|
| /*===================================================================*/
/* NRDF D0416 Data No.92 */
/*===================================================================*/
/* Bibliography */
/*===================================================================*/
\\BIB,92;
D#=D1411;
TITLE=/ Mass yield curves in low-energy proton-induced fission of
233U, 235U, 236U, 237Np, 239Pu, 242Pu, 244Pu, 241Am, and 243Am
PURPOSE=/ The aim is to study more extensively the systematic
variation of mass yield curves as a function of the (Z,N) of
the fissioning nucleus and excitation energy in order to
elucidate how strongry some basic physical quantities affect
the mass division in fission. /;
ATH=(T.OHTSUKI'1,2', Y.NAGAME'2', K.TSUKADA'1', N.SHINOHARA'2',
S.BABA'2', K.HASHIMOTO'2', I.NISHINAKA'1', K.SUEKI'1',
Y.HATSUKAWA'2', K.HATA'2', T.SEKINE'2', I.KANNO'2', H.IKEZOE'2',
H.NAKAHARA'1');
INST-ATH=(2JPNTMU'1', 2JPNJAE'2');
/* '1' Department of Chemistry */
REF=PR/C;
VLP=44(1991)1405;
/* Secondary references
- PR/C, 40(1989)2144 (Preliminary results)
- PR/C, 48(1993)1667 (Systematic analysis)
RCTS=(233U(P,FISSN), 235U(P,FISSN), 236U(P,FISSN), 239PU(P,FISSN),
242PU(P,FISSN), 244PU(P,FISSN), 241AM(P,FISSN), 243AM(P,FISSN),
237NP(P,FISSN), 233U(P,FISSN)85KR, 233U(P,FISSN)87KR,
233U(P,FISSN)88KR, 233U(P,FISSN)91SR, 233U(P,FISSN)92SR,
233U(P,FISSN)93Y, 233U(P,FISSN)95ZR, 233U(P,FISSN)97ZR,
233U(P,FISSN)99MO, 233U(P,FISSN)103RU, 233U(P,FISSN)105RH,
233U(P,FISSN)112PD, 233U(P,FISSN)113AG, 233U(P,FISSN)115CD,
233U(P,FISSN)117CD, 233U(P,FISSN)126SB, 233U(P,FISSN)127SB,
233U(P,FISSN)128SB, 233U(P,FISSN)129SB, 233U(P,FISSN)130I,
233U(P,FISSN)131I, 233U(P,FISSN)132TE, 233U(P,FISSN)133I,
233U(P,FISSN)135I, 233U(P,FISSN)136CS, 233U(P,FISSN)139BA,
233U(P,FISSN)140BA, 233U(P,FISSN)141CE, 233U(P,FISSN)142LA,
233U(P,FISSN)143CE, 233U(P,FISSN)149ND, 233U(P,FISSN)153SM,
235U(P,FISSN)85KR, 235U(P,FISSN)87KR, 235U(P,FISSN)88KR,
235U(P,FISSN)91SR, 235U(P,FISSN)92SR, 235U(P,FISSN)93Y,
235U(P,FISSN)95ZR, 235U(P,FISSN)97ZR, 235U(P,FISSN)99MO,
235U(P,FISSN)103RU, 235U(P,FISSN)105RH, 235U(P,FISSN)111AG,
235U(P,FISSN)112PD, 235U(P,FISSN)113AG, 235U(P,FISSN)115CD,
235U(P,FISSN)117CD, 235U(P,FISSN)126SB, 235U(P,FISSN)127SB,
235U(P,FISSN)128SB, 235U(P,FISSN)129SB, 235U(P,FISSN)130I,
235U(P,FISSN)131I, 235U(P,FISSN)132TE, 235U(P,FISSN)133I,
235U(P,FISSN)135I, 235U(P,FISSN)136CS, 235U(P,FISSN)139BA,
235U(P,FISSN)140BA, 235U(P,FISSN)141CE, 235U(P,FISSN)142LA,
