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  • 1
    Online Resource
    Online Resource
    New York, NY :Springer US :
    UID:
    almahu_9949199210702882
    Format: 156 p. , online resource.
    Edition: 1st ed. 1969.
    ISBN: 9781461346159
    Content: Many years spent in an industrial engineering laboratory have convinced me that there is ever-increasing need to present recent and current research in forms which can be easily assimilated by engineers, technical managers, and others concerned with applications and the development of new tech­ nology. There is a forbidding gap between the typical research paper, addressed by specialists to other specialists, and the popular-level account addressed to the layman. The second does not adequately prepare the engi­ neer for profitably studying the first; it does not impart sufficient depth of understanding to the manager who must make decisions on the relative merits of various approaches to a problem or on the potential contributions various specialists might make to his program. This book is the outgrowth of a review prepared to fill this need for engineers in a large corporation who were concerned with the industrial application of lasers. That review was written hurriedly, on a fixed budget, to a deadline; consequently, it contained oversimplifications and errors, not all of which were trivial. Nevertheless, the favorable response proved that such a review is indeed needed. It is hoped that this more finished work will prove useful to a wide variety of potential users of laser-centered devices and systems, and may even stimulate the generation of useful ideas.
    Note: 1. Introduction -- 1.1. The Scope of Optics -- 1.2. Historical Background -- 1.3. Linearity in Optics -- 1.4. Nonlinearity in Other Fields -- 1.5. Nonlinearity in Optics -- 1.6. Scope of this Book -- 2. Background of Nonlinear Optics -- 2.1. Electromagnetic Theory of Light -- 2.2. Electromagnetic Theory of Linear, Isotropic Media -- 2.3. Modes -- 2.4. Geometrical Optics -- 2.5. Quantum Theory of Radiation Process -- 3. Properties of Optical Media -- 3.1. Introduction -- 3.2. Dispersion -- 3.3. Rayleigh Scattering -- 3.4. The Debye-Sears Effect -- 3.5. Birefringence -- 3.6. Zeeman and Stark Effects -- 3.7. Electrostriction and Piezoelectricity -- 3.8. Electrically Induced Birefringence -- 3.9. Optical Activity -- 3.10. Magnetooptical Effects -- 3.11. Fluorescence and the Raman Effect -- 3.12. Intensity-Dependent Optical Phenomena -- 4. Nonlinear Phenomena in Passive Media -- 4.1. Introduction -- 4.2. Electromagnetic Waves in a Nonlinear Dielectric: Method of Solution -- 4.3. The Role of Coherence in Harmonic Generation -- 4.4. The Nonlinear Susceptibility Tensor -- 4.5. Traveling-Wave Second-Harmonic Generation -- 4.6. Index Matching in Birefringent Materials -- 4.7. Boundary Conditions -- 4.8. A Numerical Example -- 4.9. Index Matching as Momentum Conservation -- 4.10. Harmonics Higher than the Second -- 4.11. Optical Rectification -- 4.12. Optical Mixing and Parametric Amplification -- 4.13. Self-Focusing of Optical Beams -- 5. Nonlinear Optical Phenomena in Active Media -- 5.1. Similarities and Contrasts -- 5.2. Raman Processes -- 5.3. Brillouin Scattering -- 5.4. Interactions of Light with Free Electrons -- 5.5. Optical Nonlinearity in Gases -- Appendix. Free and Forced Oscillations in Slightly Nonlinear Systems.
    In: Springer Nature eBook
    Additional Edition: Printed edition: ISBN 9780306200045
    Additional Edition: Printed edition: ISBN 9780306303883
    Additional Edition: Printed edition: ISBN 9781461346166
    Language: English
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