Difference between revisions of "DU target n-multiple scatter"

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'''4 mm thick DU'''
 
'''4 mm thick DU'''
  
[[File:DU_4mm_1MeVn.png | 500px]]
+
[[File:DU_4mm_1MeVn.png | 600px]]
  
[[File:DU#_4mm_1MeVn_theta.png | 500px]]
+
[[File:DU#_4mm_1MeVn_theta.png | 600px]]
  
[[File:DU_4mm_07MeVn.png | 500px]]
+
[[File:DU_4mm_07MeVn.png | 600px]]
  
[[File:DU#_4mm_07MeVn_theta.png | 500px]]
+
[[File:DU#_4mm_07MeVn_theta.png | 600px]]
  
  
 
'''2 mm thick DU'''
 
'''2 mm thick DU'''
  
[[File:DU_2mm_1MeVn.png | 500px]]
+
[[File:DU_2mm_1MeVn.png | 600px]]
  
[[File:DU#_2mm_1MeVn_theta.png | 500px]]
+
[[File:DU#_2mm_1MeVn_theta.png | 600px]]
  
 
'''1 mm thick DU'''
 
'''1 mm thick DU'''
  
[[File:DU_1mm_1MeVn.png | 500px]]
+
[[File:DU_1mm_1MeVn.png | 600px]]
  
[[File:DU#_1mm_1MeVn_theta.png | 500px]]
+
[[File:DU#_1mm_1MeVn_theta.png | 600px]]

Revision as of 15:36, 8 September 2014

Neutron multiple scattering due to elastic collisions inside DU target and corresponding energy losses were simulated. Also angular distribution was obtained for the neutrons outside of the target. The angle was measured w.r.t. the initial beam direction. The neutron beam was pencil-like w/o divergence monoenergetic (1 MeV) and incident normally to the surface of DU target. [math]10^6[/math] neutrons were initially incident upon the target.

4 mm thick DU

DU 4mm 1MeVn.png

600px

DU 4mm 07MeVn.png

600px


2 mm thick DU

DU 2mm 1MeVn.png

600px

1 mm thick DU

DU 1mm 1MeVn.png

600px