98-Cf-248

 98-Cf-248 JAEA+      EVAL-FEB10 O.Iwamoto, T.Nakagawa, et al.    
                      DIST-MAY10                       20100304   
----JENDL-4.0         MATERIAL 9849                               
-----INCIDENT NEUTRON DATA                                        
------ENDF-6 FORMAT                                               
                                                                  
History                                                           
07-10 Theoretical calculation was performed with CCONE code.      
07-11 Data were compiled as JENDL/AC-2008/1/.                     
10-02 Data of prompt gamma rays due to fission were given.        
10-03 Covariance data were given.                                 
                                                                  
                                                                  
MF=1 General information                                          
  MT=452 Number of Neutrons per fission                           
    Sum of MT's=455 and 456.                                      
                                                                  
  MT=455 Delayed neutron data                                     
    Estimated from systematics by Tuttle/2/, Benedetti et al./3/  
    and Waldo et al./4/                                           
                                                                  
  MT=456 Number of prompt neutrons per fission                    
    Estimated from Howerton's systematics/5/.                     
                                                                  
                                                                  
MF= 2 Resonance parameters                                        
  MT=151                                                          
  No resonance parameters are given.                              
                                                                  
                                                                  
     Thermal cross sections and resonance integrals (at 300K)     
    -------------------------------------------------------       
                    0.0253 eV    reson. integ.(*)                 
                     (barns)       (barns)                        
    -------------------------------------------------------       
    total             2405.8                                      
    elastic             10.62                                     
    fission            693.7          312                         
    capture           1700.5          733                         
    -------------------------------------------------------       
      (*) In the energy range from 0.5 eV to 10 MeV.              
                                                                  
                                                                  
MF= 3 Neutron cross sections                                      
  Below 7.0 eV:                                                   
    * Elastic scattering cross section is 10.6 b calculated from  
      scattering radius of 9.200 fm/6/.                           
    * Fission cross section at 0.0253 eV was assumed to be 700 b  
      from systematics.                                           
    * Capture cross section at 0.0253 eV was assumed to be 1700 b 
      from the fission cross section and capture to fission ratio 
      calculated at 1 eV with CCONE code/6/.                      
                                                                  
  Above 7.0 eV:                                                   
    Cross sections calculated with CCONE code/6/ were adopted.    
                                                                  
  MT= 1 Total cross section                                       
    The cross section was calculated with CC OMP of Soukhovitskii 
    et al./7/                                                     
                                                                  
                                                                  
MF= 4 Angular distributions of secondary neutrons                 
  MT=2 Elastic scattering                                         
    Calculated with CCONE code/6/.                                
                                                                  
  MT=18 Fission                                                   
    Isotropic distributions in the laboratory system were assumed.
                                                                  
                                                                  
MF= 5 Energy distributions of secondary neutrons                  
  MT=18 Prompt neutrons                                           
    Calculated with CCONE code/6/.                                
                                                                  
                                                                  
MF= 6 Energy-angle distributions                                  
    Calculated with CCONE code/6/.                                
    Distributions from fission (MT=18) are not included.          
                                                                  
                                                                  
MF=12 Photon production multiplicities                            
  MT=18 Fission                                                   
    Calculated from the total energy released by the prompt       
    gamma-rays due to fission which was estimated from its        
    systematics, and the average energy of gamma-rays.            
                                                                  
                                                                  
MF=14 Photon angular distributions                                
  MT=18 Fission                                                   
    Isotoropic distributions were assumed.                        
                                                                  
                                                                  
MF=15 Continuous photon energy spectra                            
  MT=18 Fission                                                   
    Experimental data measured by Verbinski et al./8/ for         
    Pu-239 thermal fission were adopted.                          
                                                                  
                                                                  
MF=31 Covariances of average number of neutrons per fission       
  MT=452 Number of neutrons per fission                           
    Sum of covariances for MT=455 and MT=456.                     
                                                                  
  MT=455                                                          
    Error of 15% was assumed.                                     
                                                                  
  MT=456                                                          
    Covariance was obtained by fitting a linear function to the   
    at 0.0 and 5.0 MeV with an uncertainty of 10%.                
                                                                  
                                                                  
MF=33 Covariances of neutron cross sections                       
  Covariances were given to all the cross sections by using       
  KALMAN code/9/ and the covariances of model parameters          
  used in the cross-section calculations.                         
                                                                  
