Photon-Photon Coupling (Gamma-Gamma)

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In summary, at sufficiently high energies, photons can interact with each other through the temporary creation of an electron-positron pair. This interaction is only significant at high energies and is a result of the quantum electromagnetic field. There is no analogy to the Pauli Exclusion Principle in this type of interaction.
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sanman
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So I've read that at sufficiently high energies, photons will interact with each other rather than passing through each other in the usual ghostly ways.

So in these situations, is constructive/destructive interference still possible? What is the threshold where it might stop, for practical purposes? (ie. what frequency or photonic energy level?)

Is there some energy where 2 photons would collide like hadrons would?

Is this type of coupling purely due to EM potential, or is there anything analogous to Pauli Exclusion Principle that could happen?
 
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sanman said:
I've read

Can you give a specific reference? That always helps.

sanman said:
at sufficiently high energies, photons will interact with each other rather than passing through each other in the usual ghostly ways

More precisely, there is an amplitude for photons to interact with each other, but it's way too small to observe at everyday energies and only becomes significant at high energies. One way to think about what is going on is to think of the interaction as involving the temporary creation of an electron-positron pair: a pair of incoming photons turns into an electron-positron pair, then the pair annihilates and creates a pair of outgoing photons. To us this looks like two photons interacting with each other (because we don't observe the temporary electron-positron pair), but of course there has to be enough energy to create the electron-positron pair (more precisely, to have a significant amplitude for pair creation) for the interaction to be significant.

sanman said:
in these situations, is constructive/destructive interference still possible?

It's always possible; it's a fundamental feature of quantum amplitudes.

sanman said:
Is there some energy where 2 photons would collide like hadrons would?

I don't understand what you mean. The interaction involved is the electromagnetic interaction, not the strong interaction.

sanman said:
Is this type of coupling purely due to EM potential

I'm not sure what you mean here either. It's the quantum electromagnetic field.

sanman said:
is there anything analogous to Pauli Exclusion Principle that could happen?

No, because there are not multiple fermions of the same type present.
 

Related to Photon-Photon Coupling (Gamma-Gamma)

1. What is photon-photon coupling?

Photon-photon coupling, also known as gamma-gamma coupling, is the interaction between two photons. This phenomenon occurs when two photons, which are particles of light, interact with each other and exchange energy and momentum.

2. How does photon-photon coupling occur?

Photon-photon coupling occurs through a process known as two-photon physics. This involves the interaction of two photons at high energies, which allows the photons to interact with each other and create new particles such as electron-positron pairs.

3. What are the applications of photon-photon coupling?

Photon-photon coupling has various applications in many fields, including particle physics, quantum optics, and astrophysics. It is also being studied for potential use in developing new technologies such as quantum computing and high-energy lasers.

4. Can photon-photon coupling be observed in everyday life?

Photon-photon coupling can only be observed in extreme conditions, such as high-energy collisions between subatomic particles. It is not something that can be observed in everyday life or in ordinary light sources.

5. What is the significance of studying photon-photon coupling?

Studying photon-photon coupling helps us to better understand the fundamental laws of physics and how particles interact with each other. It also has practical applications in various fields and could potentially lead to advancements in technology.

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