|
| /*===================================================================*/
/* NRDF D2023 Data No.51 */
/*===================================================================*/
/* Bibliography */
/*===================================================================*/
\\BIB,51;
D#=D2023;
TITLE=/ Target-dependence of light fragment production in
photonuclear reactions at intermediate energies /;
ATH=(H.MATSUMURA'1', K.WASHIYAMA'1', H.HABA'1', Y.MIYAMOTO'1',
Y.OURA'2', K.SAKAMOTO'1,3', S.SHIBATA'4', M.FURUKAWA'5',
I.FUJIWARA'6', H.NAGAI'7', T.KOBAYASHI'7', K.KOBAYASHI'8');
INST-ATH=(2JPNKNZ'1', 2JPNTMU'2', 2JPNKNZ'3', 2JPNKTO'4', 2JPNJPN'5',
2JPNJPN'6', 2JPNJPN'7', 2JPNTOK'8');
/* '1' Division of Physical Sciences, Graduate School of Natural
Science and Technology */
/* '2' Department of Chemistry, Graduate School of Schience */
/* '3' Department of Chemistry, Faculty of Science */
/* '4' Research Reactor Institute */
/* '5' Faculty of Environmental and Information Sciences,
Yokkaichi University */
/* '6' School of Economics, Otemon Gakuin University, Ibaragi */
/* '7' College of Humanities and Sciences, Nihon University */
/* '8' Research Center for Nuclear Science and Technology */
REF=RCA;
VLP=88(2000)313;
/* Secondary reference
- Matsumura, Thesis(2000)
RCTS=(B(GAMMA,X)7BE, C(GAMMA,X)7BE, O(GAMMA,X)7BE, 23NA(GAMMA,X)7BE,
27AL(GAMMA,X)7BE, SI(GAMMA,X)7BE, S(GAMMA,X)7BE, CL(GAMMA,X)7BE,
FE(GAMMA,X)7BE, 59CO(GAMMA,X)7BE, CU(GAMMA,X)7BE,
89Y(GAMMA,X)7BE, AG(GAMMA,X)7BE, IN(GAMMA,X)7BE,
141PR(GAMMA,X)7BE, 159TB(GAMMA,X)7BE, 165HO(GAMMA,X)7BE,
197AU(GAMMA,X)7BE, O(GAMMA,X)10BE, S(GAMMA,X)10BE,
FE(GAMMA,X)10BE, 59CO(GAMMA,X)10BE, CU(GAMMA,X)10BE,
89Y(GAMMA,X)10BE, AG(GAMMA,X)10BE, IN(GAMMA,X)10BE,
141PR(GAMMA,X)10BE, 159TB(GAMMA,X)10BE, 165HO(GAMMA,X)10BE,
197AU(GAMMA,X)10BE, 23NA(GAMMA,X)22NA, 27AL(GAMMA,X)22NA,
SI(GAMMA,X)22NA, S(GAMMA,X)22NA, CL(GAMMA,X)22NA,
CA(GAMMA,X)22NA, V(GAMMA,X)22NA, 55MN(GAMMA,X)22NA,
FE(GAMMA,X)22NA, 59CO(GAMMA,X)22NA, CU(GAMMA,X)22NA,
89Y(GAMMA,X)22NA, AG(GAMMA,X)22NA, IN(GAMMA,X)22NA,
159TB(GAMMA,X)22NA, 165HO(GAMMA,X)22NA, 197AU(GAMMA,X)22NA,
SI(GAMMA,X)24NA, S(GAMMA,X)24NA, CL(GAMMA,X)24NA,
K(GAMMA,X)24NA, CA(GAMMA,X)24NA, V(GAMMA,X)24NA,
55MN(GAMMA,X)24NA, FE(GAMMA,X)24NA, 59CO(GAMMA,X)24NA,
NI(GAMMA,X)24NA, CU(GAMMA,X)24NA, 89Y(GAMMA,X)24NA,
AG(GAMMA,X)24NA, IN(GAMMA,X)24NA, 159TB(GAMMA,X)24NA,
165HO(GAMMA,X)24NA, 197AU(GAMMA,X)24NA, 30SI(GAMMA,X)28MG,
S(GAMMA,X)28MG, CL(GAMMA,X)28MG, K(GAMMA,X)28MG,
CA(GAMMA,X)28MG, V(GAMMA,X)28MG, 55MN(GAMMA,X)28MG,
FE(GAMMA,X)28MG, 59CO(GAMMA,X)28MG, CU(GAMMA,X)28MG,
89Y(GAMMA,X)28MG, AG(GAMMA,X)28MG, IN(GAMMA,X)28MG,
159TB(GAMMA,X)28MG, 165HO(GAMMA,X)28MG, 197AU(GAMMA,X)28MG,
CU(GAMMA,X)39CL, 89Y(GAMMA,X)39CL, 159TB(GAMMA,X)39CL,
165HO(GAMMA,X)39CL, CU(GAMMA,X)43SC, CU(GAMMA,X)44SC,
CU(GAMMA,X)46SC, CU(GAMMA,X)47SC, CU(GAMMA,X)48SC,
89Y(GAMMA,X)44SC, 89Y(GAMMA,X)46SC, 89Y(GAMMA,X)47SC,
89Y(GAMMA,X)48SC, AG(GAMMA,X)44SC, AG(GAMMA,X)46SC,
AG(GAMMA,X)47SC, AG(GAMMA,X)48SC, IN(GAMMA,X)44SC,
IN(GAMMA,X)46SC, IN(GAMMA,X)47SC, IN(GAMMA,X)48SC,
165HO(GAMMA,X)44SC, 165HO(GAMMA,X)46SC, 165HO(GAMMA,X)47SC,
165HO(GAMMA,X)48SC, 197AU(GAMMA,X)44SC, 197AU(GAMMA,X)46SC,
