Ιn the reaction X + A->Υ + Β A, B are baryons (or antiparticles) consisting of 1st and 2nd generation quarks of your choice. Find possible combinations for elementary particles X, Y, the type of interaction, and Feynman diagrams, and finally, explain how the Feynman diagrams that you found are related to the Mandelstam variables. It is given that: There are at least two possible combinations. The initial and final states are not the same. Particle and antiparticle do not collide. Repeat also for the case that A,B are leptons (or antiparticles).
Ιn the reaction X + A->Υ + Β
A, B are baryons (or antiparticles) consisting of 1st and 2nd generation quarks of your choice.
Find possible combinations for elementary particles X, Y, the type of interaction, and Feynman diagrams, and finally, explain how the Feynman diagrams that you found are related to the Mandelstam variables.
It is given that:
There are at least two possible combinations.
The initial and final states are not the same.
Particle and antiparticle do not collide.
Repeat also for the case that A,B are leptons (or antiparticles).
Baryons are member of hadron. Hadrons are composed of quarks, and Baryons made up of three quarks, and that's why they are heavy subatomic particles. Because Baryons have half integer spin, they are classified as fermions.
The most familiar Baryons are protons and neutrons, both of which contain three quarks. They called triquarks.
The reaction given:
Here, and are the baryons. and are the elementary particles.
Particles and may be Baryons family or Mason family.
Step by step
Solved in 5 steps with 4 images
