22-Ti- 49
22-Ti- 49 KUR EVAL-SEP88 K.KOBAYASHI(KUR),H.HASHIKURA(TOK)
DIST-MAY10 20011226
----JENDL-4.0 MATERIAL 2234
-----INCIDENT NEUTRON DATA
------ENDF-6 FORMAT
HISTORY
88-09 Compiled by T.Asami(nedac)
93-12 JENDL-3.2
Data were adopted from JENDL fusion file.
Compiled by T.Nakagawa
00-03 Reevaluation was made by T.Asami.
01-11 Compiled by K.Shibata (ndc/jaeri)
***** modified parts for JENDL-3.3 ********************
(2,151) modified
(3,2) re-calculated
(3,102) revised
(3,104,105,106,111,203,207) evaluated newly
(3,251) deleted
(4,2) revised
(4,16,22,28,91) deleted
(5,16,22,28,91) deleted
(6,16,22,28,91) taken from JENDL fusion file
(6,203, 207) taken from JENDL fusion file
(12,16-107) evaluated newly
(14,16-107) isotropic distributions
(15,16-107) evaluated newly
***********************************************************
09-08 Compiled by K. Shibata.
The resolved resonance parameters were revised. The upper
limit of the resolved resonance region was changed to
241.1 keV from 180 keV. As a result, the total, elastic
scattering and capture cross sections were revised between
180 and 241.1 keV.
mf=1 General information
mt=451 Descriptive data and dictionary
mf=2 Resonance parameters
mt=151 Resolved resonance parameters
Resolved parameters for mlbw formula were given in the energy
region from 1.0e-5 eV to 180 keV. Parameters were taken from
ref./5/, for positive resonances. Parameters for negative
resonance were obtained so that the reproduced cross sections
for both scattering and capture gave the 2200 m/s values of
0.7+-0.3 and 2.2+-0.3 barns, respectively/5/. The scattering
radius was assumed to be 4.5 fermi instead of 4.0 fermi in
ref./5/.
For JENDL-4, the resonance parameters were modified by Kawano
/17/.
Thermal cross sections and resonance integrals at 300 K
----------------------------------------------------------
0.0253 eV res. integ. (*)
(barns) (barns)
----------------------------------------------------------
Total 2.4089E+00
Elastic 5.4616E-01
n,gamma 1.8628E+00 9.2921E-01
----------------------------------------------------------
(*) Integrated from 0.5 eV to 10 MeV.
mf=3 Neutron cross sections
Below 180 keV, no background cross section was given.
The calculation with sincros-ii system/2/ was made by adopting
Walter-Guss omp modified by Yamamuro/2/ for neutron, Perey omp
/6/ for proton, Lemos omp modified by Arthur and Young/7/
for alpha, Lohr-Haeberli omp/8/ for deuteron, Becchettii-
Greenlees omp/9/ for triton and He-3, and standard level
density parameters of sincros-ii system.
mt=1 Total
Below 180 keV, created from the resonance parameters
Above 180 keV, optical and statistical model calculation was
made with casthy code/2/.
The optical potential parameters used are:
V = 50.75 - 0.120*En, Vso = 4.72 (MeV)
Ws = 10.9 - 0.234*En, Wv = 0.0 (MeV)
r = 1.26, rs = 1.02, rso = 1.16 (fm)
a = 0.52, aso = 0.52, b = 0.40 (fm)
mt=2 Elastic scattering
Obtained by subtracting the sum of the partial cross sections
from the total cross section.
mt=4, 51-65, 91 Inelastic scattering
The cross sections were taken from JENDL fusion file. The
level scheme was based on ref./4/ Contributions of the
direct process were calculated for the levels marked with '*'.
no. energy(MeV) spin-parity (direct process)
g.s. 0.0 7/2 -
1 1.3818 3/2 - *
2 1.5421 11/2 -
3 1.586 3/2 - *
4 1.6229 5/2 -
5 1.7235 1/2 -
6 1.762 5/2 - *
7 2.2613 7/2 - *
8 2.4714 7/2 -
9 2.5044 1/2 + *
10 2.5058 15/2 -
11 2.5135 5/2 -
12 2.5174 5/2 +
13 2.6643 3/2 + *
14 2.7201 11/2 -
15 2.7213 3/2 -
Levels above 2.721 MeV were assumed to be overlapping.
mt=16, 28, 103 (n,2n), (n,np), (n,p)
Adopted from JENDL fusion file. Theoretical calculation was
made with sincros-ii/2/. The results were normalized to
(n,np)+(n,d) 0.00897b at 14.98 MeV measured by Ikeda et al.
