'Photons only exist at the moment they are emitted or absorbed' ()

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In summary, the conversation discusses the concept of photons and whether they exist in the electromagnetic field when not interacting with matter. There are speculations about 'free' photons and the idea that they only exist at the moment of emission or absorption. Some argue that this is an absurd use of language, while others believe it is a valid way of thinking. The question is posed to experts to gather their thoughts on the matter, with some suggesting that photons have no particulate existence in flight and are only localizable at the time of creation and absorption. Ultimately, the existence of photons is a question that can only be answered by quantum theory, as experiments can only tell us how accurately a theory predicts the results of experiments."
  • #1
DrGreg
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Mentz114 said:
"Photons" only exist at the moment they are emitted or absorbed i.e. when they interact with matter. There is no evidence ( nor any way of getting any ) that photons exist in the EM field when it is not interacting with matter.

Speculations about 'free' photons usually lead to apparent contradictions, as evidenced by your question.
This remarkable claim was made over in the "Special & General Relativity" forum of this site, in post #3 of this thread, and then subsequently discussed in posts #9, #11, #16, and all posts from #19 onwards in that thread. Please read those posts and then respond here.

To my way of thinking, this is absurd use of language. But sometimes absurd things happen in quantum theory so I'm posing the question here to see what experts think.

As I understand it, the claim is based on the premise that photons can be measured only by emission or absorption. I can accept that premise, and photons are considered to take all possible routes between those events so it is impossible to determine the position of a photon between emission and absorption. But to claim that because we choose not to measure a photon's position then the photon "does not exist" seems to me to be an abuse of the English language. The claim seems to suggest that the lifetime of a photon is:

1. Photon emitted
2. Photon immediately ceases to exist
3. Some time later, photon comes back into existence
4. Photon is immediately absorbed.

That just sounds like nonsense to me. Just because we choose not to detect a photon between two events A and B does not mean we could not have detected the photon had we tried to do so. If we tried, we would succeed, but then event B would not occur because our detection would have absorbed the photon.

Am I talking sense, or is the original quote in this post actually meaningful?

(My knowledge of quantum theory isn't too deep, but I understand the basics.)
 
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  • #2
DrGreg: I hope I'm not out of step by asking about this concept, but in what direction does the initial and final EM field make its change during emission and absorption of the photon, or is the dirction known.
 
  • #3
I am a bit puzzled. How are weak or qnd measurements like the one quoted below explained in a framework, in which there is no photon between emission and detection?

See for example:
"Progressive field-state collapse and quantum non-demolition photon counting"
Nature 448, 889-893 (23 August 2007)
 
  • #4
DrGreg said:
This remarkable claim was made over in the "Special & General Relativity" forum of this site, in post #3 of this thread, and then subsequently discussed in posts #9, #11, #16, and all posts from #19 onwards in that thread. Please read those posts and then respond here.

To my way of thinking, this is absurd use of language.

This is a copenhaiganist world view. The fact is that all observed behavior is the interaction. Thus one can always take the view this is all one can know and therefore there is no ``proof'' of existence. This gets extended to things blinking in an out of reality, particles no longer have a physical path, etc.

It is more than an absurd use of language, I find it an absurd way of thinking. Don't try to understand it or debate about it as there is no fundamental common ground if you believe in a continuous consistent fundamental reality outside oneself.
 
  • #5
I'd agree that saying a photon "doesn't exist" in flight is just silly. However, I think I heard that in situations involving interference or multiple coherent photons, as in a laser, the photons being absorbed can often be considered as combinations (loosely speaking "sums and differences") of those emitted rather than each one arising from a specific emitted photon, so the wave in flight may represents a number of mixed-up photons rather than a collection of independent particles. That might be rather loose terminology. Can anyone clarify the official situation, please?
 
  • #6
Do photons exist? Since photons are defined by QED, the question can only be answered by QED (if it can be answered at all). Experiments won't tell us the answer. Experiments can only tell us how accurately a theory predicts the results of experiments.

