/* 2004-03-11 FILE IS GENERATED BY HENDEL */
\\BIB,1[89;
D#=D1615;
TITLE=/Ground-state transition strengths of the (p,t) reactions for
nuclei with A=23-238/;
PURPOSE=/The systematic measurement of cross sections for
ground-to-ground two-neutron pickup reactions to nuclei over a
wider mass region and to look at the behaviour of the cross
sections with changing neutron number./;
ATH=(K.MIURA'1', Y.HIRATATE'1', T.SHOJI'1', T.SUEHIRO'1',
H.YAMAGUCHI'2', Y.ISHIZAKI'3');
INST-ATH=(2JPNTOI'1', 2JPNTKS'2', 2JPNINS'3');
/* '2' Faculty of General Education */
/* '3' Institute for Nuclear Study */
REF=NP/A;
VLP=436(1985)221;
RCTS=(23NA(P,T)21NA, 24MG(P,T)22MG, 26MG(P,T)24MG, 27AL(P,T)25AL,
28SI(P,T)26SI, 30SI(P,T)28SI, 35CL(P,T)33CL, 37CL(P,T)35CL,
40CA(P,T)38CA, 44CA(P,T)42CA, 46TI(P,T)44TI, 48TI(P,T)46TI,
50TI(P,T)48TI, 51V(P,T)49V, 54FE(P,T)52FE, 56FE(P,T)54FE,
58NI(P,T)56NI, 60NI(P,T)58NI, 62NI(P,T)60NI, 63CU(P,T)61CU,
64ZN(P,T)62ZN, 65CU(P,T)63CU, 66ZN(P,T)64ZN, 68ZN(P,T)66ZN,
76SE(P,T)74SE, 78SE(P,T)76SE, 80SE(P,T)78SE, 82SE(P,T)80SE,
90ZR(P,T)88ZR, 92MO(P,T)90MO, 92ZR(P,T)90ZR, 94ZR(P,T)92ZR,
96MO(P,T)94MO, 96ZR(P,T)94ZR, 98MO(P,T)96MO, 100MO(P,T)98MO,
102RU(P,T)100RU, 104PD(P,T)102PD, 104RU(P,T)102RU,
106PD(P,T)104PD, 108PD(P,T)106PD, 110PD(P,T)108PD,
112CD(P,T)110CD, 114CD(P,T)112CD, 115IN(P,T)113IN,
116CD(P,T)114CD, 118SN(P,T)116SN, 120SN(P,T)118SN,
122TE(P,T)120TE, 122SN(P,T)120SN, 124TE(P,T)122TE,
124SN(P,T)122SN, 126TE(P,T)124TE, 128TE(P,T)126TE,
130TE(P,T)128TE, 136BA(P,T)134BA, 138BA(P,T)136BA,
140CE(P,T)138CE, 142CE(P,T)140CE, 144ND(P,T)142ND,
146ND(P,T)144ND, 148ND(P,T)146ND, 150ND(P,T)148ND,
158GD(P,T)156GD, 160GD(P,T)158GD, 165HO(P,T)163HO,
168ER(P,T)166ER, 170ER(P,T)168ER, 172YB(P,T)170YB,
174YB(P,T)172YB, 176YB(P,T)174YB, 181TA(P,T)179TA,
184W(P,T)182W, 186W(P,T)184W, 188OS(P,T)186OS, 190OS(P,T)188OS,
191IR(P,T)189IR, 192OS(P,T)190OS, 193IR(P,T)191IR,
194PT(P,T)192PT, 196PT(P,T)194PT, 197AU(P,T)195AU,
198PT(P,T)196PT, 202HG(P,T)200HG, 204HG(P,T)202HG,
208PB(P,T)206PB, 209BI(P,T)207BI, 232TH(P,T)230TH,
238U(P,T)236U);
PHQS=ANGL-DSTRN;
\\EXP,1[89;
/* 2003-10-01 : Compiled */
RTY=PKUP;
PHQ=ANGL-DSTRN;
PHYS-FORM=SLD;
BAC=X'4';
/* '4' In the form of self-supporting foils and films evaporated
on mylar or aluminum backings. */
POL-TGT=0%;
ALGN-TGT=0%;
ACC=SYNCYC;
INST-ACC=2JPNINS;
INC-ENGY-LAB=51.9MEV;
POL-PRJ=0%;
DET-PARTCL=T;
COINC=NO;
ANT-COINC=NO;
DET-SYS=(MAG'5',PROP-CNTR'6');
/* '5' Emitted tritons were analysed with a broad-range magnetic
spectrometer [K. Yagi, Nucl. Instr. 31(1964)173]. */
/* '6' Emitted tritons were detected with an array of 200
proportional counters [K. Yagi et al., Nucl. Instr.
52(1967)29]. */
ERS-DET=80[120KEV'7';
/* '7' Depending on the thickness of the targets used in the
experiment */
ANL=DWBA;
\\EXP,1;
RCT=23NA(P,T)21NA;
ENR=NAT;
CHM=X'8';
/* '8' NaCl */
\\DATA,1;
INC-ENGY-LAB=51.9MEV;
SYS-ERR=<5%'9';
/* '9' The error of the differential cross sections due to a
choice of the first peak angle was estimated to be within 5% */
NORM=/ To confirm the absolute normalization for whole data sets, the
differential cross section for the case of the 56Fe(p,t0)54Fe
reaction at 20 deg. was measured. /;
EMT=T;
RSD=21NA;
EXC-ENGY=0.0KEV;
\DATA;
THTC'10' DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA
(DEG) (UB/SR) (UB/SR)
26.2 318 +-26
\END;
/* Data taken from Table 1, p227 in reference */
/* '10' c.m. angle at which angular distribution shows first peak
*/
\\EXP,2;
RCT=24MG(P,T)22MG;
ENR=NAT;
CHM=ELM;
\\DATA,2;
INC-ENGY-LAB=51.9MEV;
SYS-ERR=<5%'11';
/* '11' The error of the differential cross sections due to a
choice of the first peak angle was estimated to be within 5%
*/
NORM=/ To confirm the absolute normalization for whole data sets, the
differential cross section for the case of the 56Fe(p,t0)54Fe
reaction at 20 deg. was measured. /;
EMT=T;
RSD=22MG;
EXC-ENGY=0.0KEV;
\DATA;
THTC'12' DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA
(DEG) (UB/SR) (UB/SR)
24.2 346 +-7
\END;
/* Data taken from Table 1, p227 in reference */
/* '12' c.m. angle at which angular distribution shows first peak
*/
\\EXP,3;
RCT=26MG(P,T)24MG;
ENR=NAT;
CHM=ELM;
\\DATA,3;
INC-ENGY-LAB=51.9MEV;
SYS-ERR=<5%'13';
/* '13' The error of the differential cross sections due to a
choice of the first peak angle was estimated to be within 5%
*/
NORM=/ To confirm the absolute normalization for whole data sets, the
differential cross section for the case of the 56Fe(p,t0)54Fe
reaction at 20 deg. was measured. /;
EMT=T;
RSD=24MG;
EXC-ENGY=0.0KEV;
\DATA;
THTC'14' DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA
(DEG) (UB/SR) (UB/SR)
25.8 204 +-12
\END;
/* Data taken from Table 1, p227 in reference */
/* '14' c.m. angle at which angular distribution shows first peak
*/
\\EXP,4;
RCT=27AL(P,T)25AL;
ENR=NAT;
CHM=ELM;
\\DATA,4;
INC-ENGY-LAB=51.9MEV;
SYS-ERR=<5%'15';
/* '15' The error of the differential cross sections due to a
choice of the first peak angle was estimated to be within 5%
*/
NORM=/ To confirm the absolute normalization for whole data sets, the
differential cross section for the case of the 56Fe(p,t0)54Fe
reaction at 20 deg. was measured. /;
EMT=T;
RSD=25AL;
EXC-ENGY=0.0KEV;
\DATA;
THTC'16' DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA
(DEG) (UB/SR) (UB/SR)
27.0 211 +-4
\END;
/* Data taken from Table 1, p227 in reference */
/* '16' c.m. angle at which angular distribution shows first peak
*/
\\EXP,5;
RCT=28SI(P,T)26SI;
ENR=NAT;
CHM=SI.O2;
\\DATA,5;
INC-ENGY-LAB=51.9MEV;
SYS-ERR=<5%'17';
/* '17' The error of the differential cross sections due to a
choice of the first peak angle was estimated to be within 5%
*/
NORM=/ To confirm the absolute normalization for whole data sets, the
differential cross section for the case of the 56Fe(p,t0)54Fe
reaction at 20 deg. was measured. /;
EMT=T;
RSD=26SI;
EXC-ENGY=0.0KEV;
\DATA;
THTC'18' DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA
(DEG) (UB/SR) (UB/SR)
24.9 382 +-34
\END;
/* Data taken from Table 1, p227 in reference */
/* '18' c.m. angle at which angular distribution shows first peak
*/
\\EXP,6;
RCT=30SI(P,T)28SI;
ENR=NAT;
CHM=SI.O2;
\\DATA,6;
INC-ENGY-LAB=51.9MEV;
SYS-ERR=<5%'19';
/* '19' The error of the differential cross sections due to a
choice of the first peak angle was estimated to be within 5%
*/
NORM=/ To confirm the absolute normalization for whole data sets, the
differential cross section for the case of the 56Fe(p,t0)54Fe
reaction at 20 deg. was measured. /;
EMT=T;
RSD=28SI;
EXC-ENGY=0.0KEV;
\DATA;
THTC'20' DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA
(DEG) (UB/SR) (UB/SR)
24.5 311 +-44
\END;
/* Data taken from Table 1, p227 in reference */
/* '20' c.m. angle at which angular distribution shows first peak
*/
\\EXP,7;
RCT=35CL(P,T)33CL;
ENR=NAT;
CHM=X'21';
/* '21' NaCl */
\\DATA,7;
INC-ENGY-LAB=51.9MEV;
SYS-ERR=<5%'22';
/* '22' The error of the differential cross sections due to a
choice of the first peak angle was estimated to be within 5%
*/
NORM=/ To confirm the absolute normalization for whole data sets, the
differential cross section for the case of the 56Fe(p,t0)54Fe
reaction at 20 deg. was measured. /;
EMT=T;
RSD=33CL;
EXC-ENGY=0.0KEV;
\DATA;
THTC'23' DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA
(DEG) (UB/SR) (UB/SR)
23.3 388 +-33
\END;
/* Data taken from Table 1, p227 in reference */
/* '23' c.m. angle at which angular distribution shows first peak
*/
\\EXP,8;
RCT=37CL(P,T)35CL;
ENR=NAT;
CHM=X'24';
/* '24' NaCl */
\\DATA,8;
INC-ENGY-LAB=51.9MEV;
SYS-ERR=<5%'25';
/* '25' The error of the differential cross sections due to a
choice of the first peak angle was estimated to be within 5%
*/
NORM=/ To confirm the absolute normalization for whole data sets, the
differential cross section for the case of the 56Fe(p,t0)54Fe
