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Go to cartISBN: 9788130901534
Bind: Paperback
Year: 2017
Pages: 274
Size: 159 x 242 mm
Publisher: Viva Books Originals
Sales Territory: Worldwide
Description:
Guided Wave Optics forms the basic science underlying the field of optical fiber communication and integrated optical fiber communication and integrated optics. These areas have seen tremendous growth over the past three decades and continue to be in the forefront of the research under the broad area of photonics. This volume contains articles by authors, who have been active in some of these areas for over two decades. It covers three broad areas -physics of guidance in optical waveguides, guided wave optical components and tools of analysis of such waveguides and components. The topics covered are evolution of single-mode fiber designs including photonic crystal fibers, polarization effects in optical fibers, physics underlying fiber amplifiers like EDFA and Raman amplifiers, spatial and temporal solitons in optical fibres, nonlinear optical effects in optical waveguides, all-fiber components and sensors. The volume also includes analytical and numerical tools to analyse fiber and integrated optical waveguides. This volume should serve as a useful introduction to some of the contemporary areas of research and applications on guided wave optics.
Target Audience:
Students and academicians of Physics.
Contents:
Tailoring optical fiber design for communication • Polarization effects in single mode optical fibers • Optical fiber amplifiers • Temporal and spatial optical solitons • Cerenkov nonlinear interactions in optical waveguides • Photonic crystal fibers • Side-polished fiber Coupler half block and devices • Fused fiber coupler-based components for optical fiber communication • Optical Fiber gratings and their applications • Optical fiber sensors: Opportunities, underlying principles and examples • Modified airy function method for solving optical waveguide problems • Perturbation method for rectangular core waveguides and devices • Scalar variational analysis for optical waveguides • Optimal variational method for rectangular and channel waveguides • Numerical methods for scalar wave propagation
About the Authors:
Michael R. Green, Howard Hughes Medical Institute, University of Massachusetts Medical School
Joseph Sambrook, Peter MacCallum Cancer Institute, Melbourne, Australia