Methods in theoretical quantum optics

Atomic Kinematics -- Atomic Dynamics -- Quantized Electromagnetic Field -- Field Dynamics -- The Jaynes-cummings Model -- Collective Interactions -- Atomic Systems In A Strong Quantum Field -- Quantum Systems Beyond The Rotating Wave Approximation -- Models With Dissipation -- Quasi-distributions In

This book provides an accessible introduction to the mathematical methods of quantum optics. Starting from first principles, it reveals how a given system of atoms and a field is mathematically modelled. The method of eigenfunction expansion and the Lie algebraic method for solving equations are out

Atomic Kinematics -- Atomic Dynamics -- Quantized Electromagnetic Field -- Field Dynamics -- The Jaynes-cummings Model -- Collective Interactions -- Atomic Systems In A Strong Quantum Field -- Quantum Systems Beyond The Rotating Wave Approximation -- Models With Dissipation -- Quasi-distributions In

Atomic Kinematics -- Atomic Dynamics -- Quantized Electromagnetic Field -- Field Dynamics -- The Jaynes-cummings Model -- Collective Interactions -- Atomic Systems In A Strong Quantum Field -- Quantum Systems Beyond The Rotating Wave Approximation -- Models With Dissipation -- Quasi-distributions In

Atomic Kinematics -- Atomic Dynamics -- Quantized Electromagnetic Field -- Field Dynamics -- The Jaynes-cummings Model -- Collective Interactions -- Atomic Systems In A Strong Quantum Field -- Quantum Systems Beyond The Rotating Wave Approximation -- Models With Dissipation -- Quasi-distributions In