reaction at 20 deg. was measured. /;
EMT=T;
RSD=35CL;
EXC-ENGY=0.0KEV;
\DATA;
THTC'26' DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA
(DEG) (UB/SR) (UB/SR)
23.2 283 +-36
\END;
/* Data taken from Table 1, p227 in reference */
/* '26' c.m. angle at which angular distribution shows first peak
*/
\\EXP,9;
RCT=40CA(P,T)38CA;
ENR=NAT;
CHM=ELM;
\\DATA,9;
INC-ENGY-LAB=51.9MEV;
SYS-ERR=<5%'27';
/* '27' The error of the differential cross sections due to a
choice of the first peak angle was estimated to be within 5%
*/
NORM=/ To confirm the absolute normalization for whole data sets, the
differential cross section for the case of the 56Fe(p,t0)54Fe
reaction at 20 deg. was measured. /;
EMT=T;
RSD=38CA;
EXC-ENGY=0.0KEV;
\DATA;
THTC'28' DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA
(DEG) (UB/SR) (UB/SR)
22.2 328 +-9
\END;
/* Data taken from Table 1, p227 in reference */
/* '28' c.m. angle at which angular distribution shows first peak
*/
\\EXP,10;
RCT=44CA(P,T)42CA;
ENR=NAT;
CHM=ELM;
\\DATA,10;
INC-ENGY-LAB=51.9MEV;
SYS-ERR=<5%'29';
/* '29' The error of the differential cross sections due to a
choice of the first peak angle was estimated to be within 5%
*/
NORM=/ To confirm the absolute normalization for whole data sets, the
differential cross section for the case of the 56Fe(p,t0)54Fe
reaction at 20 deg. was measured. /;
EMT=T;
RSD=42CA;
EXC-ENGY=0.0KEV;
\DATA;
THTC'30' DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA
(DEG) (UB/SR) (UB/SR)
21.9 400 +-26
\END;
/* Data taken from Table 1, p227 in reference */
/* '30' c.m. angle at which angular distribution shows first peak
*/
\\EXP,11;
RCT=46TI(P,T)44TI;
ENR=NAT;
CHM=X'31';
/* '31' BaTiCO3 */
\\DATA,11;
INC-ENGY-LAB=51.9MEV;
SYS-ERR=<5%'32';
/* '32' The error of the differential cross sections due to a
choice of the first peak angle was estimated to be within 5%
*/
NORM=/ To confirm the absolute normalization for whole data sets, the
differential cross section for the case of the 56Fe(p,t0)54Fe
reaction at 20 deg. was measured. /;
EMT=T;
RSD=44TI;
EXC-ENGY=0.0KEV;
\DATA;
THTC'33' DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA
(DEG) (UB/SR) (UB/SR)
20.9 300 +-32
\END;
/* Data taken from Table 1, p227 in reference */
/* '33' c.m. angle at which angular distribution shows first peak
*/
\\EXP,12;
RCT=48TI(P,T)46TI;
ENR=NAT;
CHM=X'34';
/* '34' BaTiCO3 */
\\DATA,12;
INC-ENGY-LAB=51.9MEV;
SYS-ERR=<5%'35';
/* '35' The error of the differential cross sections due to a
choice of the first peak angle was estimated to be within 5%
*/
NORM=/ To confirm the absolute normalization for whole data sets, the
differential cross section for the case of the 56Fe(p,t0)54Fe
reaction at 20 deg. was measured. /;
EMT=T;
RSD=46TI;
EXC-ENGY=0.0KEV;
\DATA;
THTC'36' DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA
(DEG) (UB/SR) (UB/SR)
20.8 291 +-4
\END;
/* Data taken from Table 1, p227 in reference */
/* '36' c.m. angle at which angular distribution shows first peak
*/
\\EXP,13;
RCT=50TI(P,T)48TI;
ENR=NAT;
CHM=X'37';
/* '37' BaTiCO3 */
\\DATA,13;
INC-ENGY-LAB=51.9MEV;
SYS-ERR=<5%'38';
/* '38' The error of the differential cross sections due to a
choice of the first peak angle was estimated to be within 5%
*/
NORM=/ To confirm the absolute normalization for whole data sets, the
differential cross section for the case of the 56Fe(p,t0)54Fe
reaction at 20 deg. was measured. /;
EMT=T;
RSD=48TI;
EXC-ENGY=0.0KEV;
\DATA;
THTC'39' DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA
(DEG) (UB/SR) (UB/SR)
20.8 189 +-14
\END;
/* Data taken from Table 1, p227 in reference */
/* '39' c.m. angle at which angular distribution shows first peak
*/
\\EXP,14;
RCT=51V(P,T)49V;
ENR=NAT;
CHM=ELM;
\\DATA,14;
INC-ENGY-LAB=51.9MEV;
SYS-ERR=<5%'40';
/* '40' The error of the differential cross sections due to a
choice of the first peak angle was estimated to be within 5%
*/
NORM=/ To confirm the absolute normalization for whole data sets, the
differential cross section for the case of the 56Fe(p,t0)54Fe
reaction at 20 deg. was measured. /;
EMT=T;
RSD=49V;
EXC-ENGY=0.0KEV;
\DATA;
THTC'41' DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA
(DEG) (UB/SR) (UB/SR)
20.8 152 +-3
\END;
/* Data taken from Table 1, p227 in reference */
/* '41' c.m. angle at which angular distribution shows first peak
*/
\\EXP,15;
RCT=54FE(P,T)52FE;
ENR=X%'42';
/* '42' Enriched target */
CHM=ELM;
\\DATA,15;
INC-ENGY-LAB=51.9MEV;
SYS-ERR=<5%'43';
/* '43' The error of the differential cross sections due to a
choice of the first peak angle was estimated to be within 5%
*/
NORM=/ To confirm the absolute normalization for whole data sets, the
differential cross section for the case of the 56Fe(p,t0)54Fe
reaction at 20 deg. was measured. /;
EMT=T;
RSD=52FE;
EXC-ENGY=0.0KEV;
\DATA;
THTC'44' DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA
(DEG) (UB/SR) (UB/SR)
20.8 150 +-3
\END;
/* Data taken from Table 1, p227 in reference */
/* '44' c.m. angle at which angular distribution shows first peak
*/
\\EXP,16;
RCT=56FE(P,T)54FE;
ENR=NAT;
CHM=ELM;
\\DATA,16;
INC-ENGY-LAB=51.9MEV;
SYS-ERR=<5%'45';
/* '45' The error of the differential cross sections due to a
choice of the first peak angle was estimated to be within 5%
*/
NORM=/ To confirm the absolute normalization for whole data sets, the
differential cross section for the case of the 56Fe(p,t0)54Fe
reaction at 20 deg. was measured. /;
EMT=T;
RSD=54FE;
EXC-ENGY=0.0KEV;
\DATA;
THTC'46' DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA
(DEG) (UB/SR) (UB/SR)
20.7 237 +-5
\END;
/* Data taken from Table 1, p227 in reference */
/* '46' c.m. angle at which angular distribution shows first peak
*/
\\EXP,17;
RCT=58NI(P,T)56NI;
ENR=NAT;
CHM=ELM;
\\DATA,17;
INC-ENGY-LAB=51.9MEV;
SYS-ERR=<5%'47';
/* '47' The error of the differential cross sections due to a
choice of the first peak angle was estimated to be within 5%
*/
NORM=/ To confirm the absolute normalization for whole data sets, the
differential cross section for the case of the 56Fe(p,t0)54Fe
reaction at 20 deg. was measured. /;
EMT=T;
RSD=56NI;
EXC-ENGY=0.0KEV;
\DATA;
THTC'48' DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA
(DEG) (UB/SR) (UB/SR)
20.7 288 +-3
\END;
/* Data taken from Table 1, p227 in reference */
/* '48' c.m. angle at which angular distribution shows first peak
*/
\\EXP,18;
RCT=60NI(P,T)58NI;
ENR=NAT;
CHM=ELM;
\\DATA,18;
INC-ENGY-LAB=51.9MEV;
SYS-ERR=<5%'49';
/* '49' The error of the differential cross sections due to a
choice of the first peak angle was estimated to be within 5%
*/
NORM=/ To confirm the absolute normalization for whole data sets, the
differential cross section for the case of the 56Fe(p,t0)54Fe
reaction at 20 deg. was measured. /;
EMT=T;
RSD=58NI;
EXC-ENGY=0.0KEV;
\DATA;
THTC'50' DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA
(DEG) (UB/SR) (UB/SR)
20.7 411 +-5
\END;
/* Data taken from Table 1, p227 in reference */
/* '50' c.m. angle at which angular distribution shows first peak
*/
\\EXP,19;
RCT=62NI(P,T)60NI;
ENR=NAT;
CHM=ELM;
\\DATA,19;
INC-ENGY-LAB=51.9MEV;
SYS-ERR=<5%'51';
/* '51' The error of the differential cross sections due to a
choice of the first peak angle was estimated to be within 5%
*/
NORM=/ To confirm the absolute normalization for whole data sets, the
differential cross section for the case of the 56Fe(p,t0)54Fe
reaction at 20 deg. was measured. /;
EMT=T;
RSD=60NI;
EXC-ENGY=0.0KEV;
\DATA;
THTC'52' DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA
(DEG) (UB/SR) (UB/SR)
20.6 385 +-13
\END;
/* Data taken from Table 1, p227 in reference */
/* '52' c.m. angle at which angular distribution shows first peak
*/
\\EXP,20;
RCT=63CU(P,T)61CU;
ENR=NAT;
CHM=ELM;
\\DATA,20;
INC-ENGY-LAB=51.9MEV;
SYS-ERR=<5%'53';
/* '53' The error of the differential cross sections due to a
