- #106
A. Neumaier
Science Advisor
- 8,638
- 4,684
1. psi is a state in the physical Hilbert space. No further interpretation is necessary. Asymptotic states get a interpretation as superpositions of bound state tensor products through Haag-Ruelle theory.meopemuk said:1. Can I interpret \psi as a wave function? I.e., is the square of \psi the probability density?
2. What is the meaning of N? Is it the number of particles?
3. Why there are N time labels?
4. What is the t-dependence of \psi? Without such explicit t-dependence the Hamiltonian remains undefined.
5. How this form can be used to calculate the interacting time evolution of an initial 2-particle state?
2. No. It is just a convenient label.
3. Because one needs to choose some N to write down a state. But as in Fock space, one can have superpositions of states with different values of N.
4. The t-dependence is defined as usual form the t-independent initial condition at t=0 by the Schroedinger equation. Defining the Hamiltonian itself needs no t.
5. This is your task to figure out, not mine. Nobody else needs it in any application of QED. But I'll guide you into a simplified exercise related to your question in the thread
https://www.physicsforums.com/showthread.php?p=3174961 . Working this out should give you enough intuition about the more complicated cases that you are interested in.