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| /*===================================================================*/
/* NRDF D0346 Data No.80 */
/*===================================================================*/
/* Bibliography */
/*===================================================================*/
\\BIB,80;
D#=D346;
TITLE=/CROSS SECTIONS AND RECOIL PROPERTIES OF 83,84,86RB FORMED BY
0.6-21GEV 1H REACTIONS WITH TARGETS OF Y TO U/;
PURPOSE=/THE GENERAL INFLUENCE OF INCIDENT ENERGY ON THE REACTION
PRODUCTS IS NOW WELL KNOWN FOR PROTON-INDUCED REACTIONS,
THANKS TO VARIOUS TECHNIQUES. IN SPITE OF THE LARGE AMOUNT OF
WORK CARRIED OUT, A UNIFIED PICTURE OF THE OBSERVED RESULTS IS
ONLY NOW BEGINNING TO EMERGE. WE FELT THAT A STUDY OF THE
PROPERTIES OF SOME NEVTRON DEFICIENT AND NEVTRON EXCESS
PRODUCTS FROM VARIOUS TARGETS SHOULD YIELD AN INTERESTING
CONTRIBUTION TO OUT UNDERSTANDING OF NUCLEAR REACTIONS AT HIGH
ENERGIES./;
ATH=(M.LAGARDE-SIMONOFF'1',G.N.SIMONOFF'1');
INST-ATH=(2FR GRA'1');
REF=PR/C;
VLP=20(1979)1498;
RCTS=(Y(P,83RB), Y(P,84RB), Y(P,86RB), NB(P,83RB),NB(P,84RB),
NB(P,86RB),AG(P,83RB),AG(P,84RB),AG(P,86RB),PR(P,83RB),
PR(P,84RB),PR(P,86RB),TB(P,83RB),TB(P,84RB),TB(P,86RB),
HO(P,83RB),HO(P,84RB),HO(P,86RB),TM(P,83RB),TM(P,84RB),
TM(P,86RB),TA(P,83RB),TA(P,84RB),TA(P,86RB),RE(P,83RB),
RE(P,84RB),RE(P,86RB),AU(P,83RB),AU(P,84RB),AU(P,86RB),
BI(P,83RB),BI(P,84RB),BI(P,86RB),TH(P,83RB),TH(P,84RB),
TH(P,86RB),U(P,83RB),U(P,84RB),U(P,86RB));
/*===================================================================*/
/* Experimental Conditions */
/*===================================================================*/
\\EXP,80;
RCT=Y(P,83RB);
ENR=NAT'1';
/*@11@*/
CHM=ELM;
THK-TGT=15MG/CM**2;
BAC=SELF;
/*@24@*/
POL-TGT=NO;
ALGN-TGT=NO;
RCT=Y(P,84RB);
ENR=NAT'1';
/*@11@*/
CHM=ELM;
THK-TGT=15MG/CM**2;
BAC=SELF;
/*@24@*/
POL-TGT=NO;
ALGN-TGT=NO;
RCT=Y(P,86RB);
ENR=NAT'1';
/*@11@*/
CHM=ELM;
THK-TGT=15MG/CM**2;
BAC=SELF;
/*@24@*/
POL-TGT=NO;
ALGN-TGT=NO;
RCT=AG(P,83RB);
ENR=NAT'1';
/*@13@*/
CHM=ELM;
THK-TGT=50MG/CM**2;
BAC=SELF;
/*@24@*/
POL-TGT=NO;
ALGN-TGT=NO;
RCT=AG(P,84RB);
ENR=NAT'1';
/*@13@*/
CHM=ELM;
THK-TGT=50MG/CM**2;
BAC=SELF;
/*@24@*/
POL-TGT=NO;
ALGN-TGT=NO;
RCT=HO(P,83RB);
ENR=NAT'1';
/*@16@*/
CHM=ELM;
THK-TGT=70[100MG/CM**2;
BAC=SELF;
/*@24@*/
POL-TGT=NO;
ALGN-TGT=NO;
RCT=HO(P,84RB);
ENR=NAT'1';
/*@16@*/
CHM=ELM;
THK-TGT=70[100MG/CM**2;
BAC=SELF;
/*@24@*/
POL-TGT=NO;
ALGN-TGT=NO;
RCT=TA(P,83RB);
ENR=NAT'1';
/*@18@*/
CHM=ELM;
THK-TGT=100MG/CM**2;
BAC=SELF;
/*@24@*/
POL-TGT=NO;
ALGN-TGT=NO;
RCT=TA(P,84RB);
ENR=NAT'1';
/*@18@*/
CHM=ELM;
THK-TGT=100MG/CM**2;
BAC=SELF;
/*@24@*/
POL-TGT=NO;
ALGN-TGT=NO;
RCT=AU(P,83RB);
ENR=NAT'1';
/*@20@*/
CHM=ELM;
THK-TGT=100[150MG/CM**2;
BAC=SELF;
/*@24@*/
