Difference between revisions of "Limits based on Mandelstam Variables"
Jump to navigation
Jump to search
Line 56: | Line 56: | ||
− | <center><math>cos\ \theta = 1 \qquad cos\ \theta = -1</math></center> | + | <center><math>\cos\ \theta = 1 \qquad \cos\ \theta = -1</math></center> |
− | <center><math> | + | <center><math>\Rightarrow \theta_{t=0} = \arccos \ 1=0^{\circ} \qquad \theta_{u=0} = \arccos \ -1=180^{\circ}</math></center> |
Revision as of 23:58, 9 June 2017
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:
Since
This implies
In turn, this implies
At the condition both t and u are equal to zero, we find