42-Mo- 98

 42-Mo- 98 JAEA       EVAL-MAR09 K.Shibata, A.Ichihara, S.Kunieda+
                      DIST-MAY10                       20091208   
----JENDL-4.0         MATERIAL 4243                               
-----INCIDENT NEUTRON DATA                                        
------ENDF-6 FORMAT                                               
                                                                  
History                                                           
09-03 The data above the resolved resonance region were evaluated 
      by K.Shibata, A.Ichihara, and S.Kunieda /1/.                
      The resolved resonance parameters were evaluated by         
      T.Nakagawa.                                                 
09-12 Compiled by K.Shibata                                       
                                                                  
MF= 1 General information                                         
  MT=451 Descriptive data and directory                           
                                                                  
MF= 2 Resonance parameters                                        
  MT=151 Resolved and unresolved resoannce parameters             
    Resolved resonance region: below 32 keV                       
      Based on the experimental data of Chrien et al./2/,         
      Weigmann et al./3/, and Musgrove /4/.                       
      The low-energy neutron widths were replaced with those      
      obtained by Babich and Anufriev /5/.  Moreover, the         
      parameters for 12.2-eV p-wave resonance were taken from     
      the data of Wang et al./6/.                                 
                                                                  
    Unresolved resonance region: 32 keV - 1 MeV                   
      The parameters were obtained by fitting to the total and    
      capture cross sections calculated from POD /7/.  The        
      unresolved parameters should be used only for self-shielding
      calculation.                                                
                                                                  
    Thermal cross sections and resonance integrals at 300 K       
    ----------------------------------------------------------    
                     0.0253 eV           res. integ. (*)          
                      (barns)              (barns)                
    ----------------------------------------------------------    
     Total           5.5962E+00                                   
     Elastic         5.4641E+00                                   
     n,gamma         1.3215E-01           6.9071E+00              
    ----------------------------------------------------------    
       (*) Integrated from 0.5 eV to 10 MeV.                      
                                                                  
MF= 3 Neutron cross sections                                      
  MT=  1 Total cross section                                      
    Calculated with POD code /7/.                                 
                                                                  
  MT=  2 Elastic scattering cross section                         
    Obtained by subtracting non-elastic cross sections from total 
    cross sections.                                               
                                                                  
  MT=  3 Non-elastic cross section                                
    Sum of partial non-elastic cross sections.                    
                                                                  
  MT=  4,51-91 (n,n') cross section                               
    Calculated with POD code /7/.                                 
                                                                  
  MT= 16 (n,2n) cross section                                     
    Calculated with POD code /7/.                                 
                                                                  
  MT= 17 (n,3n) cross section                                     
    Calculated with POD code /7/.                                 
                                                                  
  MT= 22 (n,na) cross section                                     
    Calculated with POD code /7/.                                 
                                                                  
  MT= 28 (n,np) cross section                                     
    Calculated with POD code /7/.                                 
                                                                  
  MT= 32 (n,nd) cross section                                     
    Calculated with POD code /7/.                                 
                                                                  
  MT=102 Capture cross section                                    
    Calculated with POD code /7/.                                 
                                                                  
  MT=103 (n,p) cross section                                      
    Calculated with POD code /7/.                                 
                                                                  
  MT=104 (n,d) cross section                                      
    Calculated with POD code /7/.                                 
                                                                  
  MT=105 (n,t) cross section                                      
    Calculated with POD code /7/.                                 
                                                                  
  MT=106 (n,He3) cross section                                    
    Calculated with POD code /7/.                                 
                                                                  
  MT=107 (n,a) cross section                                      
    Calculated with POD code /7/.                                 
                                                                  
  MT=203 (n,xp) cross section                                     
    Calculated with POD code /7/.                                 
                                                                  
  MT=204 (n,xd) cross section                                     
    Calculated with POD code /7/.                                 
                                                                  
  MT=205 (n,xt) cross section                                     
    Calculated with POD code /7/.                                 
                                                                  
  MT=206 (n,xHe3) cross section                                   
    Calculated with POD code /7/.                                 
                                                                  
  MT=207 (n,xa) cross section                                     
    Calculated with POD code /7/.                                 
                                                                  
MF= 4 Angular distributions of emitted neutrons                   
  MT=  2 Elastic scattering                                       
    Calculated with POD code /7/ above 3.5 MeV.  Below 3.5 MeV,   
    the data were taken from JENDL-3.3 by considering the         
    benchmark results with molybdenum reflectors for fast-neutron 
    cores.                                                        
                                                                  
MF= 6 Energy-angle distributions of emitted particles             
  MT= 16 (n,2n) reaction                                          
    Neutron spectra calculated with POD/7/.                       
                                                                  
