Difference between revisions of "Neutron Polarimeter"

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We want to derive the how the energy of detected neutron depends on energy of incoming photons
 
We want to derive the how the energy of detected neutron depends on energy of incoming photons
  
  <math> E = T + m</math><br>
+
  <math> E = T + m</math>
 
  <math> E = p^2 + m^2</math>
 
  <math> E = p^2 + m^2</math>
  

Revision as of 21:05, 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_{p} = \left( E_p,\ p_p\cos(\Theta_{p}),\ p_p\sin(\Theta_{p}),\ 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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