Difference between revisions of "Compton Scattering"

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==Analyzing Power as a Function of Compton Scattering Angle==
 
==Analyzing Power as a Function of Compton Scattering Angle==
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The analyzing power <math></math>
  
 
[[Image:power.jpg |800px]]
 
[[Image:power.jpg |800px]]
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The differential cross section for Compton scattering  is given by the Klein-Nishina formula:
 
The differential cross section for Compton scattering  is given by the Klein-Nishina formula:
<math>\Eγ' = \frac{} {1+\alpha(1-cos(\theta))}
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<math>\frac{d\sigma}{d\Omega} = \frac{1}{2} r_e^2 (P(E_\gamma,\theta) - P(E_\gamma,\theta)^2 \sin^2(\theta) + P(E_\gamma,\theta)^3)</math>
  
 
[[Image:cross section.jpg |800px]]
 
[[Image:cross section.jpg |800px]]
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==Energy of Scattered Photon==
 
==Energy of Scattered Photon==
 
[[Image:compton.jpg |800px]]
 
[[Image:compton.jpg |800px]]
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Latest revision as of 06:25, 5 February 2009

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Analyzing Power as a Function of Compton Scattering Angle

The analyzing power [math][/math]

Power.jpg

Compton Scattering Differential Cross Section

The differential cross section for Compton scattering is given by the Klein-Nishina formula:

[math]\frac{d\sigma}{d\Omega} = \frac{1}{2} r_e^2 (P(E_\gamma,\theta) - P(E_\gamma,\theta)^2 \sin^2(\theta) + P(E_\gamma,\theta)^3)[/math]

Cross section.jpg

Energy of Scattered Photon

Compton.jpg

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