This accessible and self-contained text presents the essential theoretical techniques developed to describe quantum processes, alongside a review of the experimental methods required in quantum measurement. Ideal for advanced undergraduate and graduate students seeking to extend their knowledge of the physics underlying quantum technologies.
This accessible and self-contained text presents the essential theoretical techniques developed to describe quantum processes, alongside a review of the experimental methods required in quantum measurement. Ideal for advanced undergraduate and graduate students seeking to extend their knowledge of the physics underlying quantum technologies.
Claude Fabre is Emeritus Professor in Physics at Sorbonne University at the Kastler¿Brossel Laboratory in Paris, and has made pioneering contributions within the field of quantum optics, especially concerning the manipulation of quantum fluctuations and correlations in light and quantum parameter estimation. He is Fellow of the Optical Society of America and an honorary member of the Institut Universitaire de France. He was awarded the Grand Prix Léon Brillouin. He co-authored the successful textbook Introduction to Quantum Optics (2010) with Gilbert Grynberg and Alain Aspect.
Inhaltsangabe
Introduction 1. Experiment: detecting single quantum objects 2. Description of quantum systems in terms of density matrix 3. Experiment: quantum processes 4. Evolution 5. Measurement 6. Experiment: bipartite systems 7. Entanglement 8. Experiment: continuous quantum fluctuations 9. Continuous variable systems 10. Experiment: parameter estimation 11. Theory: parameter estimation Appendix A. Basic postulates of quantum mechanics Appendix B. Generalized postulates of quantum mechanics Appendix C. Description of composite systems Appendix D. Qubits Appendix E. Quantum particle Appendix F. Quantum electromagnetic field Appendix G. Interaction between light and atoms Appendix H. Interaction between light beams and linear optical media Appendix I. Interaction between light beams and nonlinear optical media Appendix J. Optomechanics Appendix K. Basics of circuit quantum electrodynamics Bibliography Index.
Introduction 1. Experiment: detecting single quantum objects 2. Description of quantum systems in terms of density matrix 3. Experiment: quantum processes 4. Evolution 5. Measurement 6. Experiment: bipartite systems 7. Entanglement 8. Experiment: continuous quantum fluctuations 9. Continuous variable systems 10. Experiment: parameter estimation 11. Theory: parameter estimation Appendix A. Basic postulates of quantum mechanics Appendix B. Generalized postulates of quantum mechanics Appendix C. Description of composite systems Appendix D. Qubits Appendix E. Quantum particle Appendix F. Quantum electromagnetic field Appendix G. Interaction between light and atoms Appendix H. Interaction between light beams and linear optical media Appendix I. Interaction between light beams and nonlinear optical media Appendix J. Optomechanics Appendix K. Basics of circuit quantum electrodynamics Bibliography Index.
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