29-CU- 63 NAIG,MAPI EVAL-MAR87 N.YAMAMURO,T.KAWAKITA
DIST-MAR02 REV3-JUL01 20010713
----JENDL-3.3 MATERIAL 2925
-----INCIDENT NEUTRON DATA
------ENDF-6 FORMAT
HISTORY
87-03 Evaluation was performed for JENDL-3.
87-05 Compiled by K.Shibata.
93-09 JENDL-3.2.
(3,1),(3,2),(3,102) modified by T.Nakagawa(jaeri)
(12,102),(15,102) modified by S.Igarasi(nedac)
Compiled by T.Nakagawa (ndc/jaeri)
***** Modified parts for JENDL-3.2 ********************
(2,151) Upper boundary energy changed to 50 keV
(3,1),(3,2) 50 keV - 153 keV
(3,102) 50 keV - 20 MeV
(4,16-32),(4,91) Taken from JENDL fusion file
(5,16-91) Taken from JENDL fusion file
(12,102),(15,102)
***********************************************************
-------------------------------------------------------------
JENDL fusion file /1/ (as of Sep. 1993)
Evaluated by B.Yu(ciae) and S.Chiba (ndc/jaeri)
Compiled by B.Yu
Cross sections were taken from JENDL-3.1. mf=6 (ddx's)
of mt=16, 22, 28, 32 and 91 were created with f15tob
program /1/. Modified Kumabe's systematics/1/ was used.
The precompound/compound ratio was calculated by the
sincros-II code system/2/.
Optical-model, level density and other parameters used
in the sincros-II calculation are described in ref./2/.
Level schemes were determined on the basis of ENSDF/3/.
-------------------------------------------------------------
00-10 Revised for JENDL-3.3 by K. Shibata (jaeri).
***** Modified parts for JENDL-3.3 ************************
(1,451) Comments modified
(3,1) Above 50 keV
(3,2) Re-calculated.
(3,203-207) Calculated.
(3,251) Deleted.
(4,2) Transformation matrix deleted.
(4,16-32),(4,91) Deleted.
(5,16-32),(5,91) Deleted.
(6,16-32),(6,91) Taken from JENDL fusion file
(6,203-207) Taken form JENDL fusion file.
*************************************************************
mf=1 General information
mt=451 Descriptive data and dictionary
mf=2 Resonance parameters
mt=151 Resolved resonance parameters for MLBW formula
parameters were mainly taken from the work of Mughabghab
et al./4/
Resonance region : 1.0e-5 eV to 50 keV.
Upper boundary of the resonance region was changed from
153 keV of JENDL-3.1 to 50 keV because serious level
missing was found above 50 keV.
Scattering radius: 6.70 fm
Calculated 2200-m/s cross sections and res. integrals
2200-m/s res. integ.
elastic 5.102 b -
capture 4.506 b 5.01 b
total 9.608 b -
mf=3 Neutron cross sections
mt=1 Total
50 to 140 keV : Based on the measured data of Rohr et
al./5/
0.140 to 1.4 MeV: Based on the experimental data of
natural element /6/
1.4 to 20 MeV : Least-squares fit to the experimental
data of natural element /6,7,8,9,
10/.
mt=2 Elastic scattering
(total) - (reaction cross sections)
mt=4,51-67,91 Inelastic scattering
Statistical model calculations were made with casthy/11/
below 3 MeV by taking account of competing processes, and
with gnash/12/ above 3 MeV including preequilibrium
effects. The direct-process components were considered
for the levels of mt=51-54,65,91 by the DWBA calculations
with dwuck/13/. The level scheme was taken from ref/14/
no. energy(MeV) spin-parity
g.s. 0.0 3/2 -
1. 0.6697 1/2 -
2. 0.9621 5/2 -
3. 1.3270 7/2 -
4. 1.4120 5/2 -
5. 1.5470 3/2 -
6. 1.8610 7/2 -
7. 2.0110 3/2 -
8. 2.0620 1/2 -
9. 2.0810 5/2 -
10. 2.0930 7/2 -
11. 2.2080 9/2 -
12. 2.3370 5/2 -
13. 2.4050 7/2 -
14. 2.4970 3/2 -
15. 2.5050 9/2 +
16. 2.5120 1/2 -
17. 2.5360 5/2 -
Levels above 2.54 MeV were assumed to be overlapping.
The neutorn optical potential parameters used are as
follows /15/ (in the units of MeV and fm):
V = 51.725 - 0.447*E r0 = 1.221 a0 = 0.683
Ws = 8.44 + 0.055*E rs = 1.223 as = 0.507
(derivative Woods-Saxon form)
Vso= 8.0 rso= 1.221 aso = 0.683
mt=16,22,28,32,103,104 (n,2n),(n,n'a),(n,n'p),(n,n'd),(n,p)
(n,d) cross sections
Calculated with gnash/12/.
