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.
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Book Description
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About the Author
Igor V. Yevseyev, Valery M.Yermachenko and Vitaly V. Samartsev are all of the Department of Theoretical Physics at Moscow State Engineering Physics Institute in Russia.
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Inside This Book
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First Sentence:
The effect of atomic collisions on the optical characteristics of an ensemble of excited atoms is well known [1, 2]. Read the first page Key Phrases - Statistically Improbable Phrases (SIPs): (learn more)
elastic depolarizing collisions, third pump pulse, stimulated photon echo signal, intermode distance, optical echo spectroscopy, second pump pulse, irreversible relaxation times, rectangular pump pulses, characterizing polarization properties, lower resonant level, radiative population, first pump pulse, alignment relaxation times, photon echo intensity, high rotational quantum numbers, echo holograms, pump pulse propagates, resonant atoms, molecular iodine vapor, uniform longitudinal magnetic field, arbitrary angular momenta, pump pulses propagate, inhomogeneously broadened spectral line, adjacent optically, relaxation matrices Key Phrases - Capitalized Phrases (CAPs): (learn more)
All-Union Symp, New York, Science Dissertation, Candidate of Phys, Kuibyshev State Univ, Doctor of Phys, Kvantovaya Elektron, Investigation of Relaxation Processes, Moscow Eng, Van Voorst, Laser Phys, Laser Systems, Spectral Line Shapes New!
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Front Cover | Table of Contents | First Pages | Index | Back Cover | Surprise Me!
The effect of atomic collisions on the optical characteristics of an ensemble of excited atoms is well known [1, 2]. Read the first page Key Phrases - Statistically Improbable Phrases (SIPs): (learn more)
elastic depolarizing collisions, third pump pulse, stimulated photon echo signal, intermode distance, optical echo spectroscopy, second pump pulse, irreversible relaxation times, rectangular pump pulses, characterizing polarization properties, lower resonant level, radiative population, first pump pulse, alignment relaxation times, photon echo intensity, high rotational quantum numbers, echo holograms, pump pulse propagates, resonant atoms, molecular iodine vapor, uniform longitudinal magnetic field, arbitrary angular momenta, pump pulses propagate, inhomogeneously broadened spectral line, adjacent optically, relaxation matrices Key Phrases - Capitalized Phrases (CAPs): (learn more)
All-Union Symp, New York, Science Dissertation, Candidate of Phys, Kuibyshev State Univ, Doctor of Phys, Kvantovaya Elektron, Investigation of Relaxation Processes, Moscow Eng, Van Voorst, Laser Phys, Laser Systems, Spectral Line Shapes New!
Books on Related Topics | Concordance | Text Stats Browse Sample Pages:
Front Cover | Table of Contents | First Pages | Index | Back Cover | Surprise Me!
Citations (learn more)
This book cites 9
books:
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- Laser Spectroscopy by Richard Brewer on page 127, page 128, and page 130
- Applied Nonlinear Optics: Basics and Applications (Pure & Applied Optics) by F. Zernike on page 290, and page 300
- Optical Resonance and Two-Level Atoms (Dover Books on Physics) by L. Allen on page 230, and Back Matter
- Nonlinear Optics and Quantum Electronics by Max Schubert on page 290, and page 300
- Excitation of Atoms and Broadening of Spectral Lines (Springer Series on Atomic, Optical, and Plasma Physics) by Igor I. Sobel'man on page 38
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