Difference between revisions of "Neutron Polarimeter"

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Line 14: Line 14:
  
 
  <math> p_{\gamma} = \left( T_{\gamma},\ T_{\gamma},\ 0,\ 0  \right) </math>  
 
  <math> p_{\gamma} = \left( T_{\gamma},\ T_{\gamma},\ 0,\ 0  \right) </math>  
  <math> p_{\D}     = \left( m_D,\ 0,\ 0,\ 0  \right) </math>  
+
  <math> p_D     = \left( m_D,\ 0,\ 0,\ 0  \right) </math>  
 
  <math> p_{n} = \left( E_n,\ p_n\cos(\Theta_{n}),\ p_n\sin(\Theta_{n}),\ 0  \right) </math>  
 
  <math> p_{n} = \left( E_n,\ p_n\cos(\Theta_{n}),\ p_n\sin(\Theta_{n}),\ 0  \right) </math>  
 
  <math> p_{\gamma} = \left( T_{\gamma},\ T_{\gamma},\ 0,\ 0  \right) </math>  
 
  <math> p_{\gamma} = \left( T_{\gamma},\ T_{\gamma},\ 0,\ 0  \right) </math>  

Revision as of 21:04, 5 June 2010

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Relativistic kinematic

Collision.png

We want to derive the how the energy of detected neutron depends on energy of incoming photons 

[math] E = T + m[/math]

[math] E = p^2 + m^2[/math]

writing four-vectors: 

[math] p_{\gamma} = \left( T_{\gamma},\ T_{\gamma},\ 0,\ 0  \right) [/math] 
[math] p_D     = \left( m_D,\ 0,\ 0,\ 0  \right) [/math] 
[math] p_{n} = \left( E_n,\ p_n\cos(\Theta_{n}),\ p_n\sin(\Theta_{n}),\ 0  \right) [/math] 
[math] p_{\gamma} = \left( T_{\gamma},\ T_{\gamma},\ 0,\ 0  \right) [/math] 

[math] p^{\mu}_{\gamma} + p^{\mu}_{D} = p^{\mu}_{p} + p^{\mu}_{n} [/math]
[math] p^{\mu}_{\gamma} + p^{\mu}_{D} = p^{\mu}_{p} + p^{\mu}_{n} [/math]



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