So does QED say that photons exist? I can't really answer that without a definition of what it means to "exist", but I'm tempted to answer "yes", just because we're dealing with a Hilbert space that contains photon states.
 
  • #7
Well, I've been called 'silly' a few times above so I have to respond. I persist in believing that photons, have no particulate existence in flight. Obviously the energy of the photon, and its momentum and polarization etc still exist. But it is only localizable at the time of creation and absorption.

DrGreg,
your unprecedented attack is based on a misrepresentation,
1. Photon emitted
2. Photon immediately ceases to exist
3. Some time later, photon comes back into existence
4. Photon is immediately absorbed.

That is not what I said ! And I strongly object to this misrepresentation.

Your error is in step 3. A photon does not spontaneously come into being. An atom absorbs and that process CREATES a photon for as long as it takes to be absorbed.

This what I said

1. Photon emitted by atom
2. Photon's energy momentum etc join field
3. Some time later, an atom absorbs a quantum
4. Photon exist only while absorption is happening.

All the dynamics are in the creation and absorption events.
There are no free photons !
 
  • #8
enotstrebor said:
This is a copenhaiganist world view. The fact is that all observed behavior is the interaction. Thus one can always take the view this is all one can know and therefore there is no ``proof'' of existence. This gets extended to things blinking in an out of reality, particles no longer have a physical path, etc.
In what exactly is Physics different from other kinds of philosophies? In the fact that physical objects exists only if you can measure them. Of what you cannot measure, you can have theories, and however, these theories must be proven experimentally, one day or the other, otherwise they are of little usefulness (for Physics). Do you agree with it?
 
  • #9
DrGreg said:
That just sounds like nonsense to me. Just because we choose not to detect a photon between two events A and B does not mean we could not have detected the photon had we tried to do so. If we tried, we would succeed, but then event B would not occur because our detection would have absorbed the photon.
Why you can't describe that in terms of an EM field interacting with the detector in the place you put it?
 
  • #10
Jonathan Scott said:
I'd agree that saying a photon "doesn't exist" in flight is just silly. However, I think I heard that in situations involving interference or multiple coherent photons, as in a laser, the photons being absorbed can often be considered as combinations (loosely speaking "sums and differences") of those emitted rather than each one arising from a specific emitted photon, so the wave in flight may represents a number of mixed-up photons rather than a collection of independent particles. That might be rather loose terminology. Can anyone clarify the official situation, please?
We can always discuss a situation where only a single photon is present from source and detector, if we make the time interval between two consecutive detection be greater than L/c, L = distance source-detector.
 
  • #11
I have a far more humble measure of understanding of quantum phenomena than the other people here but what Mentz114 is saying makes sense to me. It seems to me a violation of scientific rigor to insist that we're certain that the photon still exists as a "probability cloud" or something like that.

I should think that the best we can really say is that that there is some causal connection between the emission of the photo and its absorption. Making concrete statements like "between emission and absorption the photon is in flight between locations" appears to exceed our purview. Whether the unseen underlying mechanism were Mentz114's analogy of the cup of water joining the ocean or something outré and science-fictiony, like "reality is just an information matrix and the emission is simply an event that causes a cosmic reality accountant somewhere to note down that they have to manifest an absorption event at some point" it appears that there are a variety of possibilities other than the photon existing in flight as a definite entity discrete from the rest of the universe.

Now that's definitely the way we'd intuitively expect the universe to work, based upon things we learned as infants. But the rigor of science does not permit us the luxury of assuming that the photon still exists when it rolls behind the couch. http://www.runemasterstudios.com/graemlins/images/whaat.gif [Broken]
 
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  • #12
lightarrow said:
In what exactly is Physics different from other kinds of philosophies? In the fact that physical objects exists only if you can measure them. Of what you cannot measure, you can have theories, and however, these theories must be proven experimentally, one day or the other, otherwise they are of little usefulness (for Physics). Do you agree with it?
I don't agree with this. First of all, you don't "prove" a theory. All you can do is to find out how accurately it predicts the results of experiments. Second, the phrase "of what you cannot measure, you can have theories" suggests that you can have something more than a theory about those things you can measure. You can't. In physics there's nothing better than a theory.

