this post was submitted on 19 Nov 2023
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I'll level with you. I know how to use QED to compute the cross section of a scattering reaction. But I do not remember, or perhaps never knew, what the QED theoretic description of classical wave mechanical phenomena like diffraction, reflection, refraction, and dispersion look like.
Well... actually of those phenomena, I think diffraction is fine. A single waveform will exhibit diffraction. It doesn't entail any interactions. A single photon can still exhibit a diffraction pattern. It doesn't mean that the photon has changed directions or circled around or in any way accelerated. The only reason you might think so is that you're thinking of photons as billiard ball type classical particles, but of course they are not, they are quantum particles with spread out wavefunctions.
Dispersion I guess is just scattering combined with absorption re-emission (and as we discussed, even scattering is itself a form of absorption & re-emission). But as for reflection and refraction? Those are the phenomena that Entropius was pointing to elsewhere in this thread. I remember how those look in terms of solutions to Maxwell's equations and boundary conditions, but that's classical wave mechanics. I do not remember how to translate that into the language of QED.
QED is a fundamental theory, so I assume that a description exists, and of course because I know what QED looks like, so I am certain that it will still be true that in this description, photons will be absorbed & emitted by charged particles, but photons will not interact with photons. However beyond that I cannot say much. How do we describe reflection of light in a mirror as photons scattering off electrons? I don't know exactly.
One thing I can say is that generally classical states are modeled in quantum mechanics as coherent states, which are eigenstates of the annihilation operator. They look something like exp(N)|0> where N is the number operator, which means that they are states with a superposition of 0 photons, 1 photons, 2 photons, etc. They don't have a well defined number of particles. So maybe if you want a QED theoretic description of reflection, you can have it, but you won't be able to talk about specific numbers of photons. But again, I don't know the details of this.
I wonder whether this concept of classical waveforms as coherent states with a superposition of all numbers of particles will help at all with this philosophical debate about whether two photons are the same particle or not, or about whether you can have a universe with only 3 photons
I'll level with you. I only called it philosophical so I could hide behind that as a shield against an actual physics debate. But then I so showed my ass and mentioned the standard model. Thus leaving philosophy. I can't hide behind unfalsifiable bullshit.
So I hope someone read this and went down some wikipedia rabbit holes. I'll happily be "Cunningham's fool". I'll give you, weird reader, some more wiki nuggets below.
I don't think you should let some rando make you doubt anything. I don't have a Ph.D. in physics. I only have a mild intro this stuff. I was on my way to getting a phd in physics (nuclear at that, not particle) and got distracted by math.
I don't want to be super specific so as to not dox myself with a research fingerprint, but my research has crossed paths with things like Agmon metrics. Which although feels like I'm doing physics, it doesn't change the fact that physicists don't read my papers.
So I do find myself saying "apparently these graded algebras show up in quantum mechanics" and stuff like that. Maybe some day I'll go back and learn it deeper, but I doubt it.
But I do love knowing that there is a connection even if I don't see all the details. Like I don't think I'll ever understand sentences like "One way to incorporate the standard model of particle physics into heterotic string theory is the symmetry breaking of E8 to its maximal subalgebra SU(3)×E6.". I need to know about Lie symmetries, but I'm not in physics or algebra. So I don't think I'll flesh out this connection, but it really makes me ponder The Unreasonable Effectiveness of Mathematics in the Natural Sciences.
So online, I'd rather play the role of a street preacher spouting things like "nature can't take a derivative. there is no continuum." and hoping people read the links when I claim nature solves differential equations by means of weak solutions thereby only integrates. Integration is what nature does. I know that the phrase "nature solves differential equations" is nonsense. But it's fun. So going deeper, nature can't take a derivative because the idea of point particles destroys continuity. This is what saves the natural world from pathologies like the Banach--Tarski paradox. Those ideas are kinda basic, but I'm shooting for 1 in 10,000 read to whom the topic is both new and interesting for.
Sorry that you engaged with an internet crazy person. I hope it wasn't too infuriating.
Lie groups are my favorite thing in all of mathematics, and gauge theory is my favorite thing in physics. E8 and all its connections to other subjects is one example of how amazing this subject can be.
It would be a coup de grace of the highest order, just the crowning intellectual achievement of mankind, if we could stumble upon a theory of everything explaining the entire Standard Model, just by fiddling around with how to fit SU(3)xSU(2)xU(1) fits inside E8 or whatever.
But I guess it's not going to happen.