SUBENT 31611001 20140401 31633161100100001
BIB 13 39 3161100100002
TITLE Thermal neutron capture cross sections of the 3161100100003
palladium isotopes 3161100100004
AUTHOR (M.Krticka, R.B.Firestone, D.P.Mcnabb, B.Sleaford, 3161100100005
U.Agvaanluvsan, T.Belgya, Z.S.Revay) 3161100100006
INSTITUTE (3CZRCHU,1USANCS,1USABRK,1USALRL,3HUNII) 3161100100007
REFERENCE (J,PR/C,77,054615,2008) 3161100100008
(S,AIP-1005,26,2008) part of preliminary data 3161100100009
(C,2005NOTRED,,389,2005) preliminary data 3161100100010
FACILITY (REAC,3HUNKFI) 3161100100011
INC-SOURCE (REAC) The thermal-equivalent neutron flux was 3161100100012
2 x 10**6 n/cm2/s. 3161100100013
INC-SPECT Pure thermal beam. 3161100100014
SAMPLE A 0.15-g natural palladium powder target, suspended 3161100100015
in a teflon bag to reduce background from the target 3161100100016
holder. The most intense palladium gamma-rays were 3161100100017
calibrated with respect to chlorine with a target 3161100100018
consisting of 1.6 g of PdCl2 with a thickness of 3161100100019
0.4 g/cm2. 3161100100020
DETECTOR (HPGE)Prompt gamma rays from the target were measured 3161100100021
with an n-type high-purity, 25% efficient, germanium 3161100100022
(HPGe) detector with closed-end coaxial geometry 3161100100023
located 23.5 cm from the target. The detector is 3161100100024
Compton suppressed by a bismuth germanate 3161100100025
(BGO) scintillator guard detector annulus surrounded 3161100100026
by 10-cm-thick lead shielding. 3161100100027
METHOD (GSPEC,ACTIV) In the article an entirely new 3161100100028
method for the measurement of the total thermal radia- 3161100100029
tive cross sections sigma(0) was described and used. 3161100100030
(STATD) Statistical model calculations with the Monte 3161100100031
Carlo computer code DICEBOX were performed to generate 3161100100032
simulated neutron capture decay schemes in order to 3161100100033
determine continuum cross section contribution feeding 3161100100034
the ground state. 3161100100035
ERR-ANALYS (DATA-ERR) Nothing said about uncertainties. 3161100100036
STATUS (APRVD) Entry approved by Dr. R.B.Firestone 3161100100037
HISTORY (20080711C) SD, LV 3161100100038
(20091126A) On. REFERENCE (AIP-1005): 2007 -> 2008 3161100100039
(20130110A) VS. Various corrections. 3161100100040
(20131222U) VS. FACILITY: 3HUNII -> 3HUNKFI 3161100100041
ENDBIB 39 0 3161100100042
COMMON 1 3 3161100100043
EN 3161100100044
EV 3161100100045
0.0253 3161100100046
ENDCOMMON 3 0 3161100100047
ENDSUBENT 46 0 3161100199999
SUBENT 31611015 20130131 31583161101500001
BIB 4 9 3161101500002
REACTION (46-PD-106(N,G)46-PD-107,,SIG,,SPA,DERIV) 3161101500003
MISC-COL (MISC) feedings in % calculated with the DICEBOX code. 3161101500004
COMMENT Second reaction is total radiative thermal neutron 3161101500005
capture cross sections determined from measured 3161101500006
transition cross sections, corrected for internal 3161101500007
conversion, and simulated level feedings calculated 3161101500008
with the DICEBOX code. 3161101500009
STATUS (TABLE) tbl. 12 from PR/C,77,054615,2008 3161101500010
(DEP,31611014) 3161101500011
ENDBIB 9 0 3161101500012
NOCOMMON 0 0 3161101500013
DATA 4 1 3161101500014
DATA DATA-ERR MISC MISC-ERR 3161101500015
B B PER-CENT PER-CENT 3161101500016
0.36 0.10 46. 13. 3161101500017
ENDDATA 3 0 3161101500018
ENDSUBENT 17 0 3161101599999