This book develops the theoretical and experimental basis of quantum optics, i.e. the interaction of individual particles of light (photons) with matter, starting from elementary quantum theory. The self-contained exposition will be useful to graduate and senior undergraduate students in physics, engineering, chemistry. r s
This book develops the theoretical and experimental basis of quantum optics, i.e. the interaction of individual particles of light (photons) with matter, starting from elementary quantum theory. The self-contained exposition will be useful to graduate and senior undergraduate students in physics, engineering, chemistry. r s
John Garrison Visiting Scholar, University of California at Berkeley EXPERIENCE Senior scientist, Lawrence Livermore National Laboratory (1961-1996) Lecturer Univ. of California Davis/Livermore and Univ. of California Berkeley (various dates). Visiting staff scientist Max Planck Institute fur Quantenoptik, Garching (1984-1985) Raymond Chiao Professor in the School of Natural Sciences and in the School of Engineering, University of California EXPERIENCE 1/06 - present Professor of Natural Sciences and of Engineering, UC Merced 7/77 - 12/05 Professor, Department of Physics, UC Berkeley 7/70 - 6/77 Associate Professor, Department of Physics, UC Berkeley 6/67 - 6/70 Assistant Professor, Department of Physics, UC Berkeley 7/65 - 6/67 Assistant Professor, Massachusetts Institute of Technology
Inhaltsangabe
1: The quantum nature of light 2: Quantization of cavity modes 3: Field quantization 4: Interaction of light with matter 5: Coherent states 6: Entangled states 7: Paraxial quantum optics 8: Linear optical devices 9: Photon detection 10: Experiments in linear optics 11: Coherent interaction of light with atoms 12: Cavity quantum electrodynamics 13: Nonlinear quantum optics 14: Quantum noise and dissipation 15: Nonclassical states of light 16: Linear optical amplifiers 17: Quantum tomography 18: The master equation 19: Bell's theorem and its quantum optical tests 20: Quantum information Appendices
1: The quantum nature of light 2: Quantization of cavity modes 3: Field quantization 4: Interaction of light with matter 5: Coherent states 6: Entangled states 7: Paraxial quantum optics 8: Linear optical devices 9: Photon detection 10: Experiments in linear optics 11: Coherent interaction of light with atoms 12: Cavity quantum electrodynamics 13: Nonlinear quantum optics 14: Quantum noise and dissipation 15: Nonclassical states of light 16: Linear optical amplifiers 17: Quantum tomography 18: The master equation 19: Bell's theorem and its quantum optical tests 20: Quantum information Appendices
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