/10/ , (n,p) 0.023 b at 14.7 MeV measured by Qaim et al./11/
mt=22 (n,na)
Obtained from from the sincros-ii calculation made with the
the egnash code/2/.
mt=102 Capture
Below 180 keV, created from the resonance parameters
Above 180 keV, calculated with the casthy code/12/ and
normalized to 22.5 mb at 30 keV, and added the semidirect
component calculated with the quick gnash code/15,16/.
mt=107 (n,a)
Obtained from from the sincros-ii calculation made with the
the egnash code/2/.
mf=4 Angular distributions of secondary neutrons
mt=2
Calculated with the casthy code/10/,newly for JENDL-3.3.
mt=51-65
Taken from JENDL fusion file/1/.
mf=6 Energy-angle distributions of secondary particles
Taken from JENDL fusion file/1/.
- Energy distributions of secondary neutrons were replaced
by those calculated by egnash2. The ddx's of the
continuum neutrons were calculated by Kumabe's systema-
tics /3/ using f15tob /1/. The precompound/compound
ratio was calculated by the sincros-ii code system/2/.
mt=16, 22, 28, 91
Based on modified Kumabe's systematics/1/.
mt=203, 207
Based on Kalbach's 1988 systematics/13/.
mf=12 Photon production multiplicities and transition probability
arrays
mt=16, 22, 28, 51-65, 91,103, 104, 107
mt=51-65 were given as the transition probability arrays.
mt=16, 22, 28, 91, 102, 103, 104, 107 were calculated with
the egnash code/2/ and processed by the gamfil2 code/14/.
mt=102 was calculated with the casthy code/10/.
mf=14 Photon angular distributions
mt=16, 22, 28, 51-65, 91, 102, 103, 104, 107
Assumed to be isotropic distributions
mf=15 Continuous photon energy spectra
mt=16, 22, 28, 91, 103, 104, 107
Calculated with the egnash code/2/.
mt=102
Calculated with the casthy code/10/.
References
1) Chiba, S. et al.: JAERI-M 92-027, p.35 (1992).
2) Yamamuro, N.: JAERI-M 90-006 (1990).
3) Kumabe, I. et al.: Nucl. Sci. Eng., 104, 280 (1990).
4) ENSDF: Evaluated Nuclear Structure Data File, BNL/NNDC.
5) Mughabghab, S.F. et al.: " Neutron Cross Sections ", Vol.1,
Part A (1981).
6) Perey, F.G.: Phys. Rev., 131, 745 (1963).
7) Arthur, E.D. and Young, P.G.: LA-8626-MS (1980).
8) Lohr, J.M. and Haeberli W.: Nucl. Phys., A232, 381 (1974).
9) Becchetti, F.D. Jr. and Greenlees G.W.: "Polarization
Phenomena in Nucl. Reactions," Univ. Wisconsin Press, p.682
(1971).
10) Ikeda, Y. et al.: JAERI 1312 (1988).
11) Qaim, S.M. et al.: Nucl. Phys., A283, 269 (1977).
12) Igarasi, S. and Fukahori, T.: JAERI 1321 (1991).
13) Kalbach C. : Phys. Rev. C37, 2350(1988).
14) Hida K.: JAERI-M 86-150 (1986) (in Japanese).
15) Young P.G. et al. : LA-12343-MS (1992).
16) Koning A.J. and Delaroche J.P. : ECN-RX-98-015 (1998).
17) Kawano T.: Private communication (2008).