Description

Book Synopsis
In this book, the authors derive the theory of elastic depolarizing collisions and describe their importance in some nonlinear electromagnetic phenomena in gaseous media. The formation of photon echo and a description of its various types in gaseous media are then presented. The authors show that the characteristics of the corresponding signals depend essentially on elastic depolarizing collisions. They also consider the advantages of a new kind of photon echo spectroscopy: polarization photon echo-spectroscopy. A high-level, specialized treatment, Depolarizing Collisions in Nonlinear Electrodynamics will appeal to researchers and advanced graduates in nonlinear optics and quantum electronics.

Table of Contents
Chapter 1. INTERACTION OF ATOMS IN THE APPROXIMATION OF DEPOLARIZING COLLISIONS Chapter 2. METHODS OF THEORETICAL DESCRIPTION OF THE FORMATION OF PHOTON ECHO AND STIMULATED PHOTON ECHO SIGNALS IN GASES Chapter 3. EXPERIMENTAL APPARATUS AND TECHNIQUE FOR OPTICAL COHERENT SPECTROSCOPY OF GASES Chapter 4. POLARIZATION ECHO SPECTROSCOPY Chapter 5 APPLICATION OF THE PHOTON ECHO IN A GAS MEDIUM FOR DATA WRITING, STORAGE, AND PROCESSING Chapter 6. DOUBLE-MODE LASING IN STANDING-WAVE GAS LASERS WITH ALLOWANCE FOR DEPOLARIZING COLLISIONS Chapter 7 INTERACTION OF STRONG AND WEAK RUNNING WAVES IN A RESONANT GAS MEDIUM

Depolarizing Collisions in Nonlinear

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A Hardback by Igor V. Yevseyev, Valery M. Yermachenko, Vitaly V. Samartsev

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    View other formats and editions of Depolarizing Collisions in Nonlinear by Igor V. Yevseyev

    Publisher: Taylor & Francis Ltd
    Publication Date: 24/02/2004
    ISBN13: 9780415284165, 978-0415284165
    ISBN10: 0415284163
    Also in:
    Optical physics Physics

    Description

    Book Synopsis
    In this book, the authors derive the theory of elastic depolarizing collisions and describe their importance in some nonlinear electromagnetic phenomena in gaseous media. The formation of photon echo and a description of its various types in gaseous media are then presented. The authors show that the characteristics of the corresponding signals depend essentially on elastic depolarizing collisions. They also consider the advantages of a new kind of photon echo spectroscopy: polarization photon echo-spectroscopy. A high-level, specialized treatment, Depolarizing Collisions in Nonlinear Electrodynamics will appeal to researchers and advanced graduates in nonlinear optics and quantum electronics.

    Table of Contents
    Chapter 1. INTERACTION OF ATOMS IN THE APPROXIMATION OF DEPOLARIZING COLLISIONS Chapter 2. METHODS OF THEORETICAL DESCRIPTION OF THE FORMATION OF PHOTON ECHO AND STIMULATED PHOTON ECHO SIGNALS IN GASES Chapter 3. EXPERIMENTAL APPARATUS AND TECHNIQUE FOR OPTICAL COHERENT SPECTROSCOPY OF GASES Chapter 4. POLARIZATION ECHO SPECTROSCOPY Chapter 5 APPLICATION OF THE PHOTON ECHO IN A GAS MEDIUM FOR DATA WRITING, STORAGE, AND PROCESSING Chapter 6. DOUBLE-MODE LASING IN STANDING-WAVE GAS LASERS WITH ALLOWANCE FOR DEPOLARIZING COLLISIONS Chapter 7 INTERACTION OF STRONG AND WEAK RUNNING WAVES IN A RESONANT GAS MEDIUM

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