235U(P,FISSN)143CE, 235U(P,FISSN)149ND, 235U(P,FISSN)151PM,
235U(P,FISSN)153SM, 236U(P,FISSN)85KR, 236U(P,FISSN)87KR,
236U(P,FISSN)88KR, 236U(P,FISSN)91SR, 236U(P,FISSN)92SR,
236U(P,FISSN)93Y, 236U(P,FISSN)95ZR, 236U(P,FISSN)97ZR,
236U(P,FISSN)99MO, 236U(P,FISSN)103RU, 236U(P,FISSN)105RH,
236U(P,FISSN)111AG, 236U(P,FISSN)112PD, 236U(P,FISSN)113AG,
236U(P,FISSN)115CD, 236U(P,FISSN)117CD, 236U(P,FISSN)126SB,
236U(P,FISSN)127SB, 236U(P,FISSN)128SB, 236U(P,FISSN)129SB,
236U(P,FISSN)130I, 236U(P,FISSN)131I, 236U(P,FISSN)132TE,
236U(P,FISSN)133I, 236U(P,FISSN)135I, 236U(P,FISSN)136CS,
236U(P,FISSN)139BA, 236U(P,FISSN)140BA, 236U(P,FISSN)141CE,
236U(P,FISSN)142LA, 236U(P,FISSN)143CE, 236U(P,FISSN)149ND,
236U(P,FISSN)151PM, 236U(P,FISSN)153SM, 237NP(P,FISSN)85KR,
237NP(P,FISSN)87KR, 237NP(P,FISSN)88KR, 237NP(P,FISSN)91SR,
237NP(P,FISSN)92SR, 237NP(P,FISSN)93Y, 237NP(P,FISSN)95ZR,
237NP(P,FISSN)97ZR, 237NP(P,FISSN)99MO, 237NP(P,FISSN)103RU,
237NP(P,FISSN)105RH, 237NP(P,FISSN)111AG, 237NP(P,FISSN)112PD,
237NP(P,FISSN)113AG, 237NP(P,FISSN)115CD, 237NP(P,FISSN)117CD,
237NP(P,FISSN)126SB, 237NP(P,FISSN)127SB, 237NP(P,FISSN)128SB,
237NP(P,FISSN)129SB, 237NP(P,FISSN)130I, 237NP(P,FISSN)131I,
237NP(P,FISSN)132TE, 237NP(P,FISSN)133I, 237NP(P,FISSN)135I,
237NP(P,FISSN)136CS, 237NP(P,FISSN)139BA, 237NP(P,FISSN)140BA,
237NP(P,FISSN)141CE, 237NP(P,FISSN)142LA, 237NP(P,FISSN)143CE,
237NP(P,FISSN)149ND, 237NP(P,FISSN)151PM, 237NP(P,FISSN)153SM,
239PU(P,FISSN)85KR, 239PU(P,FISSN)87KR, 239PU(P,FISSN)88KR,
239PU(P,FISSN)91SR, 239PU(P,FISSN)92SR, 239PU(P,FISSN)93Y,
239PU(P,FISSN)95ZR, 239PU(P,FISSN)97ZR, 239PU(P,FISSN)99MO,
239PU(P,FISSN)103RU, 239PU(P,FISSN)105RH, 239PU(P,FISSN)111AG,
239PU(P,FISSN)112PD, 239PU(P,FISSN)113AG, 239PU(P,FISSN)115CD,
239PU(P,FISSN)117CD, 239PU(P,FISSN)126SB, 239PU(P,FISSN)127SB,
239PU(P,FISSN)128SB, 239PU(P,FISSN)129SB, 239PU(P,FISSN)130I,
239PU(P,FISSN)131I, 239PU(P,FISSN)132TE, 239PU(P,FISSN)133I,
239PU(P,FISSN)135I, 239PU(P,FISSN)136CS, 239PU(P,FISSN)139BA,
239PU(P,FISSN)140BA, 239PU(P,FISSN)141CE, 239PU(P,FISSN)142LA,
239PU(P,FISSN)143CE, 239PU(P,FISSN)149ND, 239PU(P,FISSN)151PM,
242PU(P,FISSN)85KR, 242PU(P,FISSN)87KR, 242PU(P,FISSN)88KR,
242PU(P,FISSN)91SR, 242PU(P,FISSN)92SR, 242PU(P,FISSN)93Y,
242PU(P,FISSN)95ZR, 242PU(P,FISSN)97ZR, 242PU(P,FISSN)99MO,
242PU(P,FISSN)103RU, 242PU(P,FISSN)105RH, 242PU(P,FISSN)112PD,
242PU(P,FISSN)113AG, 242PU(P,FISSN)115CD, 242PU(P,FISSN)117CD,
