- #1
- 1,437
- 535
Hello!
I'm quite familiar with non-realtivistic QM and particle phenomenology. What I do really miss is a text, which builds on the postulates of quantum mechanics and stresses the similarities and differences between "single particle" nonrelativistic QM and QFT. I want to read about measurements, localized states, Hamiltonians, the absence of position operators, potential wells, etc. QFT is regarded the more fundamental theory, so why don't so many authors put any effort in getting back "single particle" QM out of it or at least draw more connections?
Instead, most texts jump directly to applied relativistic QFT, which goes like "Hey, you know classical field theory? Let's just take such wave equations, get plane wave solutions, quantisize them, calculate transition matrix elements and draw funny pictures. Oh, and there are symmetries, too."
Any recommendations?
I'm quite familiar with non-realtivistic QM and particle phenomenology. What I do really miss is a text, which builds on the postulates of quantum mechanics and stresses the similarities and differences between "single particle" nonrelativistic QM and QFT. I want to read about measurements, localized states, Hamiltonians, the absence of position operators, potential wells, etc. QFT is regarded the more fundamental theory, so why don't so many authors put any effort in getting back "single particle" QM out of it or at least draw more connections?
Instead, most texts jump directly to applied relativistic QFT, which goes like "Hey, you know classical field theory? Let's just take such wave equations, get plane wave solutions, quantisize them, calculate transition matrix elements and draw funny pictures. Oh, and there are symmetries, too."
Any recommendations?