Multiple Scattering in High Energy Physics Experiments

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SUMMARY

In high energy physics experiments, multiple scattering can involve more than two particles, particularly in proton-proton collisions where multi-parton interactions occur. When analyzing scattering events, researchers must consider both connected diagrams with eight external lines and the product of disconnected graphs with four external lines. While collisions typically involve one particle at a time, the possibility of collision products interacting with other particles exists, albeit with low probability. Understanding these interactions is crucial for accurate modeling of high-energy events.

PREREQUISITES
  • High Energy Physics principles
  • Quantum Field Theory basics
  • Diagrammatic techniques in particle physics
  • Understanding of multi-parton interactions
NEXT STEPS
  • Research the role of multi-parton interactions in proton-proton collisions
  • Study connected and disconnected Feynman diagrams in Quantum Field Theory
  • Explore the implications of collision products in high energy experiments
  • Learn about the behavior of partons in low versus high energy collisions
USEFUL FOR

Physicists, researchers in high energy physics, and students studying particle interactions will benefit from this discussion, particularly those focusing on scattering processes and multi-parton interactions.

geoduck
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In a high energy physics experiment, do you ever scatter more than 2 particles at a time?

Suppose you scatter 4 incoming particles and get 4 outgoing particles. Do you only look at connected diagrams with 8 external lines? Or do you also have to take into account the product of disconnected graphs with 4 external lines?

I know a beam of particles is used, but do the particles in the beam collide one at a time with the target, or can two particles in the beam collide at the same time with the target?
 
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geoduck said:
I know a beam of particles is used, but do the particles in the beam collide one at a time with the target, or can two particles in the beam collide at the same time with the target?
In principle, the collision products from one collision could hit another particle. This is extremely unlikely, however.

Something you can have in proton-proton collisions are multi-parton interactions, but at high energies even those are more like two separate event coming from the same protons.
At low energies, you can have interactions where the whole proton participates. If you consider that as collection of partons, you can probably say multiple incoming partons participated.
 

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