choice of the first peak angle was estimated to be within 5%
*/
NORM=/ To confirm the absolute normalization for whole data sets, the
differential cross section for the case of the 56Fe(p,t0)54Fe
reaction at 20 deg. was measured. /;
EMT=T;
RSD=61CU;
EXC-ENGY=0.0KEV;
\DATA;
THTC'54' DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA
(DEG) (UB/SR) (UB/SR)
19.6 442 +-7
\END;
/* Data taken from Table 1, p227 in reference */
/* '54' c.m. angle at which angular distribution shows first peak
*/
\\EXP,21;
RCT=64ZN(P,T)62ZN;
ENR=NAT;
CHM=ELM;
\\DATA,21;
INC-ENGY-LAB=51.9MEV;
SYS-ERR=<5%'55';
/* '55' The error of the differential cross sections due to a
choice of the first peak angle was estimated to be within 5%
*/
NORM=/ To confirm the absolute normalization for whole data sets, the
differential cross section for the case of the 56Fe(p,t0)54Fe
reaction at 20 deg. was measured. /;
EMT=T;
RSD=62ZN;
EXC-ENGY=0.0KEV;
\DATA;
THTC'56' DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA
(DEG) (UB/SR) (UB/SR)
19.0 442 +-12
\END;
/* Data taken from Table 1, p227 in reference */
/* '56' c.m. angle at which angular distribution shows first peak
*/
\\EXP,22;
RCT=65CU(P,T)63CU;
ENR=NAT;
CHM=ELM;
\\DATA,22;
INC-ENGY-LAB=51.9MEV;
SYS-ERR=<5%'57';
/* '57' The error of the differential cross sections due to a
choice of the first peak angle was estimated to be within 5%
*/
NORM=/ To confirm the absolute normalization for whole data sets, the
differential cross section for the case of the 56Fe(p,t0)54Fe
reaction at 20 deg. was measured. /;
EMT=T;
RSD=63CU;
EXC-ENGY=0.0KEV;
\DATA;
THTC'58' DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA
(DEG) (UB/SR) (UB/SR)
19.6 353 +-8
\END;
/* Data taken from Table 1, p227 in reference */
/* '58' c.m. angle at which angular distribution shows first peak
*/
\\EXP,23;
RCT=66ZN(P,T)64ZN;
ENR=NAT;
CHM=ELM;
\\DATA,23;
INC-ENGY-LAB=51.9MEV;
SYS-ERR=<5%'59';
/* '59' The error of the differential cross sections due to a
choice of the first peak angle was estimated to be within 5%
*/
NORM=/ To confirm the absolute normalization for whole data sets, the
differential cross section for the case of the 56Fe(p,t0)54Fe
reaction at 20 deg. was measured. /;
EMT=T;
RSD=64ZN;
EXC-ENGY=0.0KEV;
\DATA;
THTC'60' DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA
(DEG) (UB/SR) (UB/SR)
19.0 365 +-10
\END;
/* Data taken from Table 1, p227 in reference */
/* '60' c.m. angle at which angular distribution shows first peak
*/
\\EXP,24;
RCT=68ZN(P,T)66ZN;
ENR=NAT;
CHM=ELM;
\\DATA,24;
INC-ENGY-LAB=51.9MEV;
SYS-ERR=<5%'61';
/* '61' The error of the differential cross sections due to a
choice of the first peak angle was estimated to be within 5%
*/
NORM=/ To confirm the absolute normalization for whole data sets, the
differential cross section for the case of the 56Fe(p,t0)54Fe
reaction at 20 deg. was measured. /;
EMT=T;
RSD=66ZN;
EXC-ENGY=0.0KEV;
\DATA;
THTC'62' DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA
(DEG) (UB/SR) (UB/SR)
19.0 318 +-14
\END;
/* Data taken from Table 1, p227 in reference */
/* '62' c.m. angle at which angular distribution shows first peak
*/
\\EXP,25;
RCT=76SE(P,T)74SE;
ENR=NAT;
CHM=ELM;
\\DATA,25;
INC-ENGY-LAB=51.9MEV;
SYS-ERR=<5%'63';
/* '63' The error of the differential cross sections due to a
choice of the first peak angle was estimated to be within 5%
*/
NORM=/ To confirm the absolute normalization for whole data sets, the
differential cross section for the case of the 56Fe(p,t0)54Fe
reaction at 20 deg. was measured. /;
EMT=T;
RSD=74SE;
EXC-ENGY=0.0KEV;
\DATA;
THTC'64' DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA
(DEG) (UB/SR) (UB/SR)
18.4 380 +-54
\END;
/* Data taken from Table 1, p227 in reference */
/* '64' c.m. angle at which angular distribution shows first peak
*/
\\EXP,26;
RCT=78SE(P,T)76SE;
ENR=NAT;
CHM=ELM;
\\DATA,26;
INC-ENGY-LAB=51.9MEV;
SYS-ERR=<5%'65';
/* '65' The error of the differential cross sections due to a
choice of the first peak angle was estimated to be within 5%
*/
NORM=/ To confirm the absolute normalization for whole data sets, the
differential cross section for the case of the 56Fe(p,t0)54Fe
reaction at 20 deg. was measured. /;
EMT=T;
RSD=76SE;
EXC-ENGY=0.0KEV;
\DATA;
THTC'66' DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA
(DEG) (UB/SR) (UB/SR)
18.4 326 +-12
\END;
/* Data taken from Table 1, p227 in reference */
/* '66' c.m. angle at which angular distribution shows first peak
*/
\\EXP,27;
RCT=80SE(P,T)78SE;
ENR=NAT;
CHM=ELM;
\\DATA,27;
INC-ENGY-LAB=51.9MEV;
SYS-ERR=<5%'67';
/* '67' The error of the differential cross sections due to a
choice of the first peak angle was estimated to be within 5%
*/
NORM=/ To confirm the absolute normalization for whole data sets, the
differential cross section for the case of the 56Fe(p,t0)54Fe
reaction at 20 deg. was measured. /;
EMT=T;
RSD=78SE;
EXC-ENGY=0.0KEV;
\DATA;
THTC'68' DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA
(DEG) (UB/SR) (UB/SR)
18.4 261 +-11
\END;
/* Data taken from Table 1, p227 in reference */
/* '68' c.m. angle at which angular distribution shows first peak
*/
\\EXP,28;
RCT=82SE(P,T)80SE;
ENR=NAT;
CHM=ELM;
\\DATA,28;
INC-ENGY-LAB=51.9MEV;
SYS-ERR=<5%'69';
/* '69' The error of the differential cross sections due to a
choice of the first peak angle was estimated to be within 5%
*/
NORM=/ To confirm the absolute normalization for whole data sets, the
differential cross section for the case of the 56Fe(p,t0)54Fe
reaction at 20 deg. was measured. /;
EMT=T;
RSD=80SE;
EXC-ENGY=0.0KEV;
\DATA;
THTC'70' DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA
(DEG) (UB/SR) (UB/SR)
18.4 184 +-10
\END;
/* Data taken from Table 1, p227 in reference */
/* '70' c.m. angle at which angular distribution shows first peak
*/
\\EXP,29;
RCT=90ZR(P,T)88ZR;
ENR=NAT;
CHM=ELM;
\\DATA,29;
INC-ENGY-LAB=51.9MEV;
SYS-ERR=<5%'71';
/* '71' The error of the differential cross sections due to a
choice of the first peak angle was estimated to be within 5%
*/
NORM=/ To confirm the absolute normalization for whole data sets, the
differential cross section for the case of the 56Fe(p,t0)54Fe
reaction at 20 deg. was measured. /;
EMT=T;
RSD=88ZR;
EXC-ENGY=0.0KEV;
\DATA;
THTC'72' DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA
(DEG) (UB/SR) (UB/SR)
17.9 188 +-5
\END;
/* Data taken from Table 1, p227 in reference */
/* '72' c.m. angle at which angular distribution shows first peak
*/
\\EXP,30;
RCT=92MO(P,T)90MO;
ENR=NAT;
CHM=ELM;
\\DATA,30;
INC-ENGY-LAB=51.9MEV;
SYS-ERR=<5%'73';
/* '73' The error of the differential cross sections due to a
choice of the first peak angle was estimated to be within 5%
*/
NORM=/ To confirm the absolute normalization for whole data sets, the
differential cross section for the case of the 56Fe(p,t0)54Fe
reaction at 20 deg. was measured. /;
EMT=T;
RSD=90MO;
EXC-ENGY=0.0KEV;
\DATA;
THTC'74' DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA
(DEG) (UB/SR) (UB/SR)
17.4 188 +-6
\END;
/* Data taken from Table 1, p227 in reference */
/* '74' c.m. angle at which angular distribution shows first peak
*/
\\EXP,31;
RCT=92ZR(P,T)90ZR;
ENR=NAT;
CHM=ELM;
\\DATA,31;
INC-ENGY-LAB=51.9MEV;
SYS-ERR=<5%'75';
/* '75' The error of the differential cross sections due to a
choice of the first peak angle was estimated to be within 5%
*/
NORM=/ To confirm the absolute normalization for whole data sets, the
differential cross section for the case of the 56Fe(p,t0)54Fe
reaction at 20 deg. was measured. /;
EMT=T;
RSD=90ZR;
EXC-ENGY=0.0KEV;
\DATA;
THTC'76' DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA
(DEG) (UB/SR) (UB/SR)
17.9 196 +-9
\END;
/* Data taken from Table 1, p227 in reference */
/* '76' c.m. angle at which angular distribution shows first peak
*/
\\EXP,32;
RCT=94ZR(P,T)92ZR;