242PU(P,FISSN)127SB, 242PU(P,FISSN)129SB, 242PU(P,FISSN)130I,
242PU(P,FISSN)131I, 242PU(P,FISSN)132TE, 242PU(P,FISSN)133I,
242PU(P,FISSN)135I, 242PU(P,FISSN)136CS, 242PU(P,FISSN)139BA,
242PU(P,FISSN)140BA, 242PU(P,FISSN)141CE, 242PU(P,FISSN)142LA,
242PU(P,FISSN)143CE, 242PU(P,FISSN)149ND, 242PU(P,FISSN)151PM,
242PU(P,FISSN)153SM, 244PU(P,FISSN)85KR, 244PU(P,FISSN)87KR,
244PU(P,FISSN)88KR, 244PU(P,FISSN)91SR, 244PU(P,FISSN)92SR,
244PU(P,FISSN)93Y, 244PU(P,FISSN)95ZR, 244PU(P,FISSN)97ZR,
244PU(P,FISSN)99MO, 244PU(P,FISSN)103RU, 244PU(P,FISSN)105RH,
244PU(P,FISSN)111AG, 244PU(P,FISSN)112PD, 244PU(P,FISSN)113AG,
244PU(P,FISSN)115CD, 244PU(P,FISSN)117CD, 244PU(P,FISSN)126SB,
244PU(P,FISSN)127SB, 244PU(P,FISSN)128SB, 244PU(P,FISSN)129SB,
244PU(P,FISSN)130I, 244PU(P,FISSN)131I, 244PU(P,FISSN)132TE,
244PU(P,FISSN)133I, 244PU(P,FISSN)135I, 244PU(P,FISSN)139BA,
244PU(P,FISSN)140BA, 244PU(P,FISSN)141CE, 244PU(P,FISSN)142LA,
244PU(P,FISSN)143CE, 244PU(P,FISSN)149ND, 244PU(P,FISSN)151PM,
244PU(P,FISSN)153SM, 241AM(P,FISSN)85KR, 241AM(P,FISSN)87KR,
241AM(P,FISSN)88KR, 241AM(P,FISSN)91SR, 241AM(P,FISSN)92SR,
241AM(P,FISSN)93Y, 241AM(P,FISSN)95ZR, 241AM(P,FISSN)97ZR,
241AM(P,FISSN)99MO, 241AM(P,FISSN)103RU, 241AM(P,FISSN)105RH,
241AM(P,FISSN)111AG, 241AM(P,FISSN)112PD, 241AM(P,FISSN)113AG,
241AM(P,FISSN)115CD, 241AM(P,FISSN)117CD, 241AM(P,FISSN)126SB,
241AM(P,FISSN)127SB, 241AM(P,FISSN)128SB, 241AM(P,FISSN)131I,
241AM(P,FISSN)132TE, 241AM(P,FISSN)133I, 241AM(P,FISSN)135I,
241AM(P,FISSN)136CS, 241AM(P,FISSN)139BA, 241AM(P,FISSN)140BA,
241AM(P,FISSN)141CE, 241AM(P,FISSN)142LA, 241AM(P,FISSN)143CE,
241AM(P,FISSN)149ND, 241AM(P,FISSN)151PM, 241AM(P,FISSN)153SM,
243AM(P,FISSN)85KR, 243AM(P,FISSN)87KR, 243AM(P,FISSN)91SR,
243AM(P,FISSN)92SR, 243AM(P,FISSN)93Y, 243AM(P,FISSN)97ZR,
243AM(P,FISSN)99MO, 243AM(P,FISSN)103RU, 243AM(P,FISSN)105RH,
243AM(P,FISSN)112PD, 243AM(P,FISSN)113AG, 243AM(P,FISSN)115CD,
243AM(P,FISSN)127SB, 243AM(P,FISSN)129SB, 243AM(P,FISSN)131I,
243AM(P,FISSN)132TE, 243AM(P,FISSN)133I, 243AM(P,FISSN)135I,
243AM(P,FISSN)139BA, 243AM(P,FISSN)140BA, 243AM(P,FISSN)141CE,
243AM(P,FISSN)142LA, 243AM(P,FISSN)143CE, 243AM(P,FISSN)149ND,
243AM(P,FISSN)153SM);
PHQS=XSECTN;
/*===================================================================*/
/* Experimental Conditions */
/*===================================================================*/
\\EXP,92;
/* 2003-11-12 : Converted, Am + On. Data converted to EXFOR E1411