That phrase also suggests that you can have theories about just about anything that can't be measured. You probably didn't mean to suggest that, but I'm still going to point out that a "theory" that contains unmeasurable quantities that don't directly influence the results of experiments shouldn't be called a theory. I'd call it a "collection of thoughts" or something like that.
 
  • #13
I can see why this point of view makes sense to some. However, I guess it also depends on what you mean by "exist" (I guess this is why this thread is in the philosphy forum).

There are various ways of indirectly "sensing" photons without destroying them. One way is to use a cavity which contains a nonlinear medium and create a number state at a resonance with frequency [tex]f_0[/tex]. Due to the nonlinear medium (as far as I remember it is enough to have a Kerr-like term in the Hamiltonian) it is now possible to count the number of photons with frequency [tex]f_0[/tex] in the cavity probing it at a frequency [tex]2f_0[/tex], i.e. without neither creating nor destroying photons at the fundamental [tex]f_0[/tex].

However, of course one could argue that we are not really "seeing" the photons at [tex]f_0[/tex]. since this is a indirect measurement but that argument could be applied to everything (no one has actually seen an electron either) so it is not very productive.
 
  • #14
can't you change the path or polarization of the photon in flight without absorbing it? that would indicate that it existed somewhere between here and there.
 
  • #15
Do I exist in between postings to the PF ?

Well, we've been bounced to the Philosophy sub-forum. I suppose that is just, because it matters not one bit if one person believes that photons have independent existence and another believes the opposite. There is nothing to be vehement about, nothing to justify the use of unkind exclamation points. To DrGreg I say, peace to you bro, and let others hold differing views, even if they irritate you. In the end experiment will guide us to such truths as we are capable of understanding.

f95toli:
Thanks for that. The cavity/cold atom laboratory probably is where these things can be settled.

This thread has some good stuff

https://www.physicsforums.com/showthread.php?t=130365&page=2
 
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  • #16
Fredrik said:
I don't agree with this. First of all, you don't "prove" a theory. All you can do is to find out how accurately it predicts the results of experiments. Second, the phrase "of what you cannot measure, you can have theories" suggests that you can have something more than a theory about those things you can measure. You can't. In physics there's nothing better than a theory.
Ok, maybe I'm not so good in expressing concepts, then I let you find a better way of saying that, between the theory "light rays coming from stars are not seen curved by a massive object as the sun" and General Relativity, you would choose the second instead of the first.
That phrase also suggests that you can have theories about just about anything that can't be measured. You probably didn't mean to suggest that, but I'm still going to point out that a "theory" that contains unmeasurable quantities that don't directly influence the results of experiments shouldn't be called a theory. I'd call it a "collection of thoughts" or something like that.
About this I agree with you: saying that photons always exist from source to detector, it's not even a theory, just an idea...
 
  • #17
lightarrow said:
About this I agree with you: saying that photons always exist from source to detector, it's not even a theory, just an idea...
That's not at all what I said. It's almost the opposite of what I said. The photons described by the theory do interact with matter, so they do affect the result of experiments. That's why they are a valid concept in a theory of physics.

To really discuss if something exists or not, you really need a definition of what it means to exist. I have some ideas about how that can be done, and I'll post them later, but I don't have time right now. For now, I'll just say that I'm surprised that some of you support the view that photons don't exist when they're not being measured. You usually hear claims like that from people who don't understand what a theory is.

I have a few questions for you guys. I'd like to understand what you're really saying.

1. Are you talking about the photons defined by QED, or about the objects in the real world that correspond to the theoretical photons? If it's the latter, then how do you define that concept?
2. I assume that photons are not the only things that you would claim don't exist. What exactly is the set of "things" that you think only exist when they are being measured?
3. What makes you think that the chair you're sitting on exists?
 
