Difference between revisions of "Scattering Cross Section"

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<center><math>and\ d\Omega=\sin{\Theta}\,d\Theta\,d\Phi</math></center>
 
<center><math>and\ d\Omega=\sin{\Theta}\,d\Theta\,d\Phi</math></center>
  
=Tranforming Cross Section=
+
=Transforming Cross Section Between Frames=
 
Transforming the cross section between two different frames of reference has the condition that the quantity must be equal in both frames.  
 
Transforming the cross section between two different frames of reference has the condition that the quantity must be equal in both frames.  
  

Revision as of 18:20, 1 February 2016

Scattering Cross Section

[math]d\sigma = \frac{number\ of\ particles\ scattered\ / sec\ into\ d\Omega\ at\ \Theta , \Phi}{number\ of\ particles\ /cm^2\ /sec\ in\ incoming\ beam} = I(\Theta,\Phi)d\Omega[/math]


[math]where\ \frac{d\sigma}{d\Omega}\equiv differential\ scattering\ cross\ section[/math]


[math]and\ \int\limits_{\Theta=0}^{\pi} \int\limits_{\Phi=0}^{2\pi} \left(\frac{d\sigma}{d\Omega}\right)\ d\Omega \equiv total\ scattering\ cross\ section[/math]


[math]and\ d\Omega=\sin{\Theta}\,d\Theta\,d\Phi[/math]

Transforming Cross Section Between Frames

Transforming the cross section between two different frames of reference has the condition that the quantity must be equal in both frames.


[math]d\sigma=I_{lab}(\Theta_{lab},\ \Phi_{lab})\, d\Omega_{lab}=I_{CM}(\Theta_{CM},\ \Phi_{CM})\, d\Omega_{CM}[/math]

Since the number of particles per second going into the detector is the same for both frames. (Only the z component of the momentum and the Energy are Lorentz transformed)


This is that the number of particles going into the solid-angle element d\Omega and having a moentum between p and p+dp be the same as the number going into the correspoiding solid-angle element d\Omega^* and having a corresponding momentum between p^* and p*+dp*


[math]\left( \begin{matrix} E^* \\ p^*_{x} \\ p^*_{y} \\ p^*_{z}\end{matrix} \right)=\left(\begin{matrix}\gamma^* & 0 & 0 & -\beta^* \gamma^*\\0 & 1 & 0 & 0 \\ 0 & 0 & 1 &0 \\ -\beta^*\gamma^* & 0 & 0 & \gamma^* \end{matrix} \right) . \left( \begin{matrix}E_{1}+E_{2}\\ p_{1(x)}+p_{2(x)} \\ p_{1(y)}+p_{2(y)} \\ p_{1(z)}+p_{2(z)}\end{matrix} \right)[/math]
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