Photon acceleration(or acceleration wrt photons)

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SUMMARY

The discussion centers on the behavior of photons as they transition between different media and the implications for their speed and energy. It is established that while photons do not slow down in a medium, the apparent decrease in light speed is due to changes in group velocity, not frequency. The relationship between speed, wavelength, and frequency is clarified with the equation c = wavelength x frequency. Additionally, the concept of acceleration in the context of photons is debated, particularly regarding their interaction with reflective surfaces.

PREREQUISITES
  • Understanding of wave-particle duality of light
  • Familiarity with the concepts of group velocity and phase velocity
  • Knowledge of the relationship between wavelength, frequency, and speed of light
  • Basic principles of refraction and reflection in optics
NEXT STEPS
  • Research the principles of wave-particle duality in quantum mechanics
  • Study the differences between group velocity and phase velocity in various media
  • Explore the implications of the equation c = wavelength x frequency in optical physics
  • Investigate the behavior of photons during reflection and its effects on energy
USEFUL FOR

Physicists, optical engineers, and students studying quantum mechanics or optics will benefit from this discussion, particularly those interested in the behavior of light in different media and its fundamental properties.

Silverious
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When a photon changes mediums it's speed wrt to c changes correct?

So dv/dt = a (d as in delta). So how long does it take a photon to "pass through" one medium into another, and is this considered acceleration.

Also if it doesn't "pass through" one medium to another(meaning it isn't like shooting a bullet into water, instead it just "is") then how CAN you determine the dv if there is no dt?

And who accelerates? The photons or the medium?
 
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If you insist on using photons, the change is intantaneous, since the photon is massless. But really, the wave nature of light is better adapted to the subject of refraction.
 
I don't know why but I just don't really buy it.

There's got to be something else going on.

Photons also have energy though. How is this effected by it's speed? And how does that effect vary as it moves between mediums?
 
Photons DO NOT slow down in a medium!

The apparent decrease of light (as in the wave nature of light) in a medium is when we measure the GROUP VELOCITY of light, which is the only way we can make a determination of what is being measured. It is this group velocity that changes upon entering and leaving a medium. In a vacuum, the phase velocity and group velocity are the same.

Zz.
 
Silverious said:
Photons also have energy though. How is this effected by it's speed? And how does that effect vary as it moves between mediums?

Silverious;
The energy (frequency) of a photon doesn't need to change. You can see it easier in terms of waves; the reason the speed changes in different media is not due to an energy (frequency) change, but rather due to a change in WAVELENGTH. Since c = wavelength x freq., then c can change as wavelength changes without a change in frequency.

Creator
 
Last edited:
New Question: How about when they are reflected off a mirror? Does acceleration not occur then?
 
Do you think photons are like tennis balls ? It is not the same photons in one direction and in the other.
 

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