  • #18
"Exists when being measured" is only one particular subset of "exists when emitted or absorbed" in this context, I think.
 
  • #19
Fredrik said:
That's not at all what I said. It's almost the opposite of what I said. The photons described by the theory do interact with matter, so they do affect the result of experiments.
What interacts with matter is the light emitted by a source. The energy of this interaction is quantized. This what you know. Then, you can describe the process as due to flying corpuscoles, but this, at the moment, is just a description and nothing more, until you prove it.
That's why they are a valid concept in a theory of physics.

To really discuss if something exists or not, you really need a definition of what it means to exist.
Exactly. Isn't this an important subject? Shouldn't physicists discuss about what they are talking about at all, before talking about all the rest?
I have some ideas about how that can be done, and I'll post them later, but I don't have time right now. For now, I'll just say that I'm surprised that some of you support the view that photons don't exist when they're not being measured. You usually hear claims like that from people who don't understand what a theory is.

I have a few questions for you guys. I'd like to understand what you're really saying.

1. Are you talking about the photons defined by QED, or about the objects in the real world that correspond to the theoretical photons?
For what concerns me, the latter.
If it's the latter, then how do you define that concept?
2. I assume that photons are not the only things that you would claim don't exist. What exactly is the set of "things" that you think only exist when they are being measured?
3. What makes you think that the chair you're sitting on exists?
Because it doesn't disappear after measuring it.
 
  • #20
lightarrow said:
Then, you can describe the process as due to flying corpuscoles, but this, at the moment, is just a description and nothing more, until you prove it.
This is very very very wrong. You can't prove a theory. As I said before, the only thing you can do is find out how accurately it predicts the results of experiments. And there's no such thing as "more than a theory".

lightarrow said:
For what concerns me, the latter.
You didn't say how you define that concept, but based on the first three sentences of your post I'd guess that you agree that this is a reasonable definition: "A real-world photon is what makes a photomultiplier click".

lightarrow said:
Because it doesn't disappear after measuring it.
Neither does a photon. So what makes a chair different from a photon in this discussion?
 
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  • #21
I wonder - if they don't exist, how can they be bent by gravitational field?
 
  • #22
Borek said:
I wonder - if they don't exist, how can they be bent by gravitational field?

If it's not photons, it's electromagnetic waves.

No-one is claiming that nothing travels from where a photon is emitted to where it is absorbed. Clearly there is an electromagnetic wave carrying some energy. In most cases, the clumps of energy can be seen to correspond to single photons, and contain quantum properties that were associated with the emission event. You can also "bounce" photons off things as if they were particles (as in the Compton effect).

However, what I've heard (probably from a simplified version of QED) is that although electromagnetic energy interacts as quantized photons, in flight it is not strictly divided up into individual photons, so if two or more photons are involved in some interference or similar, although the number being absorbed may overall be the same as the number emitted, a given absorbed photon may not necessarily correspond to a single emitted photon, but may instead be effectively be a sum of components derived from more than one photon.
 
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  • #23
Fredrik said:
Then, you can describe the process as due to flying corpuscoles, but this, at the moment, is just a description and nothing more, until you prove it.
This is very very very wrong. You can't prove a theory. As I said before, the only thing you can do is find out how accurately it predicts the results of experiments. And there's no such thing as "more than a theory".
Ok, but I asked you to find, for me, a better definition of the concept I expressed in my post N.16
You didn't say how you define that concept, but based on the first three sentences of your post I'd guess that you agree that this is a reasonable definition: "A real-world photon is what makes a photomultiplier click".
Maybe: "is THE photomultiplier click"
Because it doesn't disappear after measuring it.
Neither does a photon. So what makes a chair different from a photon in this discussion?
Have you ever seen a photon? Sent light to it which has then bounced back? How would you define the Physical Object "photon"? Where in the definition is written that you can localize it in space between source and detector? Does a position operator exist for a photon? Which is a photon's shape? And its dimensions?
 
