Difference between revisions of "Limits based on Mandelstam Variables"

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<center><math>s+t+u \equiv 4m^2</math></center>
 
<center><math>s+t+u \equiv 4m^2</math></center>
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Since
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<center><math>s \equiv 4(m^2+\vec p \ ^{*2})</math></center>
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This implies
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<center><math>s \ge 4m^2</math></center>

Revision as of 23:42, 9 June 2017

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Limits based on Mandelstam Variables

Since the Mandelstam variables are the scalar product of 4-momenta, which are invariants, they are invariants as well. The sum of these invariant variables must also be invariant as well. Find the sum of the 3 Mandelstam variables when the two particles have equal mass in the center of mass frame gives:


[math]s+t+u=(4(m^2+\vec p \ ^{*2}))+(-2 p \ ^{*2}(1-cos\ \theta))+(-2 p \ ^{*2}(1+cos\ \theta))[/math]


[math]s+t+u \equiv 4m^2[/math]


Since

[math]s \equiv 4(m^2+\vec p \ ^{*2})[/math]


This implies

[math]s \ge 4m^2[/math]
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