Optical potential parameters for proton, alpha-particle
and deuteron were as follows /16,17,18/.
proton
V = 59.11 - 0.55*E r0 = 1.25 a0 = 0.65
Ws = 10.4 rs = 1.25 as = 0.47
Vso= 7.5 rso= 1.25 aso= 0.47
alpha-particle
V = 164.7 r0 = 1.442 a0 = 0.52
Wv = 22.4 rv = 1.442 av = 0.52
rc = 1.30
deuteron
V = 106.69 r0 = 1.05 a0 = 0.86
Ws = 13.92 rs = 1.43 as = 0.704
Vso= 7.0 rso= 0.75 aso= 0.5
rc = 1.3
mt=102 Radiative capture cross section
Taken from JENDL activation cross section file. The cross
section was calculated by N.Yamamuro/19/ with sincros-II.
mt=107 (n,a) cross section
Calculated cross sections were normalized to the
experimental data/20/ at 10 MeV. Above 12 MeV, the
excitation function follows the data of Paulsen/21/.
mt=203 Total proton production
Sum of mt=28 and 103.
mt=204 Total deuteron production
Sum of mt=32 and 104.
mt=207 Total alpha production
Sum of mt=22 and 107.
mf=4 Angular distributions of secondary neutrons
mt=2,51-67
Calculated with casthy for equilibrium process. The
components of the direct process were added to the levels
of mt=51-54,65 by using the dwuck code /16/.
mf=6 Energy-angle distributions of secondary particles
mt=16, 22, 28, 32, 91, 203, 204, 207
Taken from JENDL fusion file.
mf=12 Photon production multiplicities
mt=16,22,28,32,91,103,104,107
Calculated with gnash.
mt=51-67
Ttransition probabilities are given.
mt=102
Obtained from energy balance.
mf=14 Photon angular distributions
mt=16,22,28,32,51-67,91,102,103,104,107
Assumed to be isotropic.
mf=15 Photon energy distributions
mt=16,22,28,32,91,103,104,107
Calculated with gnash.
mt=102
Calculated with casthy.
References
1) Chiba S. et al.: JAERI-M 92-027, p.35 (1992).
2) Yamamuro N.: JAERI-M 90-006 (1990).
3) ENSDF: Evaluated Nuclear Structure Data File, BNL/NNDC.
4) Mughabghab S.F., Divadeenam M. and Holden N.E.: "Neutron Cross
Sections, Vol. 1, Part A", Academic Press (1981).
5) Rohr G. et al.: EANDC(E)-89, p.1 (1968), EXFOR 20151003.
6) Foster Jr., D.G. and Glasgow D.W.: Phys. Rev., C3, 576 (1971).
7) Whalen J.F. and Meadows J.W. : ANL-7710, 12 (1971).
8) Guenther P.T., Smith D.L., Smith A.B. and Whalen J.F.: Nucl.
Phys. A448, 280 (1986).
9) Finlay R.W., Abfalterer W.P., Fink G., Moneti E., Adami T.,
Lisowski P.W., Morgan G.L. and Haight R.C.: Phys. Rev. C47,
237 (1993).
10) Larson D.C.: Proc. Symp. Neutron Cross-Sections from 10 to
50 MeV, BNL-NCS-51245, p.277 (1980).
11) Igarasi S. and Fukahori T.: JAERI 1321 (1991).
12) Young P.G. and Arthur E.D.: "GNASH, A Preequilibrium,
Statistical Nuclear-Model Code for Calculation of Cross
Sections and Emission Spectra", LA-6974 (1977).
13) Kunz P.D.: Univ. Colorado (1974).
14) Auble R.L.: Nucl. Data Sheets 28, 559 (1979).
15) Hetrick D.M., Fu C.Y. and Larson D.C.: "Calculated Neutron-
Induced Cross Sections for Cu-63, 65 from 1 to 20 MeV and
Comparisons with Experiments", ORNL/TM-9083 (1984).
16) Perey F.G.: Phys. Rev. 131, 745 (1963).
17) McFadden L. and Satchler G.R.: Nucl. Phys. 84, 177 (966).
18) Lohr J.M. and Haeberli W.: Nucl. Phys. a232, 381 (1974).
19) Yamamuro N.: Private communication.
20) Winkler G., Smith D.L. and Meadows J.W.: Nucl. Sci. Eng. 76,
30 (1980).
21) Paulsen A.: Nucleonik, 10, 91 (1967)