"Quantum optics remains one of the liveliest fields in physics. While it has been a dominant research field for at least four decades, with much graduate activity, it has now impacted the undergraduate curriculum. This book developed from courses we have taught to final-year undergraduates and beginning graduate students at Imperial College London and City University of New York"--
Inhaltsverzeichnis
Preface; 1. Introduction; 2. Field quantization; 3. Coherent states; 4. Emission and absorption of radiation by atoms; 5. Quantum coherence functions; 6. Beam splitters and interferometers; 7. Nonclassical light; 8. Dissipative interactions and decoherence; 9. Optical test of quantum mechanics; 10. Experiments in cavity QED and with trapped ions; 11. Applications of entanglement: Heisenberg-limited interferometry and quantum information processing; Appendix A. The density operator, entangled states, the Schmidt decomposition, and the von Neumann entropy; Appendix B. Quantum measurement theory in a (very small) nutshell; Appendix C. Derivation of the effective Hamiltonian for dispersive (far off-resonant) interactions; Appendix D. Nonlinear optics and spontaneous parametric down conversion; Index.
