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
DOI:
10.1007/978-1-4613-4615-9
URL:
https://doi.org/10.1007/978-1-4613-4615-9
