Do photons collide with each other like any other massive object?

  • Thread starter Ahmed Abdullah
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In summary, photons do not collide with each other like any other massive object. As particles of light, photons do not have mass and therefore do not experience collisions in the traditional sense. Instead, they interact through electromagnetic forces, such as absorption, emission, and scattering. This behavior is explained by quantum mechanics and has been confirmed through experiments and observations. While photons may not physically collide, they can still interact and affect each other's paths and properties.
  • #1
Ahmed Abdullah
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If they do:
-Do the collisions obey Newton's law of motion.
If they don't, why?
What is the difference between a real particle and photon ?
-We know that they both got mass ( photons have relativistic mass E/c^2).
What is the significance of this mass? What does it imply?

Any help will be highly appreciated. Thx
 
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  • #2
1. Photons obey the laws of relativistic quantum field theory, including photon-photon scattering.
2. The photon is as real as any other particle, but has zero mass.
3. Photons do not "have relativistic mass E/c^2". That is an archiac notion, inappropriate in relativistic quantum field theory.
4. That mass has no significance. Its only implication is confusion.
 
  • #3
so it's possible that two electron collided and bounched off...
 
  • #4
by the way what do you mean by the word "other particle"? What is a particle?
 
  • #5
"Photon collisions" have been discussed in a recent thread here:

https://www.physicsforums.com/showthread.php?t=219619

Photons are about as non-Newtonian as one can imagine. After all, they originated in quantum theory, and are fully described only in relativistic quantum field theory.
 
  • #6
A collision on a micro perspective are just forces bouncing each other off. I don't think photons have any such forces which can make them bounce, otherwise it would be easily observed by letting two light rays cross each other. Hence they only act like a superposition of waves when in the same space. Also according to pauli exclusion principles, there's no limit to how many photons may occupy the same state.
 
  • #7
Photons can interact with each other via a process that involves virtual electrons and positrons. I included a diagram of it in this post in the thread that I referred to earlier. This process has a very small cross-section (probability) and is difficult to observe.
 

1. Do photons have mass?

No, photons do not have mass. They are particles of light that travel at the speed of light and have no rest mass.

2. Can photons collide with each other?

Yes, photons can collide with each other. However, due to their properties, the collisions are different from those of massive objects. Photons do not experience the same type of force that massive objects do, so their collisions are not like those of massive objects.

3. What happens when photons collide?

When photons collide, they can either be absorbed, scattered, or create new particles. This depends on the energy and properties of the photons involved in the collision.

4. How do photons interact with each other?

Photons interact with each other through the electromagnetic force. This force is responsible for mediating the interactions between all charged particles, including photons. Photons can also interact with each other through the creation of virtual particles.

5. Are there any experiments that have shown photons colliding with each other?

Yes, there have been experiments that have observed photon-photon collisions. One example is the Large Hadron Collider (LHC) at CERN, where scientists have observed photon-photon interactions through the creation of new particles. However, these collisions are not as common or easily observable as collisions between massive objects.

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