68-Er-164

 68-ER-164 TIT        EVAL-SEP00 A.K.M. HARUN-AR-RASHID+          
                      DIST-MAR02                       20020205   
----JENDL-3.3         MATERIAL 6831                               
-----INCIDENT NEUTRON DATA                                        
------ENDF-6 FORMAT                                               
                                                                  
HISTORY                                                           
2000-09 Evaluation was performed by A.K.M.Harun-ar-Rashid (tit),  
        M.Igashira (tit), T.Ohsaki (tit), and K.Shibata (jaeri).  
2001-02 Compiled by K.Shibata (jaeri).                            
                                                                  
 mf=1  General information                                        
   mt=451  Descriptive data and dictionary                        
                                                                  
 mf=2  Resonance parameters                                       
   mt=151  Resolved resonances                                    
     Resonance range (1.0e-05 to 800.0 eV).                       
     Resolved resonance parameters from Ref. 1 (Ehi=800.0 eV).    
     The bound level at -24.4 eV has Gamma-n = 0.0738159 eV and   
     Gamma-gamma = 0.096 eV.  This choice gives the desired       
     value for the thermal capture cross section, 13+-2 b [2].    
     Values of Gamma-gamma not given in Ref.1 are set to 0.096 eV.
     The value for the scattering radius is 8.1 fm.  Highest      
     energy resonance included is 750.22 eV.  No background cross 
     section is given.                                            
                                                                  
     Calculated 2200-m/s cross sections and res. integrals        
                  2200-m/s         res. integ.                    
      elastic     9.100 b             -                           
      capture    12.952 b           168.57 b                      
      total      22.051 b             -                           
                                                                  
 mf=3  Neutron cross sections                                     
   mt=  1  Total cross section                                    
     Spherical optical model calculation was made by using        
     casthy code [3].  Parameters are as follows,                 
            V  = 48.2-0.25*E-16.0*(N-Z)/A , r0=1.18,   a0=0.63    
            Ws = 7.84-0.51*E              , rs=1.29,   as=0.63    
            Vso= 6.0                      , rso=1.26,  aso=0.63   
                  (energies in MeV, lengths in fm).               
                                                                  
   mt=  2  Elastic scattering cross section                       
     The cross sections were obtained by subtracting a sum of     
     reaction cross sections from the total cross sections.       
                                                                  
   mt=  4,51,52,.,66,91  Inelastic scattering cross sections      
     Calculated by using egnash code [4].                         
     The direct-process component was considered for mt=51        
     from dwba calculation by dwucky code. [4,5]                  
     The level scheme is given as follows:                        
                                                                  
          no   energy(MeV) spin/parity                            
          gs     0.0000       0 +                                 
           1     0.0914       2 +                                 
           2     0.2995       4 +                                 
           3     0.6144       6 +                                 
           4     0.8603       2 +                                 
           5     0.9464       3 +                                 
           6     1.0246       8 +                                 
           7     1.0583       4 +                                 
           8     1.1975       5 +                                 
           9     1.2460       0 +                                 
          10     1.3146       2 +                                 
          11     1.3586       6 +                                 
          12     1.3868       1 -                                 
          13     1.4166       4 +                                 
          14     1.4340       3 -                                 
          15     1.4699       4 +                                 
          16     1.4839       2 +                                 
                                                                  
      Levels above 1.500 MeV are assumed to be overlapping        
                                                                  
   mt=  16,17,22,28,103,104,105,107                               
           (n,2n), (n,3n), (n,n'a), (n,n'p),                      
           (n,p), (n,d), (n,t), (n,a)                             
     Calculated  using egnash [4].                                
                                                                  
   mt=102  Capture cross secton                                   
     The capture cross section is based on the statistical model  
     calculations [3]. The direct and semidirect capture cross    
     sections were added above 2 MeV by using the quick gnash     
     code [6,7].                                                  
                                                                  
 mf=4  Angular distributions of secondary neutrons                
   mt=2                                                           
     Calculated with the casthy code.                             
   mt=16,17,22,28                                                 
     Assumed to be isotropic in the laboratory system.            
   mt=51,---,66,91                                                
     Calculated with the casthy code.                             
     For mt=51, the dwba component was taken into account.        
                                                                  
 mf=5  Energy distributions of secondary neutrons                 
   mt=16,17,22,28,91                                              
     Calculated with the egnash code.                             
                                                                  
 mf=12  Photon production multiplicities                          
   mt=16,17,51-66,91,102,103,107                                  
     Calculated with the egnash code.                             
                                                                  
 mf=14  Photon angular distributions                              
   mt=16,17,51-66,91,102,103,107                                  
     Assumed to be isotropic.                                     
                                                                  
 mf=15  Photon energy distributions                               
   mt=16,17,91,102,103,107                                        
                                                                  
References                                                        
  1. Landolt-Boernstein New Series I/16B (Aug 1998).              
  2. S.F. Mughabghab: "Neutron Cross Sections: Vol. 1,            
     Neutron Resonance Parameters and Thermal Cross Sections,     
     Part B: Z=61-100," Academic Press (1984).                    
  3. S. Igarasi, T. Fukahori: JAERI 1321 (1991).                  
  4. N. Yamamuro: JAERI-M 90-006 (1990).                          
  5. P.D. Kunz: Unpublished.                                      
  6. P.G. Young et al.: LA-12343-MS, UC-413 (1992).               
  7. N. Yamano: Private communication.