Graduate LSZ, perturbation and renormalization

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Renormalization in quantum field theory involves normalizing fields to address infinities that arise in calculations, which leads to additional parameters from the regularization process. This understanding suggests that renormalization is distinct from perturbation theory and stems from incomplete information, necessitating nonperturbative methods that introduce similar parameters. The discussion references the renormalization group (RG) as a non-perturbative approach, with insights drawn from Nigel Goldenfeld's work on phase transitions. While there is a connection between RG and renormalization, they are not considered identical. The exploration of these concepts is ongoing, with resources like Griffiths' "Introduction to Elementary Particles" providing valuable insights into complex physics topics.
diegzumillo
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My current understanding of renormalization is that the LSZ formula requires normalized fields. So when you normalize them you get some extra parameters from the regularization procedure you encounter along the way. It's an upgrade on my previous understanding of it as some artificial way of hammering out infinities that arise. However, my current understanding also suggests renormalization is unrelated to perturbation theory, but rather stems from incomplete information, so any nonperturbative method should require renormalization or an analogous mechanism that introduces the same number of parameters.

Does that make sense?
 
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Since I got an auto-bump, I have been reading about renormalization group and it seems to confirm the basic idea. There's this book called lectures on phase transitions and the renormalization group by Nigel Goldenfeld where he explicitly mentions that RG is essentially non-perturbative. I'm still learning about RG but it seems to be the right thread to start pulling. But I'm not entirely convinced RG and renormalization are exactly the same thing. Certainly related though.
 
I don't have a PhD, so take what I say with a grain of salt. But, from what I understand, renormalization is when a loop or something similar arises in a diagram and you need to take out any possible infinities; because any infinity in an actual calculation would make the diagram, and thenceforth the theory non-quantum. So it doesn't really come out of perturbation theory. But it is similar.

The book I'm reading is Introduction to Elementary Particles by Griffiths. It's a really good for a lot of the harder parts of physics.
 

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