I am sitting in front of my desk, and photons are created on my screen and allow me to write those lines as I collect them with my eyes. Philosophical arguments about what they feel about their fate is not much part of a scientific discussion. Indeed, in the mathematical limit of a referential at light speed with respect to a given observer, proper time freezes. But no actual device can be brought to this limit physically.shelanachium said:However then does anything ever happen to a photon, as events must happen in time?
shelanachium said:As a photon travels at the speed of light, it does not experience time. For a photon the beginning and end of time are simultaneous.
However then does anything ever happen to a photon, as events must happen in time?
shelanachium said:As a photon travels at the speed of light, it does not experience time. For a photon the beginning and end of time are simultaneous.
However then does anything ever happen to a photon, as events must happen in time?
This argument falls short when you consider things that can happen to photons in between, such as refraction.lbrits said:You could argue, quite successfully I might add, that the photon is created here, destroyed there, and nothing happens to it in between.
Well, the time between interactions just becomes very short. Refraction in a material happens due to the absorbing and re-emitting of photons. You can visualize it as a born series of sort. In vacuum, the only thing you'd have to worry about is gravity, and in which case I will refer to my second point =)DaveC426913 said:This argument falls short when you consider things that can happen to photons in between, such as refraction.
Erich Schoedl said:PF mentors - please place a link to the main thread regarding "photon perspective" if you lock this one out. I couldn't find it.
Erich Schoedl said:But now I also believe the better argument would be that, since it is an entity with energy and information, that it should "experience" a minimum of the plank length of time, [...]
Here you are saying both that a photon experiences time and that it does not experience time. You say that As a photon travels at the speed of light, it does not experience time and then go on to say For a photon the beginning and end of time are simultaneous which implies one is comparing times and therefore time has a meaning for a photon. It is meaningless to say either than a photon does not experience time or that it does. No experiment can determine this since no clock can be at rest in a photon's frame of reference. The statement that the proper time between two lightlike events being zero is merely an extrapolation since a proper time interval between two events is the time as measured by a clock which passes through these two events. This is impossible when the events have a lightlike spacetime separation as are all the events on the worldline of a beam of light (or worldline of a photon).shelanachium said:As a photon travels at the speed of light, it does not experience time. For a photon the beginning and end of time are simultaneous.
However then does anything ever happen to a photon, as events must happen in time?
shelanachium said:As a photon travels at the speed of light, it does not experience time. For a photon the beginning and end of time are simultaneous.
However then does anything ever happen to a photon, as events must happen in time?
Because it's a bad analogy. Which is why it leads to trouble. This thread serves as an illustration of the principle that starting with a bad analogy leads to erroneous ideas.Usaf Moji said:Regarding locking threads that mention the perspective/frame of reference of photons/light, even though photon perspective is a fiction, can't we at least keep such discussions active for their assistance in illustrating principles? In other words, isn't it useful to just accept "perspective of a photon" as an academic crutch - like the idea of an asymptote, something that is never really reached but that can help one understand the thing that approaches the asymptote.
Because it's a bad analogy. Which is why it leads to trouble. This thread serves as an illustration of the principle that starting with a bad analogy leads to erroneous ideas. ]
DaveC426913 said:I made https://www.physicsforums.com/showpost.php?p=1684890&postcount=20" to explain this just last week.
No, the elevator analogy is a good analogy. It demonstrates how we observe photons as we move through time, while simultaneously demonstrating how the photons themselves do not experience time. QED.Usaf Moji said:I liked your elevator analogy - but are you saying now that this elevator analogy isn't any good?
No, the elevator analogy is a good analogy. It demonstrates how we observe photons as we move through time, while simultaneously demonstrating how the photons themselves do not experience time.
Photons are particles of light that have no mass and travel at the speed of light. They are the smallest units of light and have properties of both particles and waves.
Photons do not directly affect time, but their behavior is affected by the concept of time dilation. According to Einstein's theory of relativity, time appears to slow down for objects moving at high speeds, including photons. This is known as the time dilation effect.
No, photons cannot travel through time. Time is a dimension and photons can only move through the three spatial dimensions. However, the time dilation effect mentioned above can make it seem as if photons are traveling through time from an outside observer's perspective.
Crazy one is a term used to describe a hypothetical scenario where a person is able to travel at the speed of light. In this scenario, the person would experience the time dilation effect and would appear to be moving through time at a different rate than someone who is not moving at the speed of light. This concept is related to photons because they also experience the time dilation effect when traveling at the speed of light.
It is not possible for photons to exist without time. Time is a fundamental aspect of our universe and everything that exists within it, including photons, is affected by it. Furthermore, the properties of photons, such as their speed and frequency, are dependent on time.