ENR=NAT;
CHM=ELM;
\\DATA,32;
INC-ENGY-LAB=51.9MEV;
SYS-ERR=<5%'77';
/* '77' The error of the differential cross sections due to a
choice of the first peak angle was estimated to be within 5%
*/
NORM=/ To confirm the absolute normalization for whole data sets, the
differential cross section for the case of the 56Fe(p,t0)54Fe
reaction at 20 deg. was measured. /;
EMT=T;
RSD=92ZR;
EXC-ENGY=0.0KEV;
\DATA;
THTC'78' DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA
(DEG) (UB/SR) (UB/SR)
17.8 249 +-4
\END;
/* Data taken from Table 1, p227 in reference */
/* '78' c.m. angle at which angular distribution shows first peak
*/
\\EXP,33;
RCT=96MO(P,T)94MO;
ENR=NAT;
CHM=ELM;
\\DATA,33;
INC-ENGY-LAB=51.9MEV;
SYS-ERR=<5%'79';
/* '79' The error of the differential cross sections due to a
choice of the first peak angle was estimated to be within 5%
*/
NORM=/ To confirm the absolute normalization for whole data sets, the
differential cross section for the case of the 56Fe(p,t0)54Fe
reaction at 20 deg. was measured. /;
EMT=T;
RSD=94MO;
EXC-ENGY=0.0KEV;
\DATA;
THTC'80' DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA
(DEG) (UB/SR) (UB/SR)
17.3 260 +-6
\END;
/* Data taken from Table 1, p227 in reference */
/* '80' c.m. angle at which angular distribution shows first peak
*/
\\EXP,34;
RCT=96ZR(P,T)94ZR;
ENR=NAT;
CHM=ELM;
\\DATA,34;
INC-ENGY-LAB=51.9MEV;
SYS-ERR=<5%'81';
/* '81' The error of the differential cross sections due to a
choice of the first peak angle was estimated to be within 5%
*/
NORM=/ To confirm the absolute normalization for whole data sets, the
differential cross section for the case of the 56Fe(p,t0)54Fe
reaction at 20 deg. was measured. /;
EMT=T;
RSD=94ZR;
EXC-ENGY=0.0KEV;
\DATA;
THTC'82' DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA
(DEG) (UB/SR) (UB/SR)
17.8 187 +-9
\END;
/* Data taken from Table 1, p227 in reference */
/* '82' c.m. angle at which angular distribution shows first peak
*/
\\EXP,35;
RCT=98MO(P,T)96MO;
ENR=NAT;
CHM=ELM;
\\DATA,35;
INC-ENGY-LAB=51.9MEV;
SYS-ERR=<5%'83';
/* '83' The error of the differential cross sections due to a
choice of the first peak angle was estimated to be within 5%
*/
NORM=/ To confirm the absolute normalization for whole data sets, the
differential cross section for the case of the 56Fe(p,t0)54Fe
reaction at 20 deg. was measured. /;
EMT=T;
RSD=96MO;
EXC-ENGY=0.0KEV;
\DATA;
THTC'84' DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA
(DEG) (UB/SR) (UB/SR)
17.3 271 +-5
\END;
/* Data taken from Table 1, p227 in reference */
/* '84' c.m. angle at which angular distribution shows first peak
*/
\\EXP,36;
RCT=100MO(P,T)98MO;
ENR=NAT;
CHM=ELM;
\\DATA,36;
INC-ENGY-LAB=51.9MEV;
SYS-ERR=<5%'85';
/* '85' The error of the differential cross sections due to a
choice of the first peak angle was estimated to be within 5%
*/
NORM=/ To confirm the absolute normalization for whole data sets, the
differential cross section for the case of the 56Fe(p,t0)54Fe
reaction at 20 deg. was measured. /;
EMT=T;
RSD=98MO;
EXC-ENGY=0.0KEV;
\DATA;
THTC'86' DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA
(DEG) (UB/SR) (UB/SR)
17.3 251 +-8
\END;
/* Data taken from Table 1, p227 in reference */
/* '86' c.m. angle at which angular distribution shows first peak
*/
\\EXP,37;
RCT=102RU(P,T)100RU;
ENR=NAT;
CHM=ELM;
\\DATA,37;
INC-ENGY-LAB=51.9MEV;
SYS-ERR=<5%'87';
/* '87' The error of the differential cross sections due to a
choice of the first peak angle was estimated to be within 5%
*/
NORM=/ To confirm the absolute normalization for whole data sets, the
differential cross section for the case of the 56Fe(p,t0)54Fe
reaction at 20 deg. was measured. /;
EMT=T;
RSD=100RU;
EXC-ENGY=0.0KEV;
\DATA;
THTC'88' DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA
(DEG) (UB/SR) (UB/SR)
17.3 258 +-8
\END;
/* Data taken from Table 1, p227 in reference */
/* '88' c.m. angle at which angular distribution shows first peak
*/
\\EXP,38;
RCT=104PD(P,T)102PD;
ENR=NAT;
CHM=ELM;
\\DATA,38;
INC-ENGY-LAB=51.9MEV;
SYS-ERR=<5%'89';
/* '89' The error of the differential cross sections due to a
choice of the first peak angle was estimated to be within 5%
*/
NORM=/ To confirm the absolute normalization for whole data sets, the
differential cross section for the case of the 56Fe(p,t0)54Fe
reaction at 20 deg. was measured. /;
EMT=T;
RSD=102PD;
EXC-ENGY=0.0KEV;
\DATA;
THTC'90' DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA
(DEG) (UB/SR) (UB/SR)
17.3 341 +-15
\END;
/* Data taken from Table 1, p227 in reference */
/* '90' c.m. angle at which angular distribution shows first peak
*/
\\EXP,39;
RCT=104RU(P,T)102RU;
ENR=NAT;
CHM=ELM;
\\DATA,39;
INC-ENGY-LAB=51.9MEV;
SYS-ERR=<5%'91';
/* '91' The error of the differential cross sections due to a
choice of the first peak angle was estimated to be within 5%
*/
NORM=/ To confirm the absolute normalization for whole data sets, the
differential cross section for the case of the 56Fe(p,t0)54Fe
reaction at 20 deg. was measured. /;
EMT=T;
RSD=102RU;
EXC-ENGY=0.0KEV;
\DATA;
THTC'92' DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA
(DEG) (UB/SR) (UB/SR)
17.3 275 +-8
\END;
/* Data taken from Table 1, p227 in reference */
/* '92' c.m. angle at which angular distribution shows first peak
*/
\\EXP,40;
RCT=106PD(P,T)104PD;
ENR=NAT;
CHM=ELM;
\\DATA,40;
INC-ENGY-LAB=51.9MEV;
SYS-ERR=<5%'93';
/* '93' The error of the differential cross sections due to a
choice of the first peak angle was estimated to be within 5%
*/
NORM=/ To confirm the absolute normalization for whole data sets, the
differential cross section for the case of the 56Fe(p,t0)54Fe
reaction at 20 deg. was measured. /;
EMT=T;
RSD=104PD;
EXC-ENGY=0.0KEV;
\DATA;
THTC'94' DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA
(DEG) (UB/SR) (UB/SR)
17.3 343 +-7
\END;
/* Data taken from Table 1, p227 in reference */
/* '94' c.m. angle at which angular distribution shows first peak
*/
\\EXP,41;
RCT=108PD(P,T)106PD;
ENR=NAT;
CHM=ELM;
\\DATA,41;
INC-ENGY-LAB=51.9MEV;
SYS-ERR=<5%'95';
/* '95' The error of the differential cross sections due to a
choice of the first peak angle was estimated to be within 5%
*/
NORM=/ To confirm the absolute normalization for whole data sets, the
differential cross section for the case of the 56Fe(p,t0)54Fe
reaction at 20 deg. was measured. /;
EMT=T;
RSD=106PD;
EXC-ENGY=0.0KEV;
\DATA;
THTC'96' DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA
(DEG) (UB/SR) (UB/SR)
17.3 312 +-6
\END;
/* Data taken from Table 1, p227 in reference */
/* '96' c.m. angle at which angular distribution shows first peak
*/
\\EXP,42;
RCT=110PD(P,T)108PD;
ENR=NAT;
CHM=ELM;
\\DATA,42;
INC-ENGY-LAB=51.9MEV;
SYS-ERR=<5%'97';
/* '97' The error of the differential cross sections due to a
choice of the first peak angle was estimated to be within 5%
*/
NORM=/ To confirm the absolute normalization for whole data sets, the
differential cross section for the case of the 56Fe(p,t0)54Fe
reaction at 20 deg. was measured. /;
EMT=T;
RSD=108PD;
EXC-ENGY=0.0KEV;
\DATA;
THTC'98' DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA
(DEG) (UB/SR) (UB/SR)
17.3 313 +-9
\END;
/* Data taken from Table 1, p227 in reference */
/* '98' c.m. angle at which angular distribution shows first peak
*/
\\EXP,43;
RCT=112CD(P,T)110CD;
ENR=NAT;
CHM=ELM;
\\DATA,43;
INC-ENGY-LAB=51.9MEV;
SYS-ERR=<5%'99';
/* '99' The error of the differential cross sections due to a
choice of the first peak angle was estimated to be within 5%
*/
NORM=/ To confirm the absolute normalization for whole data sets, the
differential cross section for the case of the 56Fe(p,t0)54Fe
reaction at 20 deg. was measured. /;
EMT=T;
RSD=110CD;
EXC-ENGY=0.0KEV;
\DATA;
THTC'100' DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA
(DEG) (UB/SR) (UB/SR)
17.3 347 +-31
\END;
