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Principles of Lightwave Communications

Author: Göran Einarsson

Publisher: Wiley

Published: 1996-06-19

Total Pages: 368

ISBN-13: 9780471952978

Principles of Lightwave Communications Göran Einarsson Royal Institute of Technology, Stockholm, Sweden Advances in optical communications and optoelectronic components have revolutionized telecommunication transmission. Uniquely, this book provides a comprehensive treatment of optical fiber communications using a modern communication theory approach. Presenting mathematical models for the building blocks of optical systems, this authoritative text provides a solid basis for analysis and design of lightwave communications systems. Features include: Introduction to the theory of dispersion in optical fibers including solitons Analysis of Heterodyne reception, including the effect of laser phase noise In-depth coverage of optical amplifiers from a communication theory point of view Optical detection theory with PIN-diodes and avalanche photodetectors with a detailed discussion of optical information theory Comprehensive treatment of direct detection receivers and systems Basics of analog optical systems This book is essential reading for engineers and scientists working in research and development of optical communication systems, particularly optical detection and fiber optics. Postgraduate students of physics and optical communications, with a basic knowledge of optics and optical semiconductor components, will also find this an invaluable reference source.

Lightwave Communications Systems: A Practical Perspective

Author: Rajappa Papannareddy

Publisher: Penram International Publishing (India) Pvt. Ltd.

Published:

Total Pages: 276

ISBN-13: 8187972122

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Coherent Lightwave Communications Technology

Author: S. Shimada

Publisher: Springer Science & Business Media

Published: 2012-12-06

Total Pages: 266

ISBN-13: 9401113084

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This book covers a wide range of technical issues relating to lightwave technologies using high coherence lightwaves. Electromagnetic wave communication started when the first wireless system was invented by Marconi in 1895. However, we had to wait about one hundred years to realize a similar technology in the lightwave frequency region. The invention of lasers in 1960 and two technology innovations in 1970 -low loss silica fiber and semiconductor lasers operating at room temperature - promoted the development of fiber-optic transmission systems. The deployment of high-speed long-haul fiber-optic transmission systems has led to the formation of domestic and international trunk networks. The installed fiber cables in local loop plants provide multimedia communication services including broadband video. However, present lightwave communication systems do not fully utilize the fruitful potential oflightwaves, namely the capacity of extremely high frequency electromagnetic information carrier waves. The frequency oflightwaves used for fiber-optic transmission is about 200 THz 14 (2 x 10 Hz), and the frequency bandwidth of the fiber low loss region is about 13 20 THz (2 x 10 Hz). Recent developments of narrow spectrum width semiconduc tor laser and planar optical waveguide devices offer us the possibilities for a new generation of lightwave-based communication systems. This book focuses on system aspects ofthe new generation lightwave communi cation technologies such as optical frequency division multiplexing and coherent detection. Chapter 1 overviews lightwave communication system technology.

Principles and Applications of Optical Communications

Author: Max Ming-Kang Liu

Publisher: McGraw-Hill Science, Engineering & Mathematics

Published: 1996

Total Pages: 1032

ISBN-13:

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Designed for a senior or graduate-level course in optical communications, Principles and Applications of Optical Communications offers comprehensive coverage of a variety of light wave technologies not often found in other texts. Taking an applied approach to the subject, this text has utility in a number of different optical communications courses and in advanced signal processing. The coverage and approach reflect Dr. Liu's background in industry. They offer students exposure to the latest technologies and give strong preparation for industry positions in optical communications.

Lightwave Communications

Author: George C. Papen

Publisher: Cambridge University Press

Published: 2019-01-10

Total Pages: 975

ISBN-13: 1108640117

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This pioneering, course-tested text is the first to combine communications theory with the physics of optical communications. Comprehensive and rigorous, it brings together an in-depth treatment of the physical characteristics of the guided lightwave channel with the study of modern methods of algorithmic-based communication in time and space. The many different levels at which a lightwave communication signal can be described are integrated to provide a unified explanation of how a commonplace bit stream is transformed into a physical lightwave, how that lightwave travels through an optical fiber, and how it is then transformed back into the bit stream. Background fundamentals such as linear systems and electromagnetics are explained in relation to modern topics such as channel models, encoding, modulation and interference, and end-of-chapter problems are provided throughout. This is an essential text for students taking courses on optical communications, as well as researchers and professionals working in the area.

High Speed Circuits For Lightwave Communications, Selected Topics In Electronics And Systems, Vol 1

Author: Keh-chung Wang

Publisher: World Scientific

Published: 1999-01-25

Total Pages: 374

ISBN-13: 9814495891

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High speed circuits are crucial for increasing the bandwidth of transmission and switching of voice/video/data over optical fiber networks. The ever-increasing demand for bit rates higher than those available due to the explosion of Internet traffic has driven engineers to develop integrated circuits of performance approaching 100 Gb/s. Commercial lightwave products using high speed circuits of 10 Gb/s and beyond are readily available.High Speed Circuits for Lightwave Communications presents the latest information on circuit design, measured results, applications, and product development. It covers electronic and opto-electronic circuits for transmission, receiving, and cross-point switching. These circuits were implemented with various state-of-the-art IC technologies, including Si BJT, GaAs MESFET, HEMT, HBT, as well as InP HEMT and HBT. The book, written by more than 50 experts, will benefit graduate students, researchers, and engineers who are interested in or work in this exciting and challenging field of optical communications.

Coherent and Nonlinear Lightwave Communications

Author: Milorad Cvijetic

Publisher: Artech House Publishers

Published: 1996

Total Pages: 330

ISBN-13:

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This book presents a systematic, up-to-date review of modulation and detection principles, and provides new insights into recent research in modern telecommunications.