14-Si- 29

 14-Si- 29 JAEA       EVAL-AUG07 K.Shibata, S.Kunieda             
                      DIST-MAY10                       20091202   
----JENDL-4.0         MATERIAL 1428                               
-----INCIDENT NEUTRON DATA                                        
------ENDF-6 FORMAT                                               
                                                                  
History                                                           
07-08 Evaluated by K.Shibata and S.Kunieda.                       
09-12 Compiled by K.Shibata.                                      
                                                                  
MF= 1 General information                                         
  MT=451 Descriptive data and directory                           
                                                                  
MF= 2  Resonance parameters                                       
  MT=151 Resolved resonance parameters                            
    Resolved resonance region (Reich-Moore formula) : Below 1.30  
    MeV                                                           
      The resolved resonance parameters were taken from the       
      ENDF/B-VII.0 data, which were evaluated by Leal et al./1/   
                                                                  
      The following comments were also taken from ENDF/B-VII.0:   
      ------------------------------------------------------------
      The following data were included in the analysis:           
      (1) Total cross section data of Perey et al. /2/ for        
        natural silicon, measured on the 47-m flight path at the  
        Oak Ridge Electron Linear Accelerator (ORELA)             
      (2) Transmission data of Harvey et al. /3/ for natural      
        silicon measured on the 200-m flight path at ORELA        
      (3) Total cross section data of Larson et al. /4/,          
        measured on the 80- and 200-m flight paths at ORELA       
      (4) 29Si-oxide /5/ and 30Si-oxide /6/ transmission          
        data of Harvey et al., measured on the 80-m ORELA flight  
        path                                                      
      (5) Elastic scattering thermal cross section for 29Si       
        1.119+-0.003 barns from Raman et al. /7/.  Value given    
        by resonance parameters is 0.120 barns. Value for elastic 
        scattering thermal is 2.779 barns from resonance          
        parameters.                                               
                                                                  
      ------------------------------------------------------------
                                                                  
    Thermal cross sections and resonance integrals at 300 K       
    ----------------------------------------------------------    
                     0.0253 eV           res. integ. (*)          
                      (barns)              (barns)                
    ----------------------------------------------------------    
     Total           2.7501E+00                                   
     Elastic         2.6301E+00                                   
     n,gamma         1.1997E-01           8.3221E-02              
    ----------------------------------------------------------    
       (*) Integrated from 0.5 eV to 10 MeV.                      
                                                                  
MF= 3 Neutron cross sections                                      
                                                                  
  MT=  1 Total cross section                                      
    Calculated with TNG /8/.                                      
                                                                  
  MT=  2 Elastic scattering cross section                         
    Obtained by subtracting non-elastic cross sections from total 
    cross sections.                                               
                                                                  
  MT=  4,51-91 (n,n') cross section                               
    Calculated with TNG code /8/.                                 
                                                                  
  MT= 16 (n,2n) cross section                                     
    Calculated with TNG code /8/.                                 
                                                                  
  MT= 22 (n,na) cross section                                     
    Calculated with TNG code /8/.                                 
                                                                  
  MT= 28 (n,np) cross section                                     
    Calculated with TNG code /8/.                                 
                                                                  
  MT=102 Capture cross section                                    
    Calculated with TNG code /8/.                                 
                                                                  
  MT=103 (n,p) cross section                                      
    Calculated from MT=600-649.                                   
                                                                  
  MT=107 (n,a) cross section                                      
    Calculated from MT=800-849.                                   
                                                                  
  MT=600-649 partial (n,p) cross section                          
    Calculated with TNG code /8/.  Comparing with experimental    
    data, the calculations were multiplied by 1.5.                
                                                                  
  MT=800-849 partial (n,a) cross section                          
    Calculated with TNG code /8/.                                 
                                                                  
MF= 4 Angular distributions of emitted neutrons                   
  MT=  2 Elastic scattering                                       
    Calculated with TNG code /8/.  The shape elastic scattering   
    component was calculated using OPTMAN code./9/                
                                                                  
MF= 6 Energy-angle distributions of emitted particles             
  MT= 16 (n,2n) reaction                                          
    Neutron and gamma-ray spectra calculated with TNG/8/.         
                                                                  
  MT= 22 (n,na) reaction                                          
    Neutron, alpha-particle, and gamma-ray spectra calculated with
    TNG/8/.                                                       
                                                                  
  MT= 28 (n,np) reaction                                          
    Neutron, proton, and gamma-ray spectra calculated with TNG/8/.
                                                                  
  MT= 51-84 (n,n') reaction                                       
    Neutron angular distributions and discrete gamma-ray spectra  
    calculated with TNG/8/.                                       
                                                                  
  MT= 91 (n,n') reaction                                          
    Neutron spectra, and discrete-continuous gamma-ray spectra    
    calculated with  with TNG/8/.                                 
                                                                  
  MT=102 (n,gamma) reaction                                       
    Gamma-ray spectra calcualted with TNG/8/.                     
                                                                  
  MT=600-615 (n,p) reactions leading to discrete levels           
    Proton angular distributions and discrete gamma-ray spectra   
    calculated with TNG/8/.                                       
                                                                  
  MT=649 (n,p) reaction leading to continuum levels               
    Proton spectra and discrete-continuous gamma-ray spectra      
    calculated with TNG/8/.                                       
                                                                  
