */ RCT=32S(D,ALPHA)30P; PHQ=ANGL-DSTRN; CHM=X'51'; /* '51' Hydrogen sulfide */ PHYS-FORM=GAS; THK-TGT=XMG/CM**2'52'; /* '52' about 30 cmHg */ INC-ENGY-LAB=14.5MEV; ANL=DIRECT-PROC'53'; /* '53' Formulae proposed by el Nadi and Newns */ \\DATA,13; INC-ENGY-LAB=14.5MEV; SYS-ERR=<20%'54'; /* '54' Maximum uncertainty of absolute values arise from beam current estimation */ EXC-ENGY=(0.685MEV,0.707MEV); J-PTY=(0+,1?+?); DELTA-THTL=+-3DEG; \DATA; THTC DSIGMA/DOMEGA (DEG) (MB/SR) 2.160E+01 2.627E-01 2.729E+01 1.552E-01 3.198E+01 9.233E-02 4.261E+01 9.683E-02 5.263E+01 4.876E-02 6.376E+01 3.497E-02 7.385E+01 3.490E-02 8.449E+01 4.741E-02 9.402E+01 3.020E-02 1.041E+02 2.442E-02 1.137E+02 2.093E-02 1.222E+02 2.317E-02 1.328E+02 8.238E-03 1.418E+02 2.418E-02 1.519E+02 3.441E-02 1.615E+02 2.520E-02 \END; /* Data scanned from Fig.10, p902 in reference */ \\EXP,14; /* 2006-10-05 : Altered, Is. Re-digitized */ RCT=32S(D,ALPHA)30P; PHQ=ANGL-DSTRN; CHM=X'55'; /* '55' Hydrogen sulfide */ PHYS-FORM=GAS; THK-TGT=XMG/CM**2'56'; /* '56' about 30 cmHg */ INC-ENGY-LAB=14.5MEV; \\DATA,14; INC-ENGY-LAB=14.5MEV; SYS-ERR=<20%'57'; /* '57' Maximum uncertainty of absolute values arise from beam current estimation */ EXC-ENGY=1.45MEV; DELTA-THTL=+-3DEG; \DATA; THTC DSIGMA/DOMEGA (DEG) (MB/SR) 2.186E+01 9.564E-02 2.767E+01 8.989E-02 3.291E+01 6.019E-02 4.397E+01 3.272E-02 5.349E+01 2.694E-02 6.354E+01 2.686E-02 7.463E+01 1.194E-02 8.522E+01 1.642E-02 9.528E+01 2.204E-02 1.059E+02 1.625E-02 1.148E+02 7.048E-03 1.249E+02 2.522E-02 1.344E+02 1.487E-02 1.440E+02 3.419E-02 1.530E+02 6.605E-02 1.641E+02 5.569E-02 \END; /* Data scanned from Fig.10, p902 in reference */ \\EXP,15; /* 2006-10-05 : Altered, Is. Re-digitized */ RCT=32S(D,ALPHA)30P; PHQ=ANGL-DSTRN; CHM=X'58'; /* '58' Hydrogen sulfide */ PHYS-FORM=GAS; THK-TGT=XMG/CM**2'59'; /* '59' about 30 cmHg */ INC-ENGY-LAB=14.5MEV; ANL=DIRECT-PROC'60'; /* '60' Formulae proposed by el Nadi and Newns */ \\DATA,15; INC-ENGY-LAB=14.5MEV; SYS-ERR=<20%'61'; /* '61' Maximum uncertainty of absolute values arise from beam current estimation */ EXC-ENGY=1.97MEV; DELTA-THTL=+-3DEG; \DATA; THTC DSIGMA/DOMEGA (DEG) (MB/SR) 2.171E+01 3.915E-01 2.594E+01 2.443E-01 3.229E+01 1.895E-01 4.235E+01 9.937E-02 5.294E+01 7.312E-02 6.353E+01 7.883E-02 7.359E+01 7.312E-02 8.418E+01 4.915E-02 9.371E+01 4.801E-02 1.043E+02 4.459E-02 1.133E+02 3.774E-02 1.234E+02 2.633E-02 1.329E+02 2.747E-02 1.429E+02 2.975E-02 1.525E+02 1.834E-02 1.620E+02 2.062E-02 \END; /* Data scanned from Fig.10, p902 in reference */ \\EXP,16; /* 2006-10-05 : Altered, Is. Re-digitized */ RCT=32S(D,ALPHA)30P; PHQ=ANGL-DSTRN; CHM=X'62'; /* '62' Hydrogen sulfide */ PHYS-FORM=GAS; THK-TGT=XMG/CM**2'63'; /* '63' about 30 cmHg */ INC-ENGY-LAB=14.5MEV; \\DATA,16; INC-ENGY-LAB=14.5MEV; SYS-ERR=<20%'64'; /* '64' Maximum uncertainty of absolute values arise from beam current estimation */ DELTA-THTL=+-3DEG; DATA1=5'65'; /* '65' Number of levels unresolved. Fifth to nineth excited states could not be resolved in author's detecting system. */ \DATA; THTC DSIGMA/DOMEGA (DEG) (MB/SR) 2.248E+01 5.502E-01 2.733E+01 4.419E-01 3.166E+01 2.764E-01 4.341E+01 2.502E-01 5.357E+01 1.954E-01 6.425E+01 1.863E-01 7.494E+01 1.487E-01 8.404E+01 8.594E-02 9.417E+01 1.111E-01 1.046E+02 1.009E-01 1.145E+02 8.714E-02 1.241E+02 1.020E-01 1.342E+02 1.134E-01 1.433E+02 1.465E-01 1.534E+02 1.443E-01 1.625E+02 1.443E-01 \END; /* Data scanned from Fig.10, p902 in reference */ \\EXP,17; RCT=19F(D,ALPHA)17O; PHQ=XSECTN; CHM=X'66'; /* '66' Polytetra-fluorethylene (Teflon) */ PHYS-FORM=SLD; THK-TGT=0.76MG/CM**2; INC-ENGY-LAB=14.7MEV; /* Analysis: - Integration of angular distribution (Integrated over total solid angle, extrapolating experimental values from 20 deg to 0 deg and from 165 deg to 180 deg) */ \\DATA,17; INC-ENGY-LAB=14.7MEV; \DATA; EXC-ENGY XSECTN (MEV) (MB) 0.0 1.32 0.87 0.61 3.058 0.24 3.846 0.53 4.555 0.44 \END; /* Data taken from Table 1, p901 in reference */ \\EXP,18; RCT=31P(D,ALPHA)29SI; PHQ=XSECTN; CHM=ELM; PHYS-FORM=SLD'67'; /* '67' Red phosphor */ THK-TGT=(0.6MG/CM**2, 2.7MG/CM**2); BAC=MYLAR; THK-BAC=0.9MG/CM**2; INC-ENGY-LAB=14.7MEV; /* Analysis: - Integration of angular distribution (Integrated over total solid angle, extrapolating experimental values from 20 deg to 0 deg and from 165 deg to 180 deg) */ \\DATA,18; INC-ENGY-LAB=14.7MEV; \DATA; EXC-ENGY XSECTN (MEV) (MB) 0.0 0.34 \END; /* Data taken from Table 1, p901 in reference */ \\EXP,19; RCT=20NE(D,ALPHA)18F; PHQ=XSECTN; ENR=NAT; CHM=ELM; PHYS-FORM=GAS; THK-TGT=XMG/CM**2'68'; /* '68' about 30 cmHg */ INC-ENGY-LAB=14.5MEV; /* Analysis: - Integration of angular distribution (Integrated over total solid angle, extrapolating experimental values from 20 deg to 0 deg and from 165 deg to 180 deg) */ \\DATA,19; INC-ENGY-LAB=14.5MEV; \DATA; EXC-ENGY DATA1'69' DATA2 DATA3 DATA4 XSECTN (MEV) (NODIM) (NODIM) (NODIM) (NODIM) (MB) 0.0 X X X X 2.84 X 1 2 3 4 13.9 1.70 X X X X 2.4 2.10 X X X X 2.7 2.53 X X X X 1.6 \END; /* Data taken from Table 1, p901 in reference */ /* '69' First to fourth excited states could not be resolved in author's detecting system. */ \\EXP,20; RCT=32S(D,ALPHA)30P; PHQ=XSECTN; CHM=X'70'; /* '70' Hydrogen sulfide */ PHYS-FORM=GAS; THK-TGT=XMG/CM**2'71'; /* '71' about 30 cmHg */ INC-ENGY-LAB=14.5MEV; /* Analysis: - Integration of angular distribution (Integrated over total solid angle, extrapolating experimental values from 20 deg to 0 deg and from 165 deg to 180 deg) */ \\DATA,20; INC-ENGY-LAB=14.5MEV; \DATA; EXC-ENGY DATA1'72' XSECTN (MEV) (NODIM) (MB) 0.0 X 0.92 X 2 0.53 1.45 X 0.32 1.97 X 1.6 X 5 3.7 \END; /* Data taken from Table 1, p901 in reference */ /* '72' Number of levels unresolved. Second to third and fifth to nineth excited states could not be resolved in author's detecting system. */ \\EXP,21; RCT=24MG(D,ALPHA)22NA; PHQ=XSECTN; PHYS-FORM=X; THK-TGT=XMG/CM**2; INC-ENGY-LAB=14.7MEV; /* Analysis: - Integration of angular distribution (Integrated over total solid angle, extrapolating experimental values from 20 deg to 0 deg and from 165 deg to 180 deg) */ \\DATA,21; INC-ENGY-LAB=14.7MEV; \DATA; EXC-ENGY XSECTN'73' (MEV) (MB) 0.0 1.9 \END; /* Data taken from Table 1, p901 in reference */ /* '73' Preliminary data */ \\END;