Quantum Optics · Including Noise Reduction, Trapped Ions, Quantum Trajectories, and Decoherence

Quantum Optics · Including Noise Reduction, Trapped Ions, Quantum Trajectories, and Decoherence
Einstein's Theory of Atom-Radiation Interaction.- Atom-Field Interaction: Semiclassical Approach.- States of the Electromagnetic Field II.- Quantum Theory of Coherence.- Phase Space Description.- Atom-Field Interaction.- System-Reservoir Interactions.- Resonance Fluorescence.- Quantum Laser Theory. Master Equation Approach.- Quantum Noise Reduction.- 1.- Quantum Noise Reduction. 2.- Quantum Phase.- Quantum Trajectories.- Atom Optics.- Measurements, Quantum Limits and all that.- Trapped Ions.- Decoherence.- Quantum Bits, Entanglement and Applications.- Quantum Cloning and Processing.- A Operator Relations.- B The Method of Characteristics.- C Proof.- D Stochastic Processes in a Nutshell.- E Derivations of the Homodyne Stochastic Schrödinger Differential Equation.- F Fluctuations.- G The No-Cloning Theorem.- H The Universal Quantum Cloning Machine.- I Hints to Solve the Problems.

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