  MT=800-823 (n,a) reactions leading to discrete levels           
    Alpha-particle angular distributions and gamma-ray spectra    
    calculated with TNG/8/.                                       
                                                                  
  MT=849 (n,a) reaction leading to continuum levels               
    Alpha-particle spectra and discrete-continuous gamma-ray      
    spectra calculated with TNG/8/.                               
                                                                  
                                                                  
                                                        
                                                                  
***************************************************************   
*        Nuclear Model Calculations with TNG Code /8/         *   
***************************************************************   
The description of the model calcualtions is given in Ref.10.     
                                                                  
< Optical model parameters >                                      
Neutrons and protons:                                             
  Coupled-channel optical model parameters /10/                   
Alphas:                                                           
  The potential parameters were obtained using the code developed 
  by Kumar and Kailas./11/                                        
                                                                  
< Level scheme of Si- 29 >                                        
  -------------------------                                       
   No.   Ex(MeV)     J  PI                                        
  -------------------------                                       
    0    0.00000    1/2  +                                        
    1    1.27340    3/2  +                                        
    2    2.02820    5/2  +                                        
    3    2.42600    3/2  +                                        
    4    3.06730    5/2  +                                        
    5    3.62420    7/2  -                                        
    6    4.08020    7/2  +                                        
    7    4.74100    9/2  +                                        
    8    4.84000    1/2  +                                        
    9    4.89540    5/2  +                                        
   10    4.93460    3/2  -                                        
   11    5.25460    9/2  -                                        
   12    5.28550    7/2  +                                        
   13    5.65240    9/2  +                                        
   14    5.81290    7/2  +                                        
   15    5.94910    3/2  +                                        
   16    6.10700    5/2  -                                        
   17    6.19410    7/2  -                                        
   18    6.38080    1/2  -                                        
   19    6.42400    7/2  +                                        
   20    6.49620    3/2  +                                        
   21    6.52200    5/2  +                                        
   22    6.61620    9/2  +                                        
   23    6.69590    1/2  +                                        
   24    6.71000    5/2  -                                        
   25    6.71500    3/2  -                                        
   26    6.78130   11/2  -                                        
   27    6.90730    3/2  +                                        
   28    6.92100    7/2  +                                        
   29    7.01400    5/2  -                                        
   30    7.05780    1/2  +                                        
   31    7.07200    7/2  +                                        
   32    7.13930   11/2  +                                        
   33    7.18180    3/2  -                                        
   34    7.19700    3/2  +                                        
                                                                  
The direct-reaction process was taken into accout for the 1st and 
4th excited levels by the coupled-channel method.                 
                                                                  
< Level density parameters >                                      
Energy dependent parameters of Mengoni-Nakajima /12/ were used.   
  ----------------------------------------------------------      
  Nuclei    a*    Pair    Esh     T     E0    Ematch Econt        
          1/MeV   MeV     MeV    MeV    MeV    MeV    MeV         
  ----------------------------------------------------------      
  Si- 30   4.746  4.382 -2.125  2.139  0.450 15.991  7.223        
  Si- 29   5.138  2.228 -3.404  1.964  0.625 10.099  7.521        
  Si- 28   4.489  4.536 -4.401  2.454  1.949 15.409  8.819        
  Al- 29   4.389  2.228 -0.301  1.949 -0.848 11.832  4.656        
  Al- 28   4.508  0.000 -2.180  2.170 -3.293 10.786  3.012        
  Mg- 26   4.228  4.707 -0.673  2.239 -0.005 17.464  7.200        
  Mg- 25   4.587  2.400 -0.869  1.901 -0.347 11.340  6.169        
  ----------------------------------------------------------      
                                                                  
References                                                        
 1) L.C. Leal et al., Proc. Int. Conf. Nuclear Data for Science   
    and Technology, Trieste, 1997, Part I, 929 (1997).            
 2) F.G. Perey, T.A. Love, W.E. Kinney, Oak Ridge National        
    Laboratory report ORNL-4823 [ENDF-178] (1972).                
 3) J.A. Harvey, private communication (1996).                    
 4) D.C. Larson, C.H. Johnson, J.A. Harvey, and N.W. Hill,        
    "Measurement of the neutron total cross section of silicon    
    from 5 eV to 730 keV," Oak Ridge National Laboratory report   
    ORNL/TM-5618 (1976)                                           
 5) J.A. Harvey, private communication (1996).                    
 6) J.A. Harvey, W.M. Good, R.F. Carlton, et al., Phys.Rev.C      
    28, 24 (1983).                                                
 7) S. Raman, et al., Phys.Rev.C 46, 972 (1992).                  
 8) C.Y. Fu, ORNL/TM-7042 (1980); K. Shibata, C.Y. Fu, ORNL/TM-   
    10093 (1986).                                                 
 9) E.Sh. Soukhovitski et al., JAERI-Data/Code 2005-002 (2005).   
10) K. Shibata, S. Kunieda, J. Nucl. Sci. Technol., 45, 123       
    (2008).                                                       
11) A. Kumar, S. Kailas, a computer code contained in RIPL-2,     
    Bhabha Atomic Research Center, private communication (2002).  
12) A. Mengoni, Y. Nakajima, J. Nucl. Sci. Technol., 31, 151      
    (1994).