/* Data taken from Table 1, p227 in reference */
/* '100' c.m. angle at which angular distribution shows first
peak */
\\EXP,44;
RCT=114CD(P,T)112CD;
ENR=NAT;
CHM=ELM;
\\DATA,44;
INC-ENGY-LAB=51.9MEV;
SYS-ERR=<5%'101';
/* '101' The error of the differential cross sections due to a
choice of the first peak angle was estimated to be within 5%
*/
NORM=/ To confirm the absolute normalization for whole data sets, the
differential cross section for the case of the 56Fe(p,t0)54Fe
reaction at 20 deg. was measured. /;
EMT=T;
RSD=112CD;
EXC-ENGY=0.0KEV;
\DATA;
THTC'102' DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA
(DEG) (UB/SR) (UB/SR)
17.3 428 +-10
\END;
/* Data taken from Table 1, p227 in reference */
/* '102' c.m. angle at which angular distribution shows first
peak */
\\EXP,45;
RCT=115IN(P,T)113IN;
ENR=NAT;
CHM=ELM;
\\DATA,45;
INC-ENGY-LAB=51.9MEV;
SYS-ERR=<5%'103';
/* '103' The error of the differential cross sections due to a
choice of the first peak angle was estimated to be within 5%
*/
NORM=/ To confirm the absolute normalization for whole data sets, the
differential cross section for the case of the 56Fe(p,t0)54Fe
reaction at 20 deg. was measured. /;
EMT=T;
RSD=113IN;
EXC-ENGY=0.0KEV;
\DATA;
THTC'104' DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA
(DEG) (UB/SR) (UB/SR)
17.3 427 +-4
\END;
/* Data taken from Table 1, p227 in reference */
/* '104' c.m. angle at which angular distribution shows first
peak */
\\EXP,46;
RCT=116CD(P,T)114CD;
ENR=NAT;
CHM=ELM;
\\DATA,46;
INC-ENGY-LAB=51.9MEV;
SYS-ERR=<5%'105';
/* '105' The error of the differential cross sections due to a
choice of the first peak angle was estimated to be within 5%
*/
NORM=/ To confirm the absolute normalization for whole data sets, the
differential cross section for the case of the 56Fe(p,t0)54Fe
reaction at 20 deg. was measured. /;
EMT=T;
RSD=114CD;
EXC-ENGY=0.0KEV;
\DATA;
THTC'106' DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA
(DEG) (UB/SR) (UB/SR)
17.3 470 +-22
\END;
/* Data taken from Table 1, p227 in reference */
/* '106' c.m. angle at which angular distribution shows first
peak */
\\EXP,47;
RCT=118SN(P,T)116SN;
ENR=NAT;
CHM=ELM;
\\DATA,47;
INC-ENGY-LAB=51.9MEV;
SYS-ERR=<5%'107';
/* '107' The error of the differential cross sections due to a
choice of the first peak angle was estimated to be within 5%
*/
NORM=/ To confirm the absolute normalization for whole data sets, the
differential cross section for the case of the 56Fe(p,t0)54Fe
reaction at 20 deg. was measured. /;
EMT=T;
RSD=116SN;
EXC-ENGY=0.0KEV;
\DATA;
THTC'108' DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA
(DEG) (UB/SR) (UB/SR)
17.3 486 +-10
\END;
/* Data taken from Table 1, p227 in reference */
/* '108' c.m. angle at which angular distribution shows first
peak */
\\EXP,48;
RCT=120SN(P,T)118SN;
ENR=NAT;
CHM=ELM;
\\DATA,48;
INC-ENGY-LAB=51.9MEV;
SYS-ERR=<5%'109';
/* '109' The error of the differential cross sections due to a
choice of the first peak angle was estimated to be within 5%
*/
NORM=/ To confirm the absolute normalization for whole data sets, the
differential cross section for the case of the 56Fe(p,t0)54Fe
reaction at 20 deg. was measured. /;
EMT=T;
RSD=118SN;
EXC-ENGY=0.0KEV;
\DATA;
THTC'110' DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA
(DEG) (UB/SR) (UB/SR)
17.3 416 +-8
\END;
/* Data taken from Table 1, p227 in reference */
/* '110' c.m. angle at which angular distribution shows first
peak */
\\EXP,49;
RCT=122TE(P,T)120TE;
ENR=X%'111';
/* '111' Enriched target */
CHM=ELM;
\\DATA,49;
INC-ENGY-LAB=51.9MEV;
SYS-ERR=<5%'112';
/* '112' The error of the differential cross sections due to a
choice of the first peak angle was estimated to be within 5%
*/
NORM=/ To confirm the absolute normalization for whole data sets, the
differential cross section for the case of the 56Fe(p,t0)54Fe
reaction at 20 deg. was measured. /;
EMT=T;
RSD=120TE;
EXC-ENGY=0.0KEV;
\DATA;
THTC'113' DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA
(DEG) (UB/SR) (UB/SR)
17.3 372 +-7
\END;
/* Data taken from Table 1, p227 in reference */
/* '113' c.m. angle at which angular distribution shows first
peak */
\\EXP,50;
RCT=122SN(P,T)120SN;
ENR=NAT;
CHM=ELM;
\\DATA,50;
INC-ENGY-LAB=51.9MEV;
SYS-ERR=<5%'114';
/* '114' The error of the differential cross sections due to a
choice of the first peak angle was estimated to be within 5%
*/
NORM=/ To confirm the absolute normalization for whole data sets, the
differential cross section for the case of the 56Fe(p,t0)54Fe
reaction at 20 deg. was measured. /;
EMT=T;
RSD=120SN;
EXC-ENGY=0.0KEV;
\DATA;
THTC'115' DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA
(DEG) (UB/SR) (UB/SR)
17.3 427 +-16
\END;
/* Data taken from Table 1, p227 in reference */
/* '115' c.m. angle at which angular distribution shows first
peak */
\\EXP,51;
RCT=124TE(P,T)122TE;
ENR=X%'116';
/* '116' Enriched target */
CHM=ELM;
\\DATA,51;
INC-ENGY-LAB=51.9MEV;
SYS-ERR=<5%'117';
/* '117' The error of the differential cross sections due to a
choice of the first peak angle was estimated to be within 5%
*/
NORM=/ To confirm the absolute normalization for whole data sets, the
differential cross section for the case of the 56Fe(p,t0)54Fe
reaction at 20 deg. was measured. /;
EMT=T;
RSD=122TE;
EXC-ENGY=0.0KEV;
\DATA;
THTC'118' DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA
(DEG) (UB/SR) (UB/SR)
17.3 394 +-7
\END;
/* Data taken from Table 1, p227 in reference */
/* '118' c.m. angle at which angular distribution shows first
peak */
\\EXP,52;
RCT=124SN(P,T)122SN;
ENR=NAT;
CHM=ELM;
\\DATA,52;
INC-ENGY-LAB=51.9MEV;
SYS-ERR=<5%'119';
/* '119' The error of the differential cross sections due to a
choice of the first peak angle was estimated to be within 5%
*/
NORM=/ To confirm the absolute normalization for whole data sets, the
differential cross section for the case of the 56Fe(p,t0)54Fe
reaction at 20 deg. was measured. /;
EMT=T;
RSD=122SN;
EXC-ENGY=0.0KEV;
\DATA;
THTC'120' DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA
(DEG) (UB/SR) (UB/SR)
17.2 393 +-15
\END;
/* Data taken from Table 1, p227 in reference */
/* '120' c.m. angle at which angular distribution shows first
peak */
\\EXP,53;
RCT=126TE(P,T)124TE;
ENR=X%'121';
/* '121' Enriched target */
CHM=ELM;
\\DATA,53;
INC-ENGY-LAB=51.9MEV;
SYS-ERR=<5%'122';
/* '122' The error of the differential cross sections due to a
choice of the first peak angle was estimated to be within 5%
*/
NORM=/ To confirm the absolute normalization for whole data sets, the
differential cross section for the case of the 56Fe(p,t0)54Fe
reaction at 20 deg. was measured. /;
EMT=T;
RSD=124TE;
EXC-ENGY=0.0KEV;
\DATA;
THTC'123' DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA
(DEG) (UB/SR) (UB/SR)
17.3 365 +-20
\END;
/* Data taken from Table 1, p227 in reference */
/* '123' c.m. angle at which angular distribution shows first
peak */
\\EXP,54;
RCT=128TE(P,T)126TE;
ENR=X%'124';
/* '124' Enriched target */
CHM=ELM;
\\DATA,54;
INC-ENGY-LAB=51.9MEV;
SYS-ERR=<5%'125';
/* '125' The error of the differential cross sections due to a
choice of the first peak angle was estimated to be within 5%
*/
NORM=/ To confirm the absolute normalization for whole data sets, the
differential cross section for the case of the 56Fe(p,t0)54Fe
reaction at 20 deg. was measured. /;
EMT=T;
RSD=126TE;
EXC-ENGY=0.0KEV;
\DATA;
THTC'126' DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA
(DEG) (UB/SR) (UB/SR)
17.3 332 +-13
\END;
/* Data taken from Table 1, p227 in reference */
/* '126' c.m. angle at which angular distribution shows first
peak */
\\EXP,55;
RCT=130TE(P,T)128TE;
ENR=X%'127';
/* '127' Enriched target */
CHM=ELM;
\\DATA,55;
INC-ENGY-LAB=51.9MEV;
SYS-ERR=<5%'128';
/* '128' The error of the differential cross sections due to a
