Comment by zakk
3 years ago
Protons are non-perturbative, indeed, but this does not mean that there are no virtual particles exchanged inside a proton. It seems like your comment implies that, sorry if I misunderstood.
On the contrary, this means that there are too many virtual particles (gluons) being exchanged inside a proton, so many that perturbation theory is not applicable.
Virtual particles are part of an indexing scheme for perturbation series - saying that you leave the perturbative regime when you have "too many" of them is like saying that crystalline solids melt when they have too many normal modes.
Finally an analogy where I understand neither comparison :)
Are gluons virtual? (Or are they virtual inside a proton?)
Your question is can be posed as “is there a well-behaved resonance of the gluon field in a proton, that lasts long enough for it to be identified”. It's kinda like identifying a bubble in a pot of cold water vs a pot just starting to boil vs a rolling boil.
Gluons are real.
Virtual particles are also "real", and if you don't believe me, at least you have to admit that virtual photons alone lead to real energy (e.g. Casimir effect) - and it has also been stated that gluons within protons can be interpreted as "virtual"... so I'm pretty sure your comment is wrong. I'd downvote you if I could since that seems to be what the cool kids here are doing but I used up all my karma telling the truth.
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