  • #24
lightarrow said:
Ok, but I asked you to find, for me, a better definition of the concept I expressed in my post N.16
How about just saying that we always prefer the theory that does a better job of predicting the results of experiments?

lightarrow said:
Maybe: "is THE photomultiplier click"
Hm...to me that's the "detection event", not the "real-world photon". The actual "click" even occurs some time after the absorption of the photon, but at least it's part of an interaction that involves a photon. A bigger problem with your definition is that if you define a real-world photon to be the detection event, then the claim that a real-world photon doesn't exist before detection doesn't contain any information. It's true by definition of the word.

lightarrow said:
Have you ever seen a photon? Sent light to it which has then bounced back? How would you define the Physical Object "photon"? Where in the definition is written that you can localize it in space between source and detector? Does a position operator exist for a photon? Which is a photon's shape? And its dimensions?
Those are all ways in which a photon is different from a chair. But I'm not so sure that any of them is a reason to say that chairs exist and photons don't. It seems so much more relevant that there's a theory involving photons (the standard model) that predicts the results of a very wide range of experiments better than any theory that doesn't involve photons. It even explains chairs. (It explains why it's possible for chairs to exist, not why they do exist).
 
  • #25
Fredrik said:
How about just saying that we always prefer the theory that does a better job of predicting the results of experiments?
Ok. Then, given the experimental fact that you have never measured a photon between source A and detector B, which of the following theories would you prefer:

1. Photon exist between A and B
2. Photon doesn't exist between A and B
Hm...to me that's the "detection event", not the "real-world photon". The actual "click" even occurs some time after the absorption of the photon, but at least it's part of an interaction that involves a photon. A bigger problem with your definition is that if you define a real-world photon to be the detection event, then the claim that a real-world photon doesn't exist before detection doesn't contain any information. It's true by definition of the word.
Certainly. But, IMO, physicists should give precise physical meanings to the objects they discuss, or, at least, specify the classes of objects for which such precise physical meanings are given and those for which such precise physical meanings are not given...
It's not so easy to find a book (and I personally don't have seen any) where it's written which is the precise physical meaning of "photon", that's what makes me angry. I don't say to have the answer, but that my "invented answer" is better than no answer at all. To me, it's quite unconceivable that people works with photons from almost a century without having a precise physical meaning of them!
 
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  • #26
To exist means to be significant is some way, it means to matter to anyone or to anything, anywhere at any time under any condition. If it matters then it exists. If it does not exist then it does not matter.

The equivalence of "what exists" and "what matters" is underlined by two observations based on the following tautology: we are concerned with what matters and what matters concerns us. First, it would be meaningless to say that something matters but is said not to exist because this case would be indistinguishable to our concerns from something that matters and actually exists. Second, it is also meaningless to say that something does not matter but is said to exist because this case is indistinguishable from something that does not matter and does not actually exist. The equivalence is natural as long as we are concerned with what matters and unconcerned with what doesn't matter; clearly, any other stance is useless for all purposes.

So the question is this: in what way does a photon matter between its emission and its absorption? If this can be described then photons exist in transit. If we can show that a photon isn't relevant to anything between these events then photons do not exist in transit.
 
  • #27
out of whack said:
So the question is this: in what way does a photon matter between its emission and its absorption?

As I pointed out above: There are experiments where we can e.g. "sense" the presence of photons in one mode of a cavity by how they change the properties of photons in another mode.
Hence, the idea that photons can only have an effect when they are being emitted/detected is simply incorrect.
 
  • #28
Out of curiosity, suppose two quanta of EM energy (E1 and E2) are released and later absorbed. Are they always absorbed as E1 and E2, or could they be absorbed as some other E3 and E4 such that E1+E2=E3+E4?
 
  • #29
lightarrow said:
Ok. Then, given the experimental fact that you have never measured a photon between source A and detector B, which of the following theories would you prefer:

1. Photon exist between A and B
2. Photon doesn't exist between A and B
I don't know because I don't know what those phrases mean. I still don't know what it means for something to "exist".
 
