Description

Book Synopsis
This is the first of a two-volume presentation on current research problems in quantum optics, and will serve as a standard reference in the field for many years to come. The book provides an introduction to the methods of quantum statistical mechanics used in quantum optics and their application to the quantum theories of the single-mode laser and optical bistability. The generalized representations of Drummond and Gardiner are discussed together with the more standard methods for deriving Fokker-Planck equations.

Trade Review

From the reviews
"To sum up: Statistical Methods in Quantum Optics 1 is an excellent book. Try it, you'll like it!" (M.O. Scully, Physics Today, 2000)

"The book is carefully written, in considerable detail, paying attention to both foundations and applications. It contains exercices completing or generalizing the material presented, and ample references to the literature. It is, therefore, very useful as the basis for a course." (V.R. Vieira, Mathematical Reviews, 2000f)

PHYSICS TODAY
"…a valuable addition to the literature…an excellent book. Try it, you’ll like it!”

"It is a pleasure to recommend this title thoroughly for both individual and institutional purchase." (D. L. Andrews (University of Anglia), Contemporary Physics 2002, vol. 43, page 232-233)



Table of Contents
1. Dissipation in Quantum Mechanics: The Master Equation Approach.- 2. Two-Level Atoms and Spontaneous Emission.- 3. Quantum—Classical Correspondence for the Electromagnetic Field I: The Glauber—Sudarshan P Representation.- 4. Quantum—Classical Correspondence for the Electromagnetic Field II: P, Q, and Wigner Representations.- 5. Fokker—Planck Equations and Stochastic Differential Equations.- 6. Quantum—Classical Correspondence for Two-Level Atoms.- 7. The Single-Mode Homogeneously Broadened Laser I: Preliminaries.- 8. The Single-Mode Homogeneously Broadened Laser II: Phase-Space Analysis.- References.

Statistical Methods in Quantum Optics 1: Master Equations and Fokker-Planck Equations

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    A Hardback by Howard J. Carmichael

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      View other formats and editions of Statistical Methods in Quantum Optics 1: Master Equations and Fokker-Planck Equations by Howard J. Carmichael

      Publisher: Springer-Verlag Berlin and Heidelberg GmbH & Co. KG
      Publication Date: 18/09/2002
      ISBN13: 9783540548829, 978-3540548829
      ISBN10: 3540548823
      Also in:
      Cybernetics and systems theory Electricity, electromagnetism and magnetism Particle and high-energy physics

      Description

      Book Synopsis
      This is the first of a two-volume presentation on current research problems in quantum optics, and will serve as a standard reference in the field for many years to come. The book provides an introduction to the methods of quantum statistical mechanics used in quantum optics and their application to the quantum theories of the single-mode laser and optical bistability. The generalized representations of Drummond and Gardiner are discussed together with the more standard methods for deriving Fokker-Planck equations.

      Trade Review

      From the reviews
      "To sum up: Statistical Methods in Quantum Optics 1 is an excellent book. Try it, you'll like it!" (M.O. Scully, Physics Today, 2000)

      "The book is carefully written, in considerable detail, paying attention to both foundations and applications. It contains exercices completing or generalizing the material presented, and ample references to the literature. It is, therefore, very useful as the basis for a course." (V.R. Vieira, Mathematical Reviews, 2000f)

      PHYSICS TODAY
      "…a valuable addition to the literature…an excellent book. Try it, you’ll like it!”

      "It is a pleasure to recommend this title thoroughly for both individual and institutional purchase." (D. L. Andrews (University of Anglia), Contemporary Physics 2002, vol. 43, page 232-233)



      Table of Contents
      1. Dissipation in Quantum Mechanics: The Master Equation Approach.- 2. Two-Level Atoms and Spontaneous Emission.- 3. Quantum—Classical Correspondence for the Electromagnetic Field I: The Glauber—Sudarshan P Representation.- 4. Quantum—Classical Correspondence for the Electromagnetic Field II: P, Q, and Wigner Representations.- 5. Fokker—Planck Equations and Stochastic Differential Equations.- 6. Quantum—Classical Correspondence for Two-Level Atoms.- 7. The Single-Mode Homogeneously Broadened Laser I: Preliminaries.- 8. The Single-Mode Homogeneously Broadened Laser II: Phase-Space Analysis.- References.

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