Difference between revisions of "Phase space Limiting Particles"
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Since the momentum in the CM frame is a constant, this implies that pz must decrease. We can use the variable rapidity: | Since the momentum in the CM frame is a constant, this implies that pz must decrease. We can use the variable rapidity: | ||
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<center><math>y \equiv \frac {1}{2} \ln \left(\frac{E+p_z}{E-p_z}\right)</math></center> | <center><math>y \equiv \frac {1}{2} \ln \left(\frac{E+p_z}{E-p_z}\right)</math></center> | ||
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this implies that as | this implies that as | ||
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<center><math>p_x^2+p_y^2=52.589054^2+9.272868^2=53.400MeV > 53.015 MeV (E) \therefore p_z \rightarrow imaginary</math></center> | <center><math>p_x^2+p_y^2=52.589054^2+9.272868^2=53.400MeV > 53.015 MeV (E) \therefore p_z \rightarrow imaginary</math></center> | ||
− | These particles are outside the light cone and are more timelike, thus not visible in normal space. This will reduce the | + | These particles are outside the light cone and are more timelike, thus not visible in normal space. This will reduce the range in theta that Moller electrons will be detected. |
Latest revision as of 16:47, 26 July 2017
4.1.2 Phase space Limiting Particles
Since the angle phi has been constrained to remain constant, the x and y components of the momentum will increase in the positive first quadrant. This implies that the z component of the momentum must decrease by the relation:
In the Center of Mass frame, this becomes:
Since the momentum in the CM frame is a constant, this implies that pz must decrease. We can use the variable rapidity:
this implies that as
For forward travel in the light cone:
This corresponds to the scattered electron proven earlier.
For backward travel in the light cone:
Similarly, this corresponds to the Moller electron.
For a particle that transforms from the Lab frame to the CM frame where the particle is not within the light cone:
These particles are outside the light cone and are more timelike, thus not visible in normal space. This will reduce the range in theta that Moller electrons will be detected.