POL-TGT=NO;
ALGN-TGT=NO;
RCT=AU(P,84RB);
ENR=NAT'1';
/*@20@*/
CHM=ELM;
THK-TGT=100[150MG/CM**2;
BAC=SELF;
/*@24@*/
POL-TGT=NO;
ALGN-TGT=NO;
RCT=TH(P,83RB);
ENR=NAT'1';
/*@22@*/
CHM=ELM;
THK-TGT=100[200MG/CM**2;
BAC=SELF;
/*@24@*/
POL-TGT=NO;
ALGN-TGT=NO;
RCT=TH(P,84RB);
ENR=NAT'1';
/*@22@*/
CHM=ELM;
THK-TGT=100[200MG/CM**2;
BAC=SELF;
/*@24@*/
POL-TGT=NO;
ALGN-TGT=NO;
RCT=TH(P,86RB);
ENR=NAT'1';
/*@22@*/
CHM=ELM;
THK-TGT=100[200MG/CM**2;
BAC=SELF;
/*@24@*/
POL-TGT=NO;
ALGN-TGT=NO;
RCT=U(P,83RB);
ENR=NAT'1';
/*@23@*/
CHM=ELM;
THK-TGT=9[200MG/CM**2;
BAC=SELF;
/*@24@*/
POL-TGT=NO;
ALGN-TGT=NO;
RCT=U(P,84RB);
ENR=NAT'1';
/*@23@*/
CHM=ELM;
THK-TGT=9[200MG/CM**2;
BAC=SELF;
/*@24@*/
POL-TGT=NO;
ALGN-TGT=NO;
RCT=U(P,86RB);
ENR=NAT'1';
/*@23@*/
CHM=ELM;
THK-TGT=9[200MG/CM**2;
BAC=SELF;
/*@24@*/
POL-TGT=NO;
ALGN-TGT=NO;
DET-PARTCL=(GAMMA,BETA);
DET-SYS=(NAI,X'1',GMC);
/*@27@*/
SOLID-ANGL=XMSR;
ERS-DET=XKEV;
ANL=(X'1',X'2');
/*@28@*/
PHQ=(XSECTN,EXC-ENGY,X'1',X'2');
/*@29@*/
/*===================================================================*/
/* Descriptive Parameters */
/*===================================================================*/
\\DATA,80;
INC-ENGY-LAB=10.5GEV;
/*===================================================================*/
/* Data Table */
/*===================================================================*/
\DATA;
TGT DATA1'1' DATA2'2' DELTA-DATA2 DATA3'3' DATA4'4' DELTA-DATA4
DATA5'5' DELTA-DATA5 EXC-ENGY DELTA-EXC-ENGY DATA6'6' DELTA-DATA6
DATA7'7' DATA8'8'
(NODIM) (NODIM) (MG/CM**2) (MG/CM**2) (NODIM) (MEV) (MEV) (DATA9'9')
(DATA9) (MEV) (MEV) (NODIM) (NODIM) (DATA10'10') (NODIM)
Y 83RB 0.28 0.02 1.97 1.5 0.1 15.8 0.5 52 6 1.20 0.08 29 X'11'
Y 84RB 0.25 0.01 1.97 1.3 0.1 14.8 0.6 42 5 1.04 0.07 35 X'11'
AG 83RB 1.03 0.14 1.66 5.2 0.8 29.3 2.1 127 28 0.41 0.06 43 X'11'
AG 84RB 0.80 0.11 1.75 3.8 0.6 25.2 2.0 111 23 0.30 0.05 27 X'11'
HO 83RB 3.1 0.2 1.34 13 1 46.5 1.7 201 33 0.22 0.02 58 X'12'
HO 84RB 3.2 0.1 1.34 14 1 48.5 1.0 179 22 0.23 0.01 63 X'12'
TA 83RB 3.9 0.1 1.31 19 1 56.1 1.2 163 23 0.27 0.01 81 X'12'
TA 84RB 4.6 0.1 1.23 25 1 64.8 0.7 187 8 0.35 0.01 107 X'12'
AU 83RB 4.2 0.1 1.28 20 1 57.6 1.4 152 17 0.25 0.01 82 X'12'
AU 84RB 4.6 0.3 1.26 21 2 59.4 2.8 158 22 0.26 0.02 87 X'12'
TH 83RB 5.9 0.5 1.18 30 4 70.5 4.6 132 26 0.30 0.04 120 X'12'
TH 84RB 7.5 0.4 1.05 52 5 93.5 4.2 139 26 0.53 0.05 208 X'14'
TH 86RB 9.5 0.4 1.02 74 7 112.7 5.9 184 36 0.79 0.07 299 X'13'
U 83RB 7.3 0.3 1.10 41 3 82.5 3.0 143 33 0.41 0.03 164 X'14'
U 84RB 8.7 0.7 1.03 63 10 102.7 8.0 145 43 0.63 0.10 252 X'14'
U 86RB 10.8 0.1 1.02 81 2 117.9 1.5 150 11 0.80 0.02 326 X'13'
\END;
/*===================================================================*/
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