Quantum Field Theory With Application to Quantum Nonlinear Optics
A. K. Prikarpatskii, Ufuk Taneri, N. N. BogoliubovThese lecture notes are ideally suited to graduate mathematical physics and physics students, but can also be of interest to mathematicians involved in applied physics problems, and physicists and chemists studying phenomena related with modern quantum-optical devices.
Contents:
Methods of Studying Quantum Optical Phenomena:
Quantum States and Statistics
Creation and Annihilation Operators
The One-Particle Green's Function
The Dyson Equations
Polarization Operators
The Hartree-Fock Approximation
Nonlinear Quantum Optics Models and Their Applications:
Nonlinear Quantum Optics Bose-Systems
The Dicke Model
A Degenerate Parametric Quantum Optical Amplifier
A Nonlinear Quantum-Optical System at Equilibrium Radiative State
and other topics
Readership: Graduate students and instructors in quantum physics.