  MT= 17 (n,3n) reaction                                          
    Neutron spectra calculated with POD/7/.                       
                                                                  
  MT= 22 (n,na) reaction                                          
    Neutron spectra calculated with POD/7/.                       
                                                                  
  MT= 28 (n,np) reaction                                          
    Neutron spectra calculated with POD/7/.                       
                                                                  
  MT= 32 (n,nd) reaction                                          
    Neutron spectra calculated with POD/7/.                       
                                                                  
  MT= 51 (n,n') reaction                                          
    Neutron angular distributions calculated with POD/7/.         
                                                                  
  MT= 52 (n,n') reaction                                          
    Neutron angular distributions calculated with POD/7/.         
                                                                  
  MT= 53 (n,n') reaction                                          
    Neutron angular distributions calculated with POD/7/.         
                                                                  
  MT= 54 (n,n') reaction                                          
    Neutron angular distributions calculated with POD/7/.         
                                                                  
  MT= 55 (n,n') reaction                                          
    Neutron angular distributions calculated with POD/7/.         
                                                                  
  MT= 56 (n,n') reaction                                          
    Neutron angular distributions calculated with POD/7/.         
                                                                  
  MT= 57 (n,n') reaction                                          
    Neutron angular distributions calculated with POD/7/.         
                                                                  
  MT= 58 (n,n') reaction                                          
    Neutron angular distributions calculated with POD/7/.         
                                                                  
  MT= 59 (n,n') reaction                                          
    Neutron angular distributions calculated with POD/7/.         
                                                                  
  MT= 60 (n,n') reaction                                          
    Neutron angular distributions calculated with POD/7/.         
                                                                  
  MT= 61 (n,n') reaction                                          
    Neutron angular distributions calculated with POD/7/.         
                                                                  
  MT= 62 (n,n') reaction                                          
    Neutron angular distributions calculated with POD/7/.         
                                                                  
  MT= 63 (n,n') reaction                                          
    Neutron angular distributions calculated with POD/7/.         
                                                                  
  MT= 64 (n,n') reaction                                          
    Neutron angular distributions calculated with POD/7/.         
                                                                  
  MT= 65 (n,n') reaction                                          
    Neutron angular distributions calculated with POD/7/.         
                                                                  
  MT= 66 (n,n') reaction                                          
    Neutron angular distributions calculated with POD/7/.         
                                                                  
  MT= 67 (n,n') reaction                                          
    Neutron angular distributions calculated with POD/7/.         
                                                                  
  MT= 68 (n,n') reaction                                          
    Neutron angular distributions calculated with POD/7/.         
                                                                  
  MT= 69 (n,n') reaction                                          
    Neutron angular distributions calculated with POD/7/.         
                                                                  
  MT= 91 (n,n') reaction                                          
    Neutron spectra calculated with POD/7/.                       
                                                                  
  MT= 203 (n,xp) reaction                                         
    Proton spectra calculated with POD/7/.                        
                                                                  
  MT= 204 (n,xd) reaction                                         
    Deuteron spectra calculated with POD/7/.                      
                                                                  
  MT= 205 (n,xt) reaction                                         
    Triton spectra calculated with POD/7/.                        
                                                                  
  MT= 206 (n,xHe3) reaction                                       
    He3 spectra calculated with POD/7/.                           
                                                                  
  MT= 207 (n,xa) reaction                                         
    Alpha spectra calculated with POD/7/.                         
                                                                  
MF=12 Gamma-ray multiplicities                                    
  MT=  3 Non-elastic gamma emission                               
    Calculated with POD code /7/.                                 
                                                                  
MF=14 Gamma-ray angular distributions                             
  MT=  3 Non-elastic gamma emission                               
    Assumed to be isotropic.                                      
                                                                  
MF=15 Gamma-ray spectra                                           
  MT=  3 Non-elastic gamma emission                               
    Calculated with POD code /7/.                                 
                                                                  
                                                        
                                                                  
***************************************************************   
*        Nuclear Model Calculations with POD Code /7/         *   
***************************************************************   
1. Theoretical models                                             
 The POD code is based on the spherical optical model, the        
distorted-wave Born approximaiton (DWBA), one-component exciton   
preequilibrium model, and the Hauser-Feshbach-Moldauer statis-    
tical model.  With the preequilibrim model, semi-empirical        
pickup and knockout process can be taken into account for         
composite-particle emission.  The gamma-ray emission from the     
compound nucleus can be calculated within the framework of the    
exciton model.  The code is capable of reading in particle        
transmission coefficients calculated by separate spherical or     
coupled-channel optical model code.                               
                                                                  
