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Nonlinear optical effects in organic polymers by NATO Advanced Research Workshop on Nonlinear Optical Effects in Organic Polymers (1988 Sophia-Antipolis, France)

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Published by Kluwer Academic Publishers in Dordrecht, Boston .
Written in English

Subjects:

  • Polymers -- Optical effects -- Congresses.,
  • Nonlinear optics -- Congresses.

Book details:

Edition Notes

Statementedited by J. Messier ... [et al.].
SeriesNATO ASI series. Series E, Applied sciences ;, vol. 162, NATO ASI series., no. 162.
ContributionsMessier, J. 1930-, North Atlantic Treaty Organization. Scientific Affairs Division.
Classifications
LC ClassificationsQD381.9.O66 N37 1988
The Physical Object
Paginationxiv, 396 p. :
Number of Pages396
ID Numbers
Open LibraryOL2058411M
ISBN 100792301323
LC Control Number88037517

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ISBN: OCLC Number: Notes: Proceedings of the NATO Advanced Research Workshop on Nonlinear Optical Effects in Organic Polymers, Sophia-Antipolis, Nice, France, May, "--Title page verso.   Purchase Nonlinear Optical Properties of Organic Molecules and Crystals V1 - 1st Edition. Print Book & E-Book. ISBN , Book Edition: 1.   Principles and origin of nonlinear optical effects in organic media Nonlinear optical effects arise from the interaction of electromagnetic fields in various dielectric media to produce new fields altered in phase, frequency, amplitude or other propagation characteristics relative to the incident optical by: About the author () About the authors PARAS N. PRASAD is Professor of Chemistry and Director of Photonics Research Laboratory at the State University of New York at Buffalo, where he has been.

Nonlinear Optical Effects and Materials describes progress achieved in the field of nonlinear optics and nonlinear optical materials. Selected topics such as photorefractive materials, third-order nonlinear optical materials and organic nonlinear optical crystals, as well as electro-optic polymers are treated. This publication is beneficial to solid-state physicists and chemists concerned with nonlinear optical properties of organic molecules and crystals. Show less Nonlinear Optical Properties of Organic Molecules and Crystals, Volume 1 discusses the nonlinear optical effects in organic molecules and crystals, providing a classical distinction. The first nonlinear optical effect to be predicted was two-photon absorption, by Maria Goeppert Mayer for her PhD in , but it remained an unexplored theoretical curiosity until and the almost simultaneous observation of two-photon absorption at Bell Labs and the discovery of second-harmonic generation by Peter Franken et al. at University of Michigan, both shortly after the construction of the . Introduction to Nonlinear Optical Effects in Molecules and Polymers | Wiley Molecular Dynamics in Restricted Geometries Edited by Joseph Klafter and J. M. Drake This investigation of the chemistry and physics of complex systems focuses on the role of spatial restrictions on molecular movement.

Over the past decade the study of nonlinear optical processes in organic and polymer systems has enjoyed rapid and sustained growth. One indication of that growth is the increase in the number of articles published inrefereed society journals. The four‐year period –83 saw the publication of such articles. For the four‐year period a decade later the production of articles in the. : Introduction to Nonlinear Optical Effects in Molecules and Polymers () by Prasad, Paras N.; Williams, David J. and a great selection of similar New, Used and Collectible Books available now at great prices. Organic molecules and polymers form an important class of nonlinear optical material. This paper discusses the basic relevant concepts in the newly emerging area of nonlinear optical processes in organic molecules and polymers. It provides the results of a comprehensive study in this area being conducted in my laboratory. Sigma-Aldrich® offers a wide range of organic NLO materials, including chromophors, intermediates, NLO monomers and NLO polymers. Organic NLO materials are often superior to inorganics in terms of their response speed, optical clarity, and the magnitude of their third-order susceptibility. For a material to exhibit NLO activity it should be noncentrosymmetric.