  • #30
Fredrik said:
I don't know because I don't know what those phrases mean. I still don't know what it means for something to "exist".
And doesn't it worry you? If we pretend physics to be different from other philosophies, we should find a better answer to that question.
 
  • #31
f95toli said:
As I pointed out above: There are experiments where we can e.g. "sense" the presence of photons in one mode of a cavity by how they change the properties of photons in another mode.
Don't know this effect and so I don't know to what extent it disproves the idea that photons have an effect only when they are being emitted/detected.
 
  • #32
Someone correct me if i am wrong, but isn't the nature of movement in the quantum world simply "skipping" from one collapsed state at Planck time scales to the next superpositioned state. If so, how do we define exist, time and space?
 
  • #33
Fredrik said:
I still don't know what it means for something to "exist".

To exist is to matter. What matters exists. What exists matters. The words are equivalent.
 
  • #34
I would say that in this case to ask whether the photon exists is to ask whether it is an entity discrete from the rest of the universe. Whether a being with an omniscient viewpoint could discriminate between the photon as a thing and other things, or whether the cause of the absorption event would be something indistinguishable from a greater whole, like Mentz114's "cup of water and the ocean" analogy.
 
  • #35
out of whack said:
To exist is to matter. What matters exists. What exists matters. The words are equivalent.


My dreams matter but do they exist? My imagination also matters, it's a vital part of my consciousness, but if it exists we have to provide a new definition of "exist".
 
<h2>1. What does it mean that photons only exist at the moment they are emitted or absorbed?</h2><p>This means that photons, which are particles of light, do not have a constant existence like other particles. They are only present in space and time when they are emitted by a source or absorbed by an object.</p><h2>2. How is this concept different from other particles that have a constant existence?</h2><p>Unlike other particles, such as electrons or protons, photons do not have a rest mass and therefore do not exist outside of their emission or absorption events. They are always in motion and do not have a constant location.</p><h2>3. What evidence supports the idea that photons only exist at the moment of emission or absorption?</h2><p>The behavior of photons in experiments, such as the double-slit experiment, supports this concept. Photons have been observed to behave like waves, which suggests that they do not have a fixed location or existence until they are observed or interact with matter.</p><h2>4. Can photons be destroyed or created outside of emission or absorption events?</h2><p>No, photons cannot be destroyed or created outside of their emission or absorption events. They are always in motion and cannot be created or destroyed like other particles.</p><h2>5. How does the concept of photons only existing at the moment of emission or absorption impact our understanding of light and the universe?</h2><p>This concept challenges our understanding of the nature of light and the universe. It suggests that the existence of photons is dependent on the observer and their interactions with matter, rather than having a constant presence in space and time. It also raises questions about the true nature of light and its role in the universe.</p>

1. What does it mean that photons only exist at the moment they are emitted or absorbed?

This means that photons, which are particles of light, do not have a constant existence like other particles. They are only present in space and time when they are emitted by a source or absorbed by an object.

2. How is this concept different from other particles that have a constant existence?

Unlike other particles, such as electrons or protons, photons do not have a rest mass and therefore do not exist outside of their emission or absorption events. They are always in motion and do not have a constant location.

3. What evidence supports the idea that photons only exist at the moment of emission or absorption?

The behavior of photons in experiments, such as the double-slit experiment, supports this concept. Photons have been observed to behave like waves, which suggests that they do not have a fixed location or existence until they are observed or interact with matter.

4. Can photons be destroyed or created outside of emission or absorption events?

No, photons cannot be destroyed or created outside of their emission or absorption events. They are always in motion and cannot be created or destroyed like other particles.

5. How does the concept of photons only existing at the moment of emission or absorption impact our understanding of light and the universe?

This concept challenges our understanding of the nature of light and the universe. It suggests that the existence of photons is dependent on the observer and their interactions with matter, rather than having a constant presence in space and time. It also raises questions about the true nature of light and its role in the universe.

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