4.4 e* e - e* e Scattering. In this chapter, we discussed the details of the (lowest-order) Feynman diagram for the process e* e - u* H. In this exercise, we will study the process e* e - e* e. Using the Feynman rules, draw all of the Feynman diagrams for e* e - e* e scattering, called Bhabha scattering. 7 Each diagram should contain only one internal photon, and be sure to clearly label the momentum of each external particle. Hint: Unlike e* e - µ* p scattering, there is more than one Feynman diagram for e* e - e* e scattering.
4.4 e* e - e* e Scattering. In this chapter, we discussed the details of the (lowest-order) Feynman diagram for the process e* e - u* H. In this exercise, we will study the process e* e - e* e. Using the Feynman rules, draw all of the Feynman diagrams for e* e - e* e scattering, called Bhabha scattering. 7 Each diagram should contain only one internal photon, and be sure to clearly label the momentum of each external particle. Hint: Unlike e* e - µ* p scattering, there is more than one Feynman diagram for e* e - e* e scattering.
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Transcribed Image Text:4.4 e* e e* e Scattering. In this chapter, we discussed the details of the (lowest-order) Feynman
diagram for the process e* e - µ* p. In this exercise, we will study the process e* e - et e.
Using the Feynman rules, draw all of the Feynman diagrams for e* e - et e scattering, called
Bhabha scattering. 7 Each diagram should contain only one internal photon, and be sure to clearly
label the momentum of each external particle.
Hint: Unlike e* e - µ* p scattering, there is more than one Feynman diagram for et e - e* e
scattering.
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