choice of the first peak angle was estimated to be within 5%
*/
NORM=/ To confirm the absolute normalization for whole data sets, the
differential cross section for the case of the 56Fe(p,t0)54Fe
reaction at 20 deg. was measured. /;
EMT=T;
RSD=128TE;
EXC-ENGY=0.0KEV;
\DATA;
THTC'129' DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA
(DEG) (UB/SR) (UB/SR)
17.2 285 +-10
\END;
/* Data taken from Table 1, p227 in reference */
/* '129' c.m. angle at which angular distribution shows first
peak */
\\EXP,56;
RCT=136BA(P,T)134BA;
ENR=NAT;
CHM=X'130';
/* '130' BaTiCO3 */
\\DATA,56;
INC-ENGY-LAB=51.9MEV;
SYS-ERR=<5%'131';
/* '131' The error of the differential cross sections due to a
choice of the first peak angle was estimated to be within 5%
*/
NORM=/ To confirm the absolute normalization for whole data sets, the
differential cross section for the case of the 56Fe(p,t0)54Fe
reaction at 20 deg. was measured. /;
EMT=T;
RSD=134BA;
EXC-ENGY=0.0KEV;
\DATA;
THTC'132' DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA
(DEG) (UB/SR) (UB/SR)
16.2 191 +-36
\END;
/* Data taken from Table 1, p227 in reference */
/* '132' c.m. angle at which angular distribution shows first
peak */
\\EXP,57;
RCT=138BA(P,T)136BA;
ENR=NAT;
CHM=X'133';
/* '133' BaTiCO3 */
\\DATA,57;
INC-ENGY-LAB=51.9MEV;
SYS-ERR=<5%'134';
/* '134' The error of the differential cross sections due to a
choice of the first peak angle was estimated to be within 5%
*/
NORM=/ To confirm the absolute normalization for whole data sets, the
differential cross section for the case of the 56Fe(p,t0)54Fe
reaction at 20 deg. was measured. /;
EMT=T;
RSD=136BA;
EXC-ENGY=0.0KEV;
\DATA;
THTC'135' DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA
(DEG) (UB/SR) (UB/SR)
16.2 111 +-5
\END;
/* Data taken from Table 1, p227 in reference */
/* '135' c.m. angle at which angular distribution shows first
peak */
\\EXP,58;
RCT=140CE(P,T)138CE;
ENR=NAT;
CHM=ELM;
\\DATA,58;
INC-ENGY-LAB=51.9MEV;
SYS-ERR=<5%'136';
/* '136' The error of the differential cross sections due to a
choice of the first peak angle was estimated to be within 5%
*/
NORM=/ To confirm the absolute normalization for whole data sets, the
differential cross section for the case of the 56Fe(p,t0)54Fe
reaction at 20 deg. was measured. /;
EMT=T;
RSD=138CE;
EXC-ENGY=0.0KEV;
\DATA;
THTC'137' DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA
(DEG) (UB/SR) (UB/SR)
15.2 119 +-4
\END;
/* Data taken from Table 1, p227 in reference */
/* '137' c.m. angle at which angular distribution shows first
peak */
\\EXP,59;
RCT=142CE(P,T)140CE;
ENR=NAT;
CHM=ELM;
\\DATA,59;
INC-ENGY-LAB=51.9MEV;
SYS-ERR=<5%'138';
/* '138' The error of the differential cross sections due to a
choice of the first peak angle was estimated to be within 5%
*/
NORM=/ To confirm the absolute normalization for whole data sets, the
differential cross section for the case of the 56Fe(p,t0)54Fe
reaction at 20 deg. was measured. /;
EMT=T;
RSD=140CE;
EXC-ENGY=0.0KEV;
\DATA;
THTC'139' DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA
(DEG) (UB/SR) (UB/SR)
15.2 72 +-6
\END;
/* Data taken from Table 1, p227 in reference */
/* '139' c.m. angle at which angular distribution shows first
peak */
\\EXP,60;
RCT=144ND(P,T)142ND;
ENR=NAT;
CHM=ELM;
\\DATA,60;
INC-ENGY-LAB=51.9MEV;
SYS-ERR=<5%'140';
/* '140' The error of the differential cross sections due to a
choice of the first peak angle was estimated to be within 5%
*/
NORM=/ To confirm the absolute normalization for whole data sets, the
differential cross section for the case of the 56Fe(p,t0)54Fe
reaction at 20 deg. was measured. /;
EMT=T;
RSD=142ND;
EXC-ENGY=0.0KEV;
\DATA;
THTC'141' DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA
(DEG) (UB/SR) (UB/SR)
15.2 106 +-4
\END;
/* Data taken from Table 1, p227 in reference */
/* '141' c.m. angle at which angular distribution shows first
peak */
\\EXP,61;
RCT=146ND(P,T)144ND;
ENR=NAT;
CHM=ELM;
\\DATA,61;
INC-ENGY-LAB=51.9MEV;
SYS-ERR=<5%'142';
/* '142' The error of the differential cross sections due to a
choice of the first peak angle was estimated to be within 5%
*/
NORM=/ To confirm the absolute normalization for whole data sets, the
differential cross section for the case of the 56Fe(p,t0)54Fe
reaction at 20 deg. was measured. /;
EMT=T;
RSD=144ND;
EXC-ENGY=0.0KEV;
\DATA;
THTC'143' DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA
(DEG) (UB/SR) (UB/SR)
15.2 132 +-7
\END;
/* Data taken from Table 1, p227 in reference */
/* '143' c.m. angle at which angular distribution shows first
peak */
\\EXP,62;
RCT=148ND(P,T)146ND;
ENR=NAT;
CHM=ELM;
\\DATA,62;
INC-ENGY-LAB=51.9MEV;
SYS-ERR=<5%'144';
/* '144' The error of the differential cross sections due to a
choice of the first peak angle was estimated to be within 5%
*/
NORM=/ To confirm the absolute normalization for whole data sets, the
differential cross section for the case of the 56Fe(p,t0)54Fe
reaction at 20 deg. was measured. /;
EMT=T;
RSD=146ND;
EXC-ENGY=0.0KEV;
\DATA;
THTC'145' DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA
(DEG) (UB/SR) (UB/SR)
15.2 155 +-10
\END;
/* Data taken from Table 1, p227 in reference */
/* '145' c.m. angle at which angular distribution shows first
peak */
\\EXP,63;
RCT=150ND(P,T)148ND;
ENR=NAT;
CHM=ELM;
\\DATA,63;
INC-ENGY-LAB=51.9MEV;
SYS-ERR=<5%'146';
/* '146' The error of the differential cross sections due to a
choice of the first peak angle was estimated to be within 5%
*/
NORM=/ To confirm the absolute normalization for whole data sets, the
differential cross section for the case of the 56Fe(p,t0)54Fe
reaction at 20 deg. was measured. /;
EMT=T;
RSD=148ND;
EXC-ENGY=0.0KEV;
\DATA;
THTC'147' DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA
(DEG) (UB/SR) (UB/SR)
15.2 94 +-8
\END;
/* Data taken from Table 1, p227 in reference */
/* '147' c.m. angle at which angular distribution shows first
peak */
\\EXP,64;
RCT=158GD(P,T)156GD;
ENR=NAT;
CHM=ELM;
\\DATA,64;
INC-ENGY-LAB=51.9MEV;
SYS-ERR=<5%'148';
/* '148' The error of the differential cross sections due to a
choice of the first peak angle was estimated to be within 5%
*/
NORM=/ To confirm the absolute normalization for whole data sets, the
differential cross section for the case of the 56Fe(p,t0)54Fe
reaction at 20 deg. was measured. /;
EMT=T;
RSD=156GD;
EXC-ENGY=0.0KEV;
\DATA;
THTC'149' DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA
(DEG) (UB/SR) (UB/SR)
14.2 171 +-19
\END;
/* Data taken from Table 1, p227 in reference */
/* '149' c.m. angle at which angular distribution shows first
peak */
\\EXP,65;
RCT=160GD(P,T)158GD;
ENR=NAT;
CHM=ELM;
\\DATA,65;
INC-ENGY-LAB=51.9MEV;
SYS-ERR=<5%'150';
/* '150' The error of the differential cross sections due to a
choice of the first peak angle was estimated to be within 5%
*/
NORM=/ To confirm the absolute normalization for whole data sets, the
differential cross section for the case of the 56Fe(p,t0)54Fe
reaction at 20 deg. was measured. /;
EMT=T;
RSD=158GD;
EXC-ENGY=0.0KEV;
\DATA;
THTC'151' DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA
(DEG) (UB/SR) (UB/SR)
14.2 152 +-5
\END;
/* Data taken from Table 1, p227 in reference */
/* '151' c.m. angle at which angular distribution shows first
peak */
\\EXP,66;
RCT=165HO(P,T)163HO;
ENR=NAT;
CHM=ELM;
\\DATA,66;
INC-ENGY-LAB=51.9MEV;
SYS-ERR=<5%'152';
/* '152' The error of the differential cross sections due to a
choice of the first peak angle was estimated to be within 5%
*/
NORM=/ To confirm the absolute normalization for whole data sets, the
differential cross section for the case of the 56Fe(p,t0)54Fe
reaction at 20 deg. was measured. /;
EMT=T;
RSD=163HO;
EXC-ENGY=0.0KEV;
\DATA;
THTC'153' DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA
(DEG) (UB/SR) (UB/SR)
13.6 140 +-10
\END;
/* Data taken from Table 1, p227 in reference */
