This graduate textbook unifies the presentation of new and well-established basic theory and experiments for the quantum properties of light. Quantum optics has become a major field of theoretical and experimental physics. Many of the key tests of unique quantum phenomena, such as entanglement, have been demonstrated in quantum optics experiments. It forms the basis of many quantum technologies from sensing to computation.
This completely revised third edition enables graduate students to acquire a deep knowledge of contemporary quantum optics and its relevance for quantum technology. New experimental developments are discussed, alongside the relevant theory. New chapters on quantum control, quantum opto-mechanics, quantum communication and computation have been added.
Numerous exercises help readers test their understanding and provide practice in quantitative problem solving.
Quantisation of the Electromagnetic Field.- Quantum Theory of Optical
Coherence.- Representations of the Electromagnetic Field.- Quantum Dynamics
in Simple Nonlinear Optical Systems.- Open Quantum Systems.- Classical and
Quantum Langevin Equations.- Quantum Measurement.- Nonlinear Quantum
Dissipative Systems.- Interaction of Radiation with Atoms.- Quantum Theory of
the Laser.- Quantum Optics at Microwave Frequencies.- Ion Traps.- Quantum
Optics and Quantum Foundations.- Quantum Optical Communication.- Quantum
Optical Computation.- Quantum Optical Sensors.
Gerard J. Milburn obtained a PhD in theoretical physics from the University of Waikato, New Zealand in 1982 and is a pioneer of the field of quantum optics and quantum technology. He is a Fellow of the Australian Academy of Science, The American Physical Society and the Royal Society of London.
