Why photons are free from decoherence?

In summary, photons are mostly free from decoherence because they do not interact with each other directly and have minimal interactions with their environment, such as in glass. This is in contrast to other particles, like electrons, which have stronger interactions due to their charge. There are several possible reasons for this behavior, such as their quantized energy and bosonic properties. However, this also means that it is challenging to use photons for logic gates with two qubits, as they have limited interactions. One possible solution is to use atoms to mediate the interactions between photons.
  • #1
gioialorusso
9
0
Hi everybody,
which are the physical laws that make photons free from decoherence? I only read about the fact that photons have no charge, but why this implies no decoherence?
Thanks you all,
gioia
 
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  • #2
Photons are mostly free of decoherence because they do not interact with each other directly and we have many materials in which photons interact minimally with their environment, like glass. This is in contrast to most other particles, such as electrons. In a vacuum far away from any other influences, an electron would also be free of decoherence. However, in the real world, electrons interact very strongly with their environment (because of their charge), leading them to lose, for instance, whatever information they were carrying. This is a very simple answer regarding a very complicated subject, but I hope this answers your question.
 
  • #3
you have been very clear and your explanation is reasonable, thank you. are there physics motivation to this behave? like, i don't know, their quantized energy, their bosonic properties..? I read also that photons interact very little with each other directly, so is very difficult to realize logic gates with two qubit, is it right? and for make them interact, are there some solution? (like using an atom to make them interact via this atom?)
thank you very very much.
 

1. What is decoherence?

Decoherence is a process in quantum mechanics where the wave function of a system becomes entangled with its environment, resulting in the loss of coherence and causing the system to behave classically.

2. Why are photons free from decoherence?

Photons are particles of light that do not interact strongly with their environment. They are electrically neutral and do not have any internal structure, making it difficult for them to become entangled with other particles and causing decoherence. Additionally, photons travel at the speed of light, making it difficult for interactions with other particles to occur.

3. How does the wave-particle duality of photons contribute to their immunity to decoherence?

As both a wave and a particle, photons have a dual nature that allows them to behave differently in different situations. In the case of decoherence, the wave-like nature of photons makes it difficult for them to become entangled with other particles, preventing the loss of coherence.

4. Can photons ever experience decoherence?

While photons are generally immune to decoherence, there are certain situations where they can experience it. For example, in the presence of strong gravitational fields or in certain types of materials, photons may become entangled and experience a loss of coherence.

5. How is the concept of superposition related to the immunity of photons to decoherence?

Superposition is the principle that a particle can exist in multiple states simultaneously, and it is a key concept in quantum mechanics. Photons, as particles that can exist in multiple states, are less susceptible to decoherence because they are already in a state of superposition, making it difficult for them to become entangled with their environment.

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