/* '153' c.m. angle at which angular distribution shows first
peak */
\\EXP,67;
RCT=168ER(P,T)166ER;
ENR=NAT;
CHM=ELM;
\\DATA,67;
INC-ENGY-LAB=51.9MEV;
SYS-ERR=<5%'154';
/* '154' The error of the differential cross sections due to a
choice of the first peak angle was estimated to be within 5%
*/
NORM=/ To confirm the absolute normalization for whole data sets, the
differential cross section for the case of the 56Fe(p,t0)54Fe
reaction at 20 deg. was measured. /;
EMT=T;
RSD=166ER;
EXC-ENGY=0.0KEV;
\DATA;
THTC'155' DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA
(DEG) (UB/SR) (UB/SR)
13.6 121 +-21
\END;
/* Data taken from Table 1, p227 in reference */
/* '155' c.m. angle at which angular distribution shows first
peak */
\\EXP,68;
RCT=170ER(P,T)168ER;
ENR=NAT;
CHM=ELM;
\\DATA,68;
INC-ENGY-LAB=51.9MEV;
SYS-ERR=<5%'156';
/* '156' The error of the differential cross sections due to a
choice of the first peak angle was estimated to be within 5%
*/
NORM=/ To confirm the absolute normalization for whole data sets, the
differential cross section for the case of the 56Fe(p,t0)54Fe
reaction at 20 deg. was measured. /;
EMT=T;
RSD=168ER;
EXC-ENGY=0.0KEV;
\DATA;
THTC'157' DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA
(DEG) (UB/SR) (UB/SR)
13.6 115 +-12
\END;
/* Data taken from Table 1, p227 in reference */
/* '157' c.m. angle at which angular distribution shows first
peak */
\\EXP,69;
RCT=172YB(P,T)170YB;
ENR=NAT;
CHM=ELM;
\\DATA,69;
INC-ENGY-LAB=51.9MEV;
SYS-ERR=<5%'158';
/* '158' The error of the differential cross sections due to a
choice of the first peak angle was estimated to be within 5%
*/
NORM=/ To confirm the absolute normalization for whole data sets, the
differential cross section for the case of the 56Fe(p,t0)54Fe
reaction at 20 deg. was measured. /;
EMT=T;
RSD=170YB;
EXC-ENGY=0.0KEV;
\DATA;
THTC'159' DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA
(DEG) (UB/SR) (UB/SR)
13.7 165 +-13
\END;
/* Data taken from Table 1, p227 in reference */
/* '159' c.m. angle at which angular distribution shows first
peak */
\\EXP,70;
RCT=174YB(P,T)172YB;
ENR=NAT;
CHM=ELM;
\\DATA,70;
INC-ENGY-LAB=51.9MEV;
SYS-ERR=<5%'160';
/* '160' The error of the differential cross sections due to a
choice of the first peak angle was estimated to be within 5%
*/
NORM=/ To confirm the absolute normalization for whole data sets, the
differential cross section for the case of the 56Fe(p,t0)54Fe
reaction at 20 deg. was measured. /;
EMT=T;
RSD=172YB;
EXC-ENGY=0.0KEV;
\DATA;
THTC'161' DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA
(DEG) (UB/SR) (UB/SR)
13.6 104 +-7
\END;
/* Data taken from Table 1, p227 in reference */
/* '161' c.m. angle at which angular distribution shows first
peak */
\\EXP,71;
RCT=176YB(P,T)174YB;
ENR=NAT;
CHM=ELM;
\\DATA,71;
INC-ENGY-LAB=51.9MEV;
SYS-ERR=<5%'162';
/* '162' The error of the differential cross sections due to a
choice of the first peak angle was estimated to be within 5%
*/
NORM=/ To confirm the absolute normalization for whole data sets, the
differential cross section for the case of the 56Fe(p,t0)54Fe
reaction at 20 deg. was measured. /;
EMT=T;
RSD=174YB;
EXC-ENGY=0.0KEV;
\DATA;
THTC'163' DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA
(DEG) (UB/SR) (UB/SR)
13.6 110 +-10
\END;
/* Data taken from Table 1, p227 in reference */
/* '163' c.m. angle at which angular distribution shows first
peak */
\\EXP,72;
RCT=181TA(P,T)179TA;
ENR=NAT;
CHM=ELM;
\\DATA,72;
INC-ENGY-LAB=51.9MEV;
SYS-ERR=<5%'164';
/* '164' The error of the differential cross sections due to a
choice of the first peak angle was estimated to be within 5%
*/
NORM=/ To confirm the absolute normalization for whole data sets, the
differential cross section for the case of the 56Fe(p,t0)54Fe
reaction at 20 deg. was measured. /;
EMT=T;
RSD=179TA;
EXC-ENGY=0.0KEV;
\DATA;
THTC'165' DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA
(DEG) (UB/SR) (UB/SR)
13.1 138 +-8
\END;
/* Data taken from Table 1, p227 in reference */
/* '165' c.m. angle at which angular distribution shows first
peak */
\\EXP,73;
RCT=184W(P,T)182W;
ENR=NAT;
CHM=ELM;
\\DATA,73;
INC-ENGY-LAB=51.9MEV;
SYS-ERR=<5%'166';
/* '166' The error of the differential cross sections due to a
choice of the first peak angle was estimated to be within 5%
*/
NORM=/ To confirm the absolute normalization for whole data sets, the
differential cross section for the case of the 56Fe(p,t0)54Fe
reaction at 20 deg. was measured. /;
EMT=T;
RSD=182W;
EXC-ENGY=0.0KEV;
\DATA;
THTC'167' DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA
(DEG) (UB/SR) (UB/SR)
13.1 120 +-9
\END;
/* Data taken from Table 1, p227 in reference */
/* '167' c.m. angle at which angular distribution shows first
peak */
\\EXP,74;
RCT=186W(P,T)184W;
ENR=NAT;
CHM=ELM;
\\DATA,74;
INC-ENGY-LAB=51.9MEV;
SYS-ERR=<5%'168';
/* '168' The error of the differential cross sections due to a
choice of the first peak angle was estimated to be within 5%
*/
NORM=/ To confirm the absolute normalization for whole data sets, the
differential cross section for the case of the 56Fe(p,t0)54Fe
reaction at 20 deg. was measured. /;
EMT=T;
RSD=184W;
EXC-ENGY=0.0KEV;
\DATA;
THTC'169' DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA
(DEG) (UB/SR) (UB/SR)
13.1 148 +-6
\END;
/* Data taken from Table 1, p227 in reference */
/* '169' c.m. angle at which angular distribution shows first
peak */
\\EXP,75;
RCT=188OS(P,T)186OS;
ENR=X%'170';
/* '170' Enriched target */
CHM=X'171';
/* '171' Os2O3 */
\\DATA,75;
INC-ENGY-LAB=51.9MEV;
SYS-ERR=<5%'172';
/* '172' The error of the differential cross sections due to a
choice of the first peak angle was estimated to be within 5%
*/
NORM=/ To confirm the absolute normalization for whole data sets, the
differential cross section for the case of the 56Fe(p,t0)54Fe
reaction at 20 deg. was measured. /;
EMT=T;
RSD=186OS;
EXC-ENGY=0.0KEV;
\DATA;
THTC'173' DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA
(DEG) (UB/SR) (UB/SR)
12.6 148 +-10
\END;
/* Data taken from Table 1, p227 in reference */
/* '173' c.m. angle at which angular distribution shows first
peak */
\\EXP,76;
RCT=190OS(P,T)188OS;
ENR=X%'174';
/* '174' Enriched target */
CHM=X'175';
/* '175' Os2O3 */
\\DATA,76;
INC-ENGY-LAB=51.9MEV;
SYS-ERR=<5%'176';
/* '176' The error of the differential cross sections due to a
choice of the first peak angle was estimated to be within 5%
*/
NORM=/ To confirm the absolute normalization for whole data sets, the
differential cross section for the case of the 56Fe(p,t0)54Fe
reaction at 20 deg. was measured. /;
EMT=T;
RSD=188OS;
EXC-ENGY=0.0KEV;
\DATA;
THTC'177' DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA
(DEG) (UB/SR) (UB/SR)
12.6 143 +-10
\END;
/* Data taken from Table 1, p227 in reference */
/* '177' c.m. angle at which angular distribution shows first
peak */
\\EXP,77;
RCT=191IR(P,T)189IR;
ENR=NAT;
CHM=ELM;
\\DATA,77;
INC-ENGY-LAB=51.9MEV;
SYS-ERR=<5%'178';
/* '178' The error of the differential cross sections due to a
choice of the first peak angle was estimated to be within 5%
*/
NORM=/ To confirm the absolute normalization for whole data sets, the
differential cross section for the case of the 56Fe(p,t0)54Fe
reaction at 20 deg. was measured. /;
EMT=T;
RSD=189IR;
EXC-ENGY=0.0KEV;
\DATA;
THTC'179' DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA
(DEG) (UB/SR) (UB/SR)
12.6 147 +-15
\END;
/* Data taken from Table 1, p227 in reference */
/* '179' c.m. angle at which angular distribution shows first
peak */
\\EXP,78;
RCT=192OS(P,T)190OS;
ENR=NAT;
CHM=X'180';
/* '180' Os2O3 */
\\DATA,78;
INC-ENGY-LAB=51.9MEV;
SYS-ERR=<5%'181';
/* '181' The error of the differential cross sections due to a
choice of the first peak angle was estimated to be within 5%
*/
NORM=/ To confirm the absolute normalization for whole data sets, the