  For the following cross sections, standard deviations in the    
  energy region below 7.0 eV were assumed as follows:             
                                                                  
     Total               69 %                                     
     Elastic scattering  90 %                                     
     Fission             90 %                                     
     Capture             90 %                                     
                                                                  
                                                                  
MF=34 Covariances for Angular Distributions                       
  MT=2 Elastic scattering                                         
    Covariances were given only to P1 components.                 
                                                                  
                                                                  
MF=35 Covariances for Energy Distributions                        
  MT=18 Fission spectra                                           
    Estimated with CCONE and KALMAN codes.                        
                                                                  
                                                                  
***************************************************************** 
  Calculation with CCONE code                                     
***************************************************************** 
                                                                  
  Models and parameters used in the CCONE/6/ calculation          
  1) Coupled channel optical model                                
     Levels in the rotational band were included. Optical model   
     potential and coupled levels are shown in Table 1.           
                                                                  
  2) Two-component exciton model/10/                              
    * Global parametrization of Koning-Duijvestijn/11/            
      was used.                                                   
    * Gamma emission channel/12/ was added to simulate direct     
      and semi-direct capture reaction.                           
                                                                  
  3) Hauser-Feshbach statistical model                            
    * Moldauer width fluctuation correction/13/ was included.     
    * Neutron, gamma and fission decay channel were included.     
    * Transmission coefficients of neutrons were taken from       
      coupled channel calculation in Table 1.                     
    * The level scheme of the target is shown in Table 2.         
    * Level density formula of constant temperature and Fermi-gas 
      model were used with shell energy correction and collective 
      enhancement factor. Parameters are shown in Table 3.        
    * Fission channel:                                            
      Double humped fission barriers were assumed.                
      Fission barrier penetrabilities were calculated with        
      Hill-Wheler formula/14/. Fission barrier parameters were    
      shown in Table 4. Transition state model was used and       
      continuum levels are assumed above the saddles. The level   
      density parameters for inner and outer saddles are shown in 
      Tables 5 and 6, respectively.                               
    * Gamma-ray strength function of Kopecky et al/15/,/16/       
      was used. The prameters are shown in Table 7.               
                                                                  
                                                                  
------------------------------------------------------------------
                              Tables                              
------------------------------------------------------------------
                                                                  
Table 1. Coupled channel calculation                              
  --------------------------------------------------              
  * rigid rotor model was applied                                 
  * coupled levels = 0,1,2,3 (see Table 2)                        
  * optical potential parameters /7/                              
    Volume:                                                       
      V_0       = 49.97    MeV                                    
      lambda_HF = 0.01004  1/MeV                                  
      C_viso    = 15.9     MeV                                    
      A_v       = 12.04    MeV                                    
      B_v       = 81.36    MeV                                    
      E_a       = 385      MeV                                    
      r_v       = 1.2568   fm                                     
      a_v       = 0.633    fm                                     
    Surface:                                                      
      W_0       = 17.2     MeV                                    
      B_s       = 11.19    MeV                                    
      C_s       = 0.01361  1/MeV                                  
      C_wiso    = 23.5     MeV                                    
      r_s       = 1.1803   fm                                     
      a_s       = 0.601    fm                                     
    Spin-orbit:                                                   
      V_so      = 5.75     MeV                                    
      lambda_so = 0.005    1/MeV                                  
      W_so      = -3.1     MeV                                    
      B_so      = 160      MeV                                    
      r_so      = 1.1214   fm                                     
      a_so      = 0.59     fm                                     
    Coulomb:                                                      
      C_coul    = 1.3                                             
      r_c       = 1.2452   fm                                     
      a_c       = 0.545    fm                                     
    Deformation:                                                  
      beta_2    = 0.213                                           
      beta_4    = 0.066                                           
      beta_6    = 0.0015                                          
                                                                  
  * Calculated strength function                                  
    S0= 1.44e-4 S1= 2.46e-4 R'=  9.20 fm (En=1 keV)               
  --------------------------------------------------              
                                                                  
