Difference between revisions of "Scattering Cross Section"
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=Transforming Cross Section Between Frames= | =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. This is due to the fact that |
+ | <center><math>sigma=\frac{N}{\mathcal L}=constant\ number</math></center> | ||
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+ | Since this is just a ratio of detected particles to total particles, this gives the cross section as a relative probablity of a scattering, or reaction, to occur. | ||
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+ | This makes the total cross section a Lorentz invariant in that it is not affected by any relativistic transformations | ||
+ | |||
+ | <center><math>\therefore\ \sigma_{CM}=\sigma_{Lab}</math></center> | ||
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<center><math>d\sigma=I_{lab}(\theta_{lab},\ \phi_{lab})\, d\Omega_{lab}=I_{CM}(\theta_{CM},\ \phi_{CM})\, d\Omega_{CM}</math></center> | <center><math>d\sigma=I_{lab}(\theta_{lab},\ \phi_{lab})\, d\Omega_{lab}=I_{CM}(\theta_{CM},\ \phi_{CM})\, d\Omega_{CM}</math></center> | ||
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Revision as of 21:26, 2 February 2016
Scattering 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. This is due to the fact that
Since this is just a ratio of detected particles to total particles, this gives the cross section as a relative probablity of a scattering, or reaction, to occur.
This makes the total cross section a Lorentz invariant in that it is not affected by any relativistic transformations
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*