Difference between revisions of "Limit of Energy in Lab Frame"
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<center><math>t=2(m^{2}-E_1^{*2})=2(m^{2}-E_2^{*2})</math></center> | <center><math>t=2(m^{2}-E_1^{*2})=2(m^{2}-E_2^{*2})</math></center> | ||
− | ==<math>\ | + | ==<math>\theta=180^{\circ}</math>== |
=In the Lab Frame= | =In the Lab Frame= |
Revision as of 17:20, 15 March 2018
The t quantity is known as the square of the 4-momentum transfer
In the CM Frame
where and is the angle between the before and after momentum in the CM frame
Using the relativistic relation this reduces to
The maximum momentum is transfered at 90 degrees, i.e.
This can be rewritten again using the relativistic energy relation
In the Lab Frame
with
and
Maximum Moller Energy in Lab Frame
Since t is invariant between frames
with for
The Moller electron has a maximum energy possible of: