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Mitigate signal loss and upgrade fiber capacity with the first comprehensive guide to Raman amplification!
Carefully structured to provide practical knowledge on fundamental issues, Optical Fiber Communications Systems: Theory and Practice with MATLAB and Simulink Models explores advanced modulation and transmission techniques of lightwave communication systems. With coverage ranging from fundamental to modern aspects, the text presents optical communic
This edited monograph is written by leading experts in this area and is the first book entirely devoted to Raman amplification. Three sections include extensive background on Raman physics, descriptions of sub-systems and modules utilizing Raman technology, and a review of current state-of-the-art systems.
Authored by internationally recognized experts on optical solitons, this book addresses the forefront of technology in the important field of optical communications. It deals with topics from the motion of light waves in optical fibres to the evolution of light wavepackets, and other applications.
Market_Desc: Although written primarily for graduate students, the book can also be used for an undergraduate course at the senior level with an appropriate selection of topics. The potential readership is likely to consist of senior undergraduate students, graduate students enrolled in the M. S. and Ph.D. degree programs, engineers and technicians involved with the telecommunications industry, and scientists working in the fields of fiber optics and optical communications. Special Features: · The third edition of a proven best seller · The book is accompanied by a Solutions Manual · A comprehensive, up to date account of fiber-optic communication systems · Book is accompanied by CD-ROM providing applications based on text About The Book: This book is intended to fulfill the requirements of a graduate-level textbook in the field of optical communications. An attempt is made to include as much recent material as possible so that students are exposed to the recent advances in this exciting field. The book can also serve as a reference text for researchers already engaged in or wishing to enter the field of optical fiber communications. The reference list at the end of each chapter is more elaborate than what is common for a typical textbook. The listing of recent research papers should be useful for researchers using this book as a reference. At the same time, students can benefit from it if they are assigned problems requiring reading of original research papers. A set of problems is included at the end of each chapter to help both teacher and student.
The development of new highly nonlinear fibers - referred to as microstructured fibers, holey fibers and photonic crystal fibers - is the next generation technology for all-optical signal processing and biomedical applications. This new edition has been thoroughly updated to incorporate these key technology developments. The book presents sound coverage of the fundamentals of lightwave technology, along with material on pulse compression techniques and rare-earth-doped fiber amplifiers and lasers. The extensively revised chapters include information on fiber-optic communication systems and the ultrafast signal processing techniques that make use of nonlinear phenomena in optical fibers. New material focuses on the applications of highly nonlinear fibers in areas ranging from wavelength laser tuning and nonlinear spectroscopy to biomedical imaging and frequency metrology. Technologies such as quantum cryptography, quantum computing, and quantum communications are also covered in a new chapter. This book will be an ideal reference for: R&D engineers working on developing next generation optical components; scientists involved with research on fiber amplifiers and lasers; graduate students and researchers working in the fields of optical communications and quantum information. The only book on how to develop nonlinear fiber optic applications Two new chapters on the latest developments; Highly Nonlinear Fibers and Quantum Applications Coverage of biomedical applications
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This book serves as a comprehensive, up-to-date reference about this cutting-edge laser technology and its many new and interesting developments. Various aspects and trends of Raman fiber lasers are described in detail by experts in their fields. Raman fiber lasers have progressed quickly in the past decade, and have emerged as a versatile laser technology for generating high power light sources covering a spectral range from visible to mid-infrared. The technology is already being applied in the fields of telecommunication, astronomy, cold atom physics, laser spectroscopy, environmental sensing, and laser medicine. This book covers various topics relating to Raman fiber laser research, including power scaling, cladding and diode pumping, cascade Raman shifting, single frequency operation and power amplification, mid-infrared laser generation, specialty optical fibers, and random distributed feedback Raman fiber lasers. The book will appeal to scientists, students, and technicians seeking to understand the recent developments and future trends of this promising and multifaceted technology.
As technology progresses, demand for information has become more immediate, driven by the Internet. The exponential increase of data traffic over the past decades facilitated the development of technologies capable of delivering higher capacities. However, the current design of optical networks based on lumped amplification method (EDFA) accounting for more than 90% of all commercially deployed amplifiers will not be able to accommodate less-noise resistant high level modulation formats to handle the capacity requirements in a single mode optical fibre. Low noise distributed Raman amplification is a promising alternative that can overcome the limits set by EDFA and satisfy the bandwidth demand. The unique amplification method that uses fibre Bragg grating to form an ultra-long Raman fibre laser minimises the variation of the effective gain-loss coefficient along the propagation forming a quasi-lossless transmission medium, realising long-term goal of optical communications, as it brings with it a minimisation of the amplified spontaneous emission (ASE) noise build-up along the optical fibre.