Quantum Optics
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Quantum Optics

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Girish S. Agarwal
1266 g
254x194x27 mm

Agarwal, Girish S.Girish S. Agarwal is Noble Foundation Chair and Regents Professor at Oklahoma State University. A recognised leader in the field of theoretical quantum optics, he is a fellow of the Royal Society, UK and has won several awards, including the Max-Born Prize from the Optical Society of America and the Humboldt Research Award.
In the last decade many important advances have taken place in the field of quantum optics, with numerous potential applications. Ideal for graduate courses on quantum optics, this textbook provides an up-to-date account of the basic principles of the subject. Focusing on applications of quantum optics, the textbook covers recent developments such as engineering of quantum states, quantum optics on a chip, nano-mechanical mirrors, quantum entanglement, quantum metrology, spin squeezing, control of decoherence and many other key topics. Readers are guided through the principles of quantum optics and their uses in a wide variety of areas including quantum information science and quantum mechanics. The textbook features end-of-chapter exercises with solutions available for instructors at cambridge.org/9781107006409. It is invaluable to both graduate students and researchers in physics and photonics, quantum information science and quantum communications.
Ideal for graduate courses on quantum optics, this textbook provides an up-to-date account of basic principles and applications.
1. Quantized electromagnetic field and coherent state representations; 2. Nonclassicality of radiation fields; 3. Two mode squeezed states and quantum entanglement; 4. Non-Gaussian nonclassical states; 5. Optical interferometry with single photons and nonclassical light; 6. Polarization and orbital angular momentum of quantum fields; 7. Absorption, emission, and scattering of radiation; 8. Partial coherence in multimode quantum fields; 9. Open quantum systems; 10. Amplification and attenuation of quantum fields; 11. Quantum coherence, interference and squeezing in two-level systems; 12. Cavity quantum electrodynamics; 13. Absorption, emission and scattering from two-level atoms; 14. Quantum interference and entanglement in radiating systems; 15. Near-field radiative effects; 16. Decoherence and disentanglement in two-level systems; 17. Coherent control of the optical properties; 18. Dispersion management and ultra-slow light; 19. Single photons and nonclassical light in integrated structures; 20. Quantum optical effects in nano mechanical systems; Index.

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