Coherent Photons: Uncertainty and Locality

In summary: If you think about it, this is a coherent state for a massive particle. In summary, the concept of coherence in lasers refers to having many photons in the same quantum state, rather than being physically located at the same spot. Due to the principle of uncertainty, the exact position of photons cannot be defined, so coherence is not about their positions. Additionally, the coherence of photons in a laser is based on their shared quantum state, rather than individual states for each photon.
  • #1
Marrrrrrr
4
0
I understand that laser is based on the phenomenon of coherence. But I wonder how, say, two photons could be said to be located at the exact same spot when their locations could not be precisely defined due to the principle of uncertainty.

To specify, which between the following two would be closer to the truth?

(1) They are "roughly" located at the same spot, which is enough for practical purposes.

(2) They are quite literally at the exact same spot, although it is not well-defined precisely at which spot they are colocated.
 
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  • #2
Marrrrrrr said:
I wonder how, say, two photons could be said to be located at the exact same spot

They can't. But that's not what "coherence" means. It means, heuristically, that you have many photons in the same quantum state, not many photons at the same position.
 
  • #3
PeterDonis said:
They can't. But that's not what "coherence" means. It means, heuristically, that you have many photons in the same quantum state, not many photons at the same position.
Okay, thanks. But isn't it that one of those quantum states they share is about their positions?
 
  • #4
Marrrrrrr said:
isn't it that one of those quantum states they share is about their positions?

There is only one quantum state involved. Strictly speaking, it's not a state that is "shared" by all the photons: it's a single quantum state of the many-photon system. (Really strictly speaking, this state does not even have a definite photon number, but that's probably going deeper than we need to here.)

As for position, there is no well-defined position operator for photons (or for any massless particles), so no, the quantum state in question is not about positions in any useful sense.
 
  • #5
Marrrrrrr said:
I understand that laser is based on the phenomenon of coherence. But I wonder how, say, two photons could be said to be located at the exact same spot when their locations could not be precisely defined due to the principle of uncertainty. ...

:welcome:

Presumably you know that the photons in a laser are said to be in phase, and will have the same polarization.
 

Related to Coherent Photons: Uncertainty and Locality

What is the concept of coherent photons?

Coherent photons refer to a type of photon that has a consistent frequency and phase relationship. This means that all the photons are in phase with each other, resulting in a well-defined and regular wave pattern.

How does the concept of coherence relate to uncertainty in photons?

The concept of coherence is closely related to the uncertainty principle in photons. This principle states that it is impossible to know the exact position and momentum of a photon at the same time. Coherent photons have a well-defined frequency and phase, but the more precisely we know these properties, the less certain we are about the photon's position and momentum.

What is the significance of locality in coherent photons?

Locality refers to the idea that the properties of a photon at one point in space do not affect the properties of another photon at a different point in space. This is important in the study of coherent photons because it allows us to understand the behavior of individual photons independently, rather than being influenced by other photons in the system.

How are coherent photons used in practical applications?

Coherent photons have many practical applications, such as in fiber optic communication, laser technology, and holography. Coherent light sources are also used in interferometry, which is a measurement technique that utilizes the interference patterns of coherent photons to make precise measurements.

What are some current research topics related to coherent photons?

Some current research topics related to coherent photons include quantum entanglement, which explores the non-local correlations between quantum systems, and quantum computing, which utilizes the properties of coherent photons to perform calculations. Other areas of research include quantum cryptography and quantum teleportation.

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