2. Optical model parameters                                       
Neutrons:                                                         
  Coupled-channel optical model parameters /8/                    
Protons:                                                          
  Koning and Delaroche /9/                                        
Deuterons:                                                        
  Lohr and Haeberli /10/                                          
Tritons:                                                          
  Becchetti and Greenlees /11/                                    
He-3:                                                             
  Becchetti and Greenlees /11/                                    
Alphas:                                                           
  Lemos /12/ potentials modified by Arthur and Young /13/         
                                                                  
3. Level scheme of Mo- 98                                         
  -------------------------                                       
   No.   Ex(MeV)     J  PI                                        
  -------------------------                                       
    0    0.00000     0   +                                        
    1    0.73475     0   +                                        
    2    0.78738     2   +                                        
    3    1.43221     2   +                                        
    4    1.51004     4   +                                        
    5    1.75848     2   +                                        
    6    1.87100     2   +                                        
    7    1.88085     4   +                                        
    8    1.96308     0   +                                        
    9    2.01752     3   -                                        
   10    2.03753     2   +                                        
   11    2.10472     3   +                                        
   12    2.20659     2   +                                        
   13    2.20900     0   +                                        
   14    2.22385     4   +                                        
   15    2.24000     4   +                                        
   16    2.33344     2   +                                        
   17    2.33400     4   +                                        
   18    2.34361     6   +                                        
   19    2.35000     2   +                                        
  -------------------------                                       
  Levels above  2.36000 MeV are assumed to be continuous.         
                                                                  
4. Level density parameters                                       
 Energy-dependent parameters of Mengoni-Nakajima /14/ were used   
  ----------------------------------------------------------      
  Nuclei    a*    Pair    Esh     T     E0    Ematch Elv_max      
          1/MeV   MeV     MeV    MeV    MeV    MeV    MeV         
  ----------------------------------------------------------      
  Mo- 99  13.082  1.206  3.377  0.716 -1.379  7.501  1.405        
  Mo- 98  13.582  2.424  2.452  0.685  0.275  8.035  2.350        
  Mo- 97  12.902  1.218  1.698  0.757 -1.128  7.419  1.120        
  Mo- 96  13.196  2.449  1.024  0.752  0.273  8.413  2.818        
  Nb- 98  12.575  0.000  3.150  0.552 -0.760  3.224  0.226        
  Nb- 97  11.968  1.218  2.747  0.628  0.171  5.168  2.106        
  Nb- 96  12.360  0.000  1.869  0.535 -0.326  2.537  1.537        
  Zr- 96  12.403  2.449  2.151  0.635  1.347  6.496  3.608        
  Zr- 95  11.644  1.231  1.510  0.689  0.170  5.479  2.025        
  Zr- 94  12.185  2.475  1.423  0.756  0.590  8.084  3.014        
  ----------------------------------------------------------      
                                                                  
5. Gamma-ray strength functions                                   
   M1, E2: Standard Lorentzian (SLO)                              
   E1    : Generalized Lorentzian (GLO) /15/                      
                                                                  
6. Preequilibrium process                                         
   Preequilibrium is on for n, p, d, t, He-3, and alpha.          
   Preequilibrium capture is on.                                  
                                                                  
References                                                        
 1) K.Shibata, A.Ichihara, S.Kunieda, J. Nucl. Sci. Technol.,     
    46, 278 (2009).                                               
 2) R.E.Chrien et al., Phys. Rev. C3, 578 (1976).                 
 3) H.Weigmann et al., 1971 Knoxville, 749 (1971).                
 4) A.R.de L.Musgrove, Nucl. Phys., A270, 108 (1976).             
 5) S.I.Babich, V.A.Anufriev, Atomnaya Energiya, 67, 140 (1989).  
 6) T.F.Wang et al., Nucl. Instrum. Meth. Phys. Research B, 266,  
    561 (2008).                                                   
 7) A.Ichihara et al., JAEA-Data/Code 2007-012 (2007).            
 8) S.Kunieda et al., J. Nucl. Sci. Technol. 44, 838 (2007).      
 9) A.J.Koning, J.P.Delaroche, Nucl. Phys. A713, 231 (2003).      
10) J.M.Lohr, W.Haeberli, Nucl. Phys. A232, 381 (1974).           
11) F.D.Becchetti,Jr., G.W.Greenlees, "Polarization               
    Phenomena in Nuclear Reactions," p.682, The University        
    of Wisconsin Press (1971).                                    
12) O.F.Lemos, Orsay Report, Series A, No.136 (1972).             
13) E.D.Arthur, P.G.Young, LA-8626-MS (1980).                     
14) A.Mengoni, Y.Nakajima, J. Nucl. Sci. Technol. 31, 151         
    (1994).                                                       
15) J.Kopecky, M.Uhl, Nucl. Sci. Eng. 41, 1941 (1990).