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Nonlinear optical interaction of matter with intense optical fields plays a key role in emerging photonic technologies in the areas of photonics. Recent reports on new kinds of materials exhibiting novel forms of physical mechanisms and innovative proposals for device applications have encouraged further research in the field. An increasing awareness and exposure to the vast scope of nonlinear optics call for a clear understanding of the basic physics involved with an introduction toward applications.
The available book on nonlinear optics are of quite a wide variety in terms of content, style, topic coverage and depth of treatment. While most of these books are excellent resources for the researchers, there is a strong need for books appropriate for presenting the subject at the undergraduate or postgraduate levels in Universities. This book has emerged from an attempt to address the requirement of presenting the subject at college level. A one-semester course covering the essentials can effectively be designed based on this. Care has been taken to include rigorous features such as: -elucidation of relevant basic principles of physics -clear exposition of the ideas involved at an appropriate level -coverage of the physical mechanisms of nonlinearity -update on physical mechanisms and emerging photonic materials and -emphasis on the experimental study of nonlinear interactions
The topics covered include quantum mechanics of nonlinear interaction of matter and radiation, formalism and phenomenology of nonlinear wave mixing processes, optical phase conjugation and applications, self-focusing and self phase modulation and their role in pulse modification, nonlinear absorption mechanisms and optical limiting applications, photonic switching and bistability, and physical mechanisms leading to nonlinear response in a variety of materials.
Contents 1. From Optics to Photonics 2. A Phenomenological View of Nonlinear Optics 3. Symmetry and Susceptibility Tensors 4. Calculation of Non-Linear Susceptibilities 5. Nonlinear Wave Mixing Processes 6. Optical Phase Conjugation and Bistability 7. Self Focusing, Phase Modulation and Pulse Shaping 8. Mechanisms and Materials Bibliography References Index.ISBN - 9789383656639
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Pages : 204
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