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Advances in Nonlinear Optics Ser.: Physics of Photorefraction in Polymers by Dave West and D. J. Binks (2004, Hardcover)

HomeAdvances in Nonlinear Optics Ser.: Physics of Photorefraction in Polymers by Dave West and D. J. Binks (2004, Hardcover)
Advances in Nonlinear Optics Ser.: Physics of Photorefraction in Polymers by Dave West and D. J. Binks (2004, Hardcover)-image

Advances in Nonlinear Optics Ser.: Physics of Photorefraction in Polymers by Dave West and D. J. Binks (2004, Hardcover)

$ 120.61

Physics Of Photorefraction In Polymers, Hardcover by West, Dave; Binks, David J., ISBN 0415310733, ISBN-13 9780415310734, Like New Used, Free shipping in the US Empirical studies of photorefraction in...

Description

Physics Of Photorefraction In Polymers, Hardcover by West, Dave; Binks, David J., ISBN 0415310733, ISBN-13 9780415310734, Like New Used, Free shipping in the US Empirical studies of photorefraction in polymers have often been based on assumptions of comparability between polymers and photorefractive crystals. In contrast to studies of photorefractive crystals, the authors (both of the U. of Manchester, UK) note, there is little evidence that multilevel photorefractive charge trap models are needed. Accordingly, they apply a simple, single-trap level model of photorefraction to polymers which they argue is sufficient to explain the known behaviors of polymers if the reorientation process is allowed to be dispersive, rather than insisting on a characteristic time scale, as happens in models based in comparability. They provide chapters on the charge photogeneration process, the dispersion in charge transportation, and the electro-optical response that creates a phase hologram from the pattern in the electric field. A final chapter considers a simple model of the dispersion in the reorientational electro-optic dynamics of polymers, in which the number of free parameters to be determined from experiment has been reduced in order to obviate the need for many empirical studies. Annotation ©2004 Book News, Inc., Portland, OR ()

Specifics

Author

Dave West, D. J. Binks
Dewey Decimal

535/.324
Dewey Edition

22
Format

Hardcover
ISBN-10

0415310733
ISBN-13

9780415310734
Illustrated

Yes
Intended Audience

Scholarly & Professional
Item Height

0.5 in
Item Length

9.4 in
Item Weight

24.4 Oz
Item Width

6.3 in
LC Classification Number

QD381.9.O66
LCCN

2004-054204
Language

English
Number of Pages

144 Pages
Publication Name

Physics of Photorefraction in Polymers
Publication Year

2004
Publisher

CRC Press LLC
Series

Advances in Nonlinear Optics Ser.
Subject

Lasers & Photonics, Physics / Condensed Matter, Physics / Polymer, Physics / Optics & Light, Optics, Physics / General
Subject Area

Technology & Engineering, Science
Synopsis

Topics as diverse as charge generation, dispersive charge transport, charge compensation and trapping, molecular diffusion, organic composite structure and nonlinear optical wave coupling are all developed from a physical perspective., Photorefractive polymer composites are an unusually sensitive class of photopolymers. Physics of Photorefraction in Polymers describes our current understanding of the physical processes that produce a photorefractive effect in key composite materials. Topics as diverse as charge generation, dispersive charge transport, charge compensation and trapping, molecular diffusion, organic composite structure, and nonlinear optical wave coupling are all developed from a physical perspective. Emphasis is placed on explaining how these physical processes lead to observable properties of the polymers, and the authors discuss various applications, including holographic archiving.
Table Of Content

Photorefractive polymer composites are an unusually sensitive class of photopolymers. Physics of Photorefraction in Polymers describes our current understanding of the physical processes that produce a photorefractive effect in key composite materials. Topics as diverse as charge generation, dispersive charge transport, charge compensation and trapping, molecular diffusion, organic composite structure, and nonlinear optical wave coupling are all developed from a physical perspective. Emphasis is placed on explaining how these physical processes lead to observable properties of the polymers, and the authors discuss various applications, including holographic archiving.
Type

Textbook
brand

CRC Press LLC
gtin13

9780415310734