differential cross section for the case of the 56Fe(p,t0)54Fe
reaction at 20 deg. was measured. /;
EMT=T;
RSD=190OS;
EXC-ENGY=0.0KEV;
\DATA;
THTC'182' DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA
(DEG) (UB/SR) (UB/SR)
12.6 104 +-12
\END;
/* Data taken from Table 1, p227 in reference */
/* '182' c.m. angle at which angular distribution shows first
peak */
\\EXP,79;
RCT=193IR(P,T)191IR;
ENR=NAT;
CHM=ELM;
\\DATA,79;
INC-ENGY-LAB=51.9MEV;
SYS-ERR=<5%'183';
/* '183' The error of the differential cross sections due to a
choice of the first peak angle was estimated to be within 5%
*/
NORM=/ To confirm the absolute normalization for whole data sets, the
differential cross section for the case of the 56Fe(p,t0)54Fe
reaction at 20 deg. was measured. /;
EMT=T;
RSD=191IR;
EXC-ENGY=0.0KEV;
\DATA;
THTC'184' DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA
(DEG) (UB/SR) (UB/SR)
12.6 140 +-12
\END;
/* Data taken from Table 1, p227 in reference */
/* '184' c.m. angle at which angular distribution shows first
peak */
\\EXP,80;
RCT=194PT(P,T)192PT;
ENR=NAT;
CHM=ELM;
\\DATA,80;
INC-ENGY-LAB=51.9MEV;
SYS-ERR=<5%'185';
/* '185' The error of the differential cross sections due to a
choice of the first peak angle was estimated to be within 5%
*/
NORM=/ To confirm the absolute normalization for whole data sets, the
differential cross section for the case of the 56Fe(p,t0)54Fe
reaction at 20 deg. was measured. /;
EMT=T;
RSD=192PT;
EXC-ENGY=0.0KEV;
\DATA;
THTC'186' DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA
(DEG) (UB/SR) (UB/SR)
12.6 332 +-9
\END;
/* Data taken from Table 1, p227 in reference */
/* '186' c.m. angle at which angular distribution shows first
peak */
\\EXP,81;
RCT=196PT(P,T)194PT;
ENR=NAT;
CHM=ELM;
\\DATA,81;
INC-ENGY-LAB=51.9MEV;
SYS-ERR=<5%'187';
/* '187' The error of the differential cross sections due to a
choice of the first peak angle was estimated to be within 5%
*/
NORM=/ To confirm the absolute normalization for whole data sets, the
differential cross section for the case of the 56Fe(p,t0)54Fe
reaction at 20 deg. was measured. /;
EMT=T;
RSD=194PT;
EXC-ENGY=0.0KEV;
\DATA;
THTC'188' DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA
(DEG) (UB/SR) (UB/SR)
12.6 276 +-8
\END;
/* Data taken from Table 1, p227 in reference */
/* '188' c.m. angle at which angular distribution shows first
peak */
\\EXP,82;
RCT=197AU(P,T)195AU;
ENR=NAT;
CHM=ELM;
\\DATA,82;
INC-ENGY-LAB=51.9MEV;
SYS-ERR=<5%'189';
/* '189' The error of the differential cross sections due to a
choice of the first peak angle was estimated to be within 5%
*/
NORM=/ To confirm the absolute normalization for whole data sets, the
differential cross section for the case of the 56Fe(p,t0)54Fe
reaction at 20 deg. was measured. /;
EMT=T;
RSD=195AU;
EXC-ENGY=0.0KEV;
\DATA;
THTC'190' DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA
(DEG) (UB/SR) (UB/SR)
13.1 228 +-6
\END;
/* Data taken from Table 1, p227 in reference */
/* '190' c.m. angle at which angular distribution shows first
peak */
\\EXP,83;
RCT=198PT(P,T)196PT;
ENR=NAT;
CHM=ELM;
\\DATA,83;
INC-ENGY-LAB=51.9MEV;
SYS-ERR=<5%'191';
/* '191' The error of the differential cross sections due to a
choice of the first peak angle was estimated to be within 5%
*/
NORM=/ To confirm the absolute normalization for whole data sets, the
differential cross section for the case of the 56Fe(p,t0)54Fe
reaction at 20 deg. was measured. /;
EMT=T;
RSD=196PT;
EXC-ENGY=0.0KEV;
\DATA;
THTC'192' DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA
(DEG) (UB/SR) (UB/SR)
12.6 248 +-8
\END;
/* Data taken from Table 1, p227 in reference */
/* '192' c.m. angle at which angular distribution shows first
peak */
\\EXP,84;
RCT=202HG(P,T)200HG;
ENR=NAT;
CHM=X'193';
/* '193' Hg2O */
\\DATA,84;
INC-ENGY-LAB=51.9MEV;
SYS-ERR=<5%'194';
/* '194' The error of the differential cross sections due to a
choice of the first peak angle was estimated to be within 5%
*/
NORM=/ To confirm the absolute normalization for whole data sets, the
differential cross section for the case of the 56Fe(p,t0)54Fe
reaction at 20 deg. was measured. /;
EMT=T;
RSD=200HG;
EXC-ENGY=0.0KEV;
\DATA;
THTC'195' DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA
(DEG) (UB/SR) (UB/SR)
12.6 176 +-26
\END;
/* Data taken from Table 1, p227 in reference */
/* '195' c.m. angle at which angular distribution shows first
peak */
\\EXP,85;
RCT=204HG(P,T)202HG;
ENR=NAT;
CHM=X'196';
/* '196' Hg2O */
\\DATA,85;
INC-ENGY-LAB=51.9MEV;
SYS-ERR=<5%'197';
/* '197' The error of the differential cross sections due to a
choice of the first peak angle was estimated to be within 5%
*/
NORM=/ To confirm the absolute normalization for whole data sets, the
differential cross section for the case of the 56Fe(p,t0)54Fe
reaction at 20 deg. was measured. /;
EMT=T;
RSD=202HG;
EXC-ENGY=0.0KEV;
\DATA;
THTC'198' DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA
(DEG) (UB/SR) (UB/SR)
12.6 143 +-27
\END;
/* Data taken from Table 1, p227 in reference */
/* '198' c.m. angle at which angular distribution shows first
peak */
\\EXP,86;
RCT=208PB(P,T)206PB;
ENR=NAT;
CHM=ELM;
\\DATA,86;
INC-ENGY-LAB=51.9MEV;
SYS-ERR=<5%'199';
/* '199' The error of the differential cross sections due to a
choice of the first peak angle was estimated to be within 5%
*/
NORM=/ To confirm the absolute normalization for whole data sets, the
differential cross section for the case of the 56Fe(p,t0)54Fe
reaction at 20 deg. was measured. /;
EMT=T;
RSD=206PB;
EXC-ENGY=0.0KEV;
\DATA;
THTC'200' DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA
(DEG) (UB/SR) (UB/SR)
12.6 94 +-4
\END;
/* Data taken from Table 1, p227 in reference */
/* '200' c.m. angle at which angular distribution shows first
peak */
\\EXP,87;
RCT=209BI(P,T)207BI;
ENR=NAT;
CHM=ELM;
\\DATA,87;
INC-ENGY-LAB=51.9MEV;
SYS-ERR=<5%'201';
/* '201' The error of the differential cross sections due to a
choice of the first peak angle was estimated to be within 5%
*/
NORM=/ To confirm the absolute normalization for whole data sets, the
differential cross section for the case of the 56Fe(p,t0)54Fe
reaction at 20 deg. was measured. /;
EMT=T;
RSD=207BI;
EXC-ENGY=0.0KEV;
\DATA;
THTC'202' DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA
(DEG) (UB/SR) (UB/SR)
12.6 97 +-4
\END;
/* Data taken from Table 1, p227 in reference */
/* '202' c.m. angle at which angular distribution shows first
peak */
\\EXP,88;
RCT=232TH(P,T)230TH;
ENR=NAT;
CHM=X'203';
/* '203' ThO2 */
\\DATA,88;
INC-ENGY-LAB=51.9MEV;
SYS-ERR=<5%'204';
/* '204' The error of the differential cross sections due to a
choice of the first peak angle was estimated to be within 5%
*/
NORM=/ To confirm the absolute normalization for whole data sets, the
differential cross section for the case of the 56Fe(p,t0)54Fe
reaction at 20 deg. was measured. /;
EMT=T;
RSD=230TH;
EXC-ENGY=0.0KEV;
\DATA;
THTC'205' DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA
(DEG) (UB/SR) (UB/SR)
10.1 108 +-24
\END;
/* Data taken from Table 1, p227 in reference */
/* '205' c.m. angle at which angular distribution shows first
peak */
\\EXP,89;
RCT=238U(P,T)236U;
ENR=NAT;
CHM=X'206';
/* '206' UO2 */
\\DATA,89;
INC-ENGY-LAB=51.9MEV;
SYS-ERR=<5%'207';
/* '207' The error of the differential cross sections due to a
choice of the first peak angle was estimated to be within 5%
*/
NORM=/ To confirm the absolute normalization for whole data sets, the
differential cross section for the case of the 56Fe(p,t0)54Fe
reaction at 20 deg. was measured. /;
EMT=T;
RSD=236U;
EXC-ENGY=0.0KEV;
\DATA;
THTC'208' DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA
(DEG) (UB/SR) (UB/SR)
10.1 97 +-18
\END;
/* Data taken from Table 1, p227 in reference */
/* '208' c.m. angle at which angular distribution shows first
peak */
\\END;