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Optical Waveguide Concepts (Optical Wave Sciences and Technology) download ebook

by C. Vassallo

Optical Waveguide Concepts (Optical Wave Sciences and Technology) download ebook
ISBN:
0444886842
ISBN13:
978-0444886842
Author:
C. Vassallo
Publisher:
Elsevier Science (October 31, 1991)
Language:
Pages:
322 pages
ePUB:
1148 kb
Fb2:
1549 kb
Other formats:
mobi lrf doc azw
Category:
Engineering
Subcategory:
Rating:
4.8

Optical Waveguide Concepts book. This book is the first volume to appear in the new series Optical Wave Sciences and Technology

Optical Waveguide Concepts book. This book is the first volume to appear in the new series Optical Wave Sciences and Technology. The main focus of the work is on single-mode optics, examining in turn the basic tools, the derivation of normal modes, the perturbation problems and finally the discontinuity problems.

Get a full overview of Optical Wave Sciences and Technology Book Series. Dielectric optical waveguides have been investigated for more than two decades. Most recent Volume: Anisotropic and Nonlinear Optical Waveguides. Existing waveguides can be divided into two sets: one consisting of waveguides which are already in practical use, and the second of those which are still at the laboratory stage of their evolution.

Items related to Optical Waveguide Concepts (Optical Wave Sciences an. .C. Vassallo Optical Waveguide Concepts (Optical Wave Sciences and Technology). ISBN 13: 9780444886842. Optical Waveguide Concepts (Optical Wave Sciences and Technology).

oceedings{C, title {Optical Waveguide Concepts}, author {Charles L. Vassallo} . 2. Modes of Optical Waveguides - I. The weak guidance approximation. Waveguides embedded in a low index medium. Step-index slab waveguides. Step-index circular fibers. Vassallo}, year {1991} }. Charles L. Vassallo. Weakly guiding anisotropic waveguides. 3. Modes of Optical Waveguides - II. Graded slabs or fibers. 3-D planar waveguides.

Optical Waveguides and Fibers. Article · January 2012 with 49 Reads

Optical Waveguides and Fibers. Article · January 2012 with 49 Reads. How we measure 'reads'. Some basic concepts have been clarified that will determine the efficiency of the system. Direct numerical integration of the wave equation is used to establish the validity of approximating the fundamental mode of graded-index fibers by a Gaussian function. We show that the fundamental modes of fibers, whose index profile can be expressed as a power law, are indeed very nearly Gaussian in shape (that is probably also true for graded-index fibers with convex profiles other than a power law).

Vassallo, Optical waveguide concepts (Elsevier Amsterdam, 1991). R. Scarmozzino, A. Gopinath, R. Pregla, and S. Helfert, Numerical techniques for modeling guided-wave photonic devices, IEEE J. Sel. Top. Quantum Electron.

Optical Waveguide Sciences. Optical waveguide sciences. Leaky-wave Modes and Their Role in the Numerical Evaluation of the Field Excited by a Line Source in a Non-Symmetric, Inhomogeneously Layered Slab Waveguide. Proceedings of the International Symposium, held at Kweilin, People's Republic of China (PRC), June 20-23, 1983. Sponsored by The Chinese Institute ofElectronics (CIE). Fiber optics-Cangresses. Optical Image Transmission Through a Single Fiber by Chromatic coding.

An optical waveguide is a physical structure that guides electromagnetic waves in the optical spectrum. Common types of optical waveguides include optical fiber and transparent dielectric waveguides made of plastic and glass

An optical waveguide is a physical structure that guides electromagnetic waves in the optical spectrum. Common types of optical waveguides include optical fiber and transparent dielectric waveguides made of plastic and glass. Optical waveguides are used as components in integrated optical circuits or as the transmission medium in local and long haul optical communication systems.

Optical devices are necessary to meet the anticipated future requirements for ultrafast and ultrahigh bandwidth communication and computing. All optical information processing can overcome optoelectronic conversions that limit both the speed and bandwidth and are also power consuming. The building block of an optical device/circuit is the optical waveguide, which enables low-loss light propagation and is thereby used to connect components and devices.

Optical waveguides are planar dielectric structures with a core surrounded by cladding material. The ideal waveguide has low loss (<0. 2 dBcm−1), is easily coupled to optical fibers and laser diodes, can be inexpensively fabricated, is polarization insensitive, has low dispersion ( propagation speed) in the wavelength regime of interest, and exhibits little environmental dependence. For active devices, the material should have a large ptic/acoustooptic effect and matched optical and microwave dielectric constants

This book is the first volume to appear in the new series Optical Wave Sciences and Technology. It provides a comprehensive review on recent trends in optical waveguide theory. The main focus of the work is on single-mode optics, examining in turn the basic tools, the derivation of normal modes, the perturbation problems and finally the discontinuity problems.This new book series, which is open ended, is aimed at scientists working in the field of electromagnetic theory and its applications. Maxwell's equations will form the ultimate basis, either explicitly or implicitly of every book in the series.