Table 2. Level Scheme of Cf-248                                   
  -------------------                                             
  No.  Ex(MeV)   J PI                                             
  -------------------                                             
   0  0.00000   0  +  *                                           
   1  0.04153   2  +  *                                           
   2  0.13781   4  +  *                                           
   3  0.28500   6  +  *                                           
   4  0.59220   2  -                                              
   5  0.63000   3  -                                              
   6  0.67700   4  -                                              
   7  0.73500   5  -                                              
   8  0.80600   6  -                                              
  -------------------                                             
  *) Coupled levels in CC calculation                             
                                                                  
Table 3. Level density parameters                                 
  --------------------------------------------------------        
  Nuclide      a*    Pair  Eshell       T      E0  Ematch         
            1/MeV     MeV     MeV     MeV     MeV     MeV         
  --------------------------------------------------------        
   Cf-249 19.0966  0.7605  0.7689  0.3773 -0.6847  2.7641         
   Cf-248 19.0305  1.5240  0.7495  0.3921 -0.0631  3.7096         
   Cf-247 18.9645  0.7635  0.5924  0.3748 -0.6176  2.6898         
   Cf-246 18.8984  1.5302  0.7686  0.4030 -0.1574  3.8448         
  --------------------------------------------------------        
                                                                  
Table 4. Fission barrier parameters                               
  ----------------------------------------                        
  Nuclide     V_A    hw_A     V_B    hw_B                         
              MeV     MeV     MeV     MeV                         
  ----------------------------------------                        
   Cf-249   6.700   1.200   5.900   0.800                         
   Cf-248   6.200   1.040   5.400   0.600                         
   Cf-247   6.700   1.000   5.900   0.800                         
   Cf-246   6.200   1.040   5.400   0.600                         
  ----------------------------------------                        
                                                                  
Table 5. Level density above inner saddle                         
  --------------------------------------------------------        
  Nuclide      a*    Pair  Eshell       T      E0  Ematch         
            1/MeV     MeV     MeV     MeV     MeV     MeV         
  --------------------------------------------------------        
   Cf-249 20.0514  0.8872  2.5000  0.3486 -1.7837  3.0872         
   Cf-248 21.3142  1.7780  2.5000  0.3226 -0.6352  3.7780         
   Cf-247 21.2402  0.8908  2.5000  0.3232 -1.5224  2.8908         
   Cf-246 21.1662  1.7852  2.5000  0.3238 -0.6280  3.7852         
  --------------------------------------------------------        
                                                                  
Table 6. Level density above outer saddle                         
  --------------------------------------------------------        
  Nuclide      a*    Pair  Eshell       T      E0  Ematch         
            1/MeV     MeV     MeV     MeV     MeV     MeV         
  --------------------------------------------------------        
   Cf-249 20.0514  0.8872  0.9200  0.3794 -1.0059  3.0872         
   Cf-248 21.3142  1.7780  0.8800  0.3522  0.0693  3.7780         
   Cf-247 21.2402  0.8908  0.8400  0.3533 -0.8173  2.8908         
   Cf-246 21.1662  1.7852  0.8000  0.3544  0.0777  3.7852         
  --------------------------------------------------------        
                                                                  
Table 7. Gamma-ray strength function for Cf-249                   
  --------------------------------------------------------        
  K0 = 1.500   E0 = 4.500 (MeV)                                   
  * E1: ER = 11.38 (MeV) EG = 2.71 (MeV) SIG = 254.06 (mb)        
        ER = 14.28 (MeV) EG = 4.18 (MeV) SIG = 508.13 (mb)        
  * M1: ER =  6.52 (MeV) EG = 4.00 (MeV) SIG =   1.81 (mb)        
  * E2: ER = 10.01 (MeV) EG = 3.12 (MeV) SIG =   7.36 (mb)        
  --------------------------------------------------------        
                                                                  
                                                                  
References                                                        
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 3) G.Benedetti et al.: Nucl. Sci. Eng., 80, 379 (1982).          
 4) R.Waldo et al.: Phys. Rev., C23, 1113 (1981).                 
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    Japanese.                                                     
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13) P.A.Moldauer: Nucl. Phys. A344, 185 (1980).                   
14) D.L.Hill, J.A.Wheeler: Phys. Rev. 89, 1102 (1953).            
15) J.Kopecky, M.Uhl: Phys. Rev. C41, 1941 (1990).                
16) J.Kopecky, M.Uhl, R.E.Chrien: Phys. Rev. C47, 312 (1990).