197AU(GAMMA,X)47SC, 197AU(GAMMA,X)48SC, CU(GAMMA,X)59FE,
89Y(GAMMA,X)59FE, AG(GAMMA,X)59FE, 159TB(GAMMA,X)59FE,
165HO(GAMMA,X)59FE, 197AU(GAMMA,X)59FE, 89Y(GAMMA,X)56CO,
89Y(GAMMA,X)57CO, 89Y(GAMMA,X)58CO, 89Y(GAMMA,X)60CO,
AG(GAMMA,X)56CO, AG(GAMMA,X)57CO, AG(GAMMA,X)58CO,
AG(GAMMA,X)60CO, 165HO(GAMMA,X)57CO, 165HO(GAMMA,X)58CO,
165HO(GAMMA,X)60CO, 197AU(GAMMA,X)56CO, 197AU(GAMMA,X)57CO,
197AU(GAMMA,X)58CO, 197AU(GAMMA,X)60CO);
PHQS=XSECTN;
/*===================================================================*/
/* Experimental Conditions */
/*===================================================================*/
\\EXP,51;
/* 2007-01-26 : Recieved, N.Otuka. Receved by e-mail from
H.Matsumura */
/* 2007-02-08 : Compiled, N.Otuka */
PHQ=XSECTN;
POL-TGT=0%;
ALGN-TGT=0%;
ACC=SYN'9';
/* '9' 1.3 GeV electron synchrotron */
INST-ACC=2JPNKEK'10';
/* '10' Tanashi Branch */
INC-ENGY-LAB-RANGE=<1200MEV;
BEAM-INTNSTY=XMA'11';
/* '11' 1e+09 to 1e+10 equivalent quanta per second */
POL-PRJ=0%;
ION-SOURCE=/ Bremsstrahlung (By internal target of Pt with 0.05 mm
thickness) /;
COINC=NO;
ANT-COINC=NO;
/* Experimental Method:
- Activation (Irradiated for 0.5-8 hours, typically 4 hours)
- Stacked target irradiation (Stacked by sandwiching with Al
plates)
/* Authors give yield with unit of [micro-barn/equivalent quantum]. */
/* Energy repetition in some data tables are from more than one
mesurements. */
/* Contributions from the secondary reactions were assumed to be
negligible by authors. */
RCT=K(GAMMA,X)24NA;
CHM=X'341';
/* '341' K2CO3 */
PHYS-FORM=SLD;
THK-TGT=800MG/CM**2'342';
/* '342' Typical thickness */
DET-PARTCL=GAMMA'343';
/* '343' Delayed gamma from 24Na */
DET-SYS=HPGE'344';
/* '344' To perform Gamma-ray spectrometry */
/*===================================================================*/
/* Descriptive Parameters */
/*===================================================================*/
\\DATA,51;
TOT-ERR=X%'12';
/* '12' Uncertainty in beam-intensity calibration is not included
in tabulated errors. */
SYS-ERR=15%'13';
/* '13' Unertainty in beam-intensity calibration in
bremsstrahlung irradiation */
SYS-ERR=7%'345';
/* '345' Uncertainty in detector efficiency */
ENGY-GAMMA=(1368.6KEV'346',2754.0KEV'346');
INTNSTY-GAMMA=(1.00,0.99944'346');
HALF-LIFE=14.959HOUR'346';
/* '346' Delayed gamma from 24Na */
/*===================================================================*/
/* Data Table */
/*===================================================================*/
\DATA;
INC-ENGY-LAB-MAX SIGMA'347' DELTA-SIGMA'347'
(MEV) (UB) (UB)
1200 100 +-10
1200 95.9 +-9.8
1000 107 +-11
1000 113 +-12
950 91.8 +-9.4
950 98 +-10
900 107 +-11
825 104 +-11
750 85.3 +-8.8
750 90.2 +-9.3
750 83.5 +-8.9
750 90.7 +-9.4
700 83.3 +-8.5
650 88.2 +-9.0
550 59.3 +-6.1
550 59.3 +-6.1
525 74.9 +-7.7
500 53.4 +-5.5
450 51.3 +-5.3
450 50.5 +-5.9
425 55.6 +-5.7
375 32.5 +-3.4
375 32.9 +-3.4
350 25.7 +-3.3
350 26.5 +-2.9
320 23.4 +-2.9
320 25.0 +-2.8
300 21.3 +-2.2
280 17.1 +-2.0
275 12.9 +-1.4
275 13.3 +-1.5
260 12.8 +-1.4
250 11 +-2
250 10.2 +-1.3
250 9.6 +-1.3
250 9.9 +-1.2
\END;
/*===================================================================*/
|