and EXFOR O0590 */
/* 2010-04-01 : Altered, Nf. 006 corrected */
RTY=FISSN;
PHQ=XSECTN;
/* Additional results shown but not compiled
- Comparison with calculated values (The weighted mean mass
number of the light and heavy asymmetric peak, the FWHM of the
heavier asymmetric peak, the peak-to-valley ratio.)
CHM=ELM;
PHYS-FORM=SLD;
THK-TGT=0.1[0.3MG/CM**2;
BAC=AL'4';
/* '4' Each target was wrapped with a sheet of Al thick enough for
stopping all fission products. */
POL-TGT=0%;
ALGN-TGT=0%;
ACC=(VDGT'5',CYC'6');
INST-ACC=(2JPNJAE'5',2JPNINS'6');
BEAM-INTNSTY=1[2UA'7';
/* '7' Their uncertainties were estimated to be about 5-10%. */
POL-PRJ=0%;
COINC=NO;
ANT-COINC=NO;
DET-SYS=HPGE;
/* Experimental Method:
- Stacked target irradiation
- Beam current integrated (The beam currents were typically 1-2
micro-A.)
- Activation (The targets were bombarded for periods of 30-min to
2-hours.)
RCT=236U(P,FISSN)115CD;
ENR=>99.0%;
INC-ENGY-LAB-RANGE=9[16MEV;
DET-PARTCL=GAMMA'268';
/* '268' Delayed gamma from 115Cd (ground state). In equilibrium
with 115mIn */
/*===================================================================*/
/* Descriptive Parameters */
/*===================================================================*/
\\DATA,92;
TOT-ERR=X%'269';
/* '269' The errors cited originate from the consideration of
gamma-counting statistics and the half-life fitting for the
decay of the photopeak area. */
ENGY-GAMMA=336.3KEV'270';
INTNSTY-GAMMA=0.497'270';
HALF-LIFE=53.5HOUR'270';
/* '270' Delayed gamma from 115Cd (ground state) via 115In
(metastable state) (In equilibrium with 115mIn) */
INC-ENGY=5.00MEV;
EXC-ENGY=3.200MEV;
J-PI=9/2+;
/*===================================================================*/
/* Data Table */
/*===================================================================*/
\DATA;
INC-ENGY-LAB SIGMA DELTA-SIGMA
(MEV) (MB) (MB)
10.2 0.16 +-0.04
11.2 0.57 +-0.14
12.1 1.30 +-0.15
13.1 2.39 +-0.19
14.0 4.01 +-0.53
14.8 5.23 +-0.39
15.6 10.38 +-0.86
THTL DSIGMA/DOMEGA
(DEG) (MB/SR)
25 0.313
30 0.273
35 0.292
40 0.281
45 0.278
50 0.314
55 0.280
60 0.288
65 0.263
75 0.222
80 0.225
85 0.196
90 0.174
95 0.145
100 0.158
105 0.143
110 0.146
115 0.150
120 0.136
125 0.125
130 0.111
135 0.114
140 0.114
145 0.125
150 0.144
155 0.158
160 0.176
165 0.198
170 0.191
\END;
/*===================================================================*/
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