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| /*===================================================================*/
/* NRDF D1615 Data No.68 */
/*===================================================================*/
/* Bibliography */
/*===================================================================*/
\\BIB,68;
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;
/*===================================================================*/
/* Experimental Conditions */
/*===================================================================*/
\\EXP,68;
/* 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;
RCT=170ER(P,T)168ER;
ENR=NAT;
CHM=ELM;
/*===================================================================*/
/* Descriptive Parameters */
/*===================================================================*/
\\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;
INC-ENGY-LAB=3.20[4.76MEV;
PRJ=P;
TGT=52CR;
CMPD=53MN;
EMT=P;
RSD=52CR;
J-PTY=3/2+;
THTL=(90DEG,120DEG,135DEG,160DEG);
/*===================================================================*/
/* Data Table */
/*===================================================================*/
\DATA;
THTC'157' DSIGMA/DOMEGA DELTA-DSIGMA/DOMEGA
(DEG) (UB/SR) (UB/SR)
13.6 115 +-12
RESN-ENGY WDTH WDTH-RATIO REDUCED-WDTH X'18'
(MEV) (EV) (NODIM) (KEV) (NODIM)
3.2156 150 1.0 2.5 X
3.2443 40 1.0 0.63 X
3.2487 40 1.0 0.63 X
3.2881 70 0.86 0.88 -0.4
3.3232 30 1.0 0.41 X
3.3328 100 1.0 1.4 X
3.3360 60 1.0 0.81 X
3.3392 50 1.0 0.67 X
3.3507 20 1.0 0.26 X
3.3527 50 1.0 0.65 X
3.3944 15 1.0 0.18 X
3.4565 80 0.75 0.65 -0.2
3.4740 30 1.0 0.32 X
3.4823 45 0.67 0.31 0.2
3.5139 20 1.0 0.20 X
3.5677 50 0.60 0.27 0.2
3.5731 100 1.0 0.90 X
3.6137 30 1.0 0.25 X
3.6305 20 1.0 0.17 X
3.6366 160 0.50 0.65 0.1
3.6549 20 1.0 0.16 X
3.6659 30 0.67 0.16 0.4
3.6788 140 0.71 0.77 0.2
3.7200 70 0.71 0.36 0.2
3.7257 100 0.50 0.36 -0.4
3.7463 15 1.0 0.10 X
3.7568 60 0.50 0.21 0.3
3.7618 140 0.57 0.55 -0.1
3.7626 190 0.79 1.0 -0.3
3.7742 80 1.0 0.54 X
3.7878 50 1.0 0.33 X
3.7931 100 0.60 0.39 -0.1
3.7963 300 1.0 2.0 X
3.8001 30 1.0 0.19 X
3.8138 210 0.57 0.76 0.0
3.8264 170 0.88 0.94 -0.3
3.8375 50 1.0 0.49 X
3.8414 60 0.50 0.18 -0.4
3.8609 80 1.0 0.48 X
3.8738 80 0.50 0.23 0.2
3.8792 120 0.50 0.35 0.0
3.9031 50 1.0 0.28 X
3.9142 20 1.0 0.11 X
3.9197 30 1.0 0.17 X
3.9204 100 0.50 0.27 -0.2
3.9253 80 0.50 0.22 0.4
3.9473 150 1.0 0.80 X
3.9496 30 1.0 0.16 X
3.9684 150 0.67 0.52 0.3
3.9701 680 0.74 2.6 0.4
3.9898 400 1.0 2.0 X
3.9919 30 1.0 0.15 X
4.0019 120 0.67 0.40 0.5
4.0030 180 0.83 0.74 0.5
4.0192 160 0.50 0.39 0.1
4.0412 100 1.0 0.47 X
4.0475 320 0.94 1.4 0.1
4.0646 200 0.50 0.45 0.2
4.0752 160 0.50 0.36 0.0
4.0805 160 0.50 0.36 0.0
4.0826 120 0.50 0.27 0.3
4.0937 400 1.0 1.8 X
4.1064 140 0.71 0.43 0.1
4.1109 300 1.0 1.3 X
4.1119 290 0.41 0.52 -0.1
4.1256 250 0.72 0.56 -0.3
4.1288 60 1.0 0.25 X
4.1302 60 1.0 0.25 X
4.1334 240 0.38 0.38 -0.1
4.1566 150 1.0 0.61 X
4.1576 250 1.0 1.0 X
4.1626 60 1.0 0.24 X
4.1766 200 1.0 0.80 X
4.1784 140 0.71 0.40 0.2
4.1809 400 0.40 0.64 -0.1
4.1837 300 1.0 1.2 X
4.1883 90 0.50 0.18 0.1
4.1981 110 0.55 0.23 -0.1
4.2102 60 X 0.23 X
4.2168 30 X 0.11 X
4.2202 60 X 0.23 X
4.2221 30 X 0.11 X
4.2473 80 X 0.29 X
4.2506 300 X 1.1 X
4.2532 20 X 0.07 X
4.2596 300 X 1.1 X
4.2630 180 X 0.65 X
4.2712 60 X 0.22 X
4.2792 200 X 0.71 X
4.2854 200 X 0.71 X
4.3028 150 X 0.52 X
4.3097 200 X 0.69 X
4.3215 100 X 0.34 X
4.3240 30 X 0.10 X
4.3295 150 X 0.50 X
4.3395 100 X 0.33 X
4.3484 80 X 0.26 X
4.3490 80 X 0.26 X
4.3552 30 X 0.10 X
4.3576 30 X 0.10 X
4.3691 200 X 0.64 X
4.3725 100 X 0.32 X
4.3733 50 X 0.16 X
4.3810 30 X 0.10 X
4.3827 250 X 0.79 X
4.3951 100 X 0.31 X
4.4019 20 X 0.06 X
4.4066 200 X 0.62 X
4.4122 600 X 1.9 X
4.4268 80 X 0.24 X
4.4342 60 X 0.18 X
4.4355 150 X 0.45 X
4.4397 700 X 2.1 X
4.4447 80 X 0.24 X
4.4545 110 0.45 0.15 0.4
4.4639 120 0.50 0.17 0.1
4.4686 180 0.83 0.43 -0.7
4.4821 300 1.0 0.85 X
4.4954 220 0.55 0.34 0.4
4.4995 2400 0.50 3.4 0.4
4.5010 160 0.50 0.22 0.4
4.5043 80 0.50 0.11 0.4
4.5100 120 0.50 0.17 0.1
4.5253 700 0.86 1.6 -0.1
4.5291 150 0.33 0.14 0.3
4.5329 400 1.0 1.1 X
4.5474 300 0.50 0.40 0.1
4.5537 1400 0.71 2.6 0.4
4.5549 700 0.57 1.1 0.3
4.5581 500 0.50 0.66 -0.1
4.5651 200 0.50 0.26 0.1
4.5678 60 0.50 0.08 0.4
4.5733 1000 0.50 1.3 0.3
4.5984 400 0.50 0.51 0.1
4.6079 780 0.90 1.8 0.4
4.6212 200 1.0 0.50 X
4.6244 420 0.71 0.75 -0.3
4.6297 760 0.50 0.94 0.2
4.6505 1300 0.77 2.4 -0.1
4.6627 1100 0.91 2.4 0.2
4.6764 450 0.89 0.95 0.3
4.6821 300 0.67 0.47 0.0
4.6829 300 0.67 0.47 0.0
4.6882 200 0.50 0.23 0.2
4.6986 60 1.0 0.14 X
4.7029 150 1.0 0.35 X
4.7076 120 0.50 0.14 0.0
4.7144 120 0.67 0.18 -0.2
4.7177 2000 1.0 4.6 X
4.7225 160 0.50 0.18 0.3
4.7232 100 0.50 0.11 0.4
4.7292 110 0.55 0.14 -0.7
4.7353 200 0.50 0.22 -0.1
4.7382 100 0.50 0.11 -0.7
4.7428 400 0.50 0.45 -0.4
4.7464 200 0.50 0.22 -0.7
4.7502 90 0.67 0.13 -0.4
4.7510 300 0.50 0.33 -0.7
4.7567 250 0.80 0.44 -0.6
\END;
/*===================================================================*/
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