By Govind P. Agrawal(auth.)
This ebook offers a finished account of fiber-optic communique structures. The 3rd variation of this e-book is used world wide as a textbook in lots of universities. This 4th variation accommodates contemporary advances that experience happened, particularly new chapters. One bargains with the complicated modulation codecs (such as DPSK, QPSK, and QAM) which are more and more getting used for making improvements to spectral potency of WDM lightwave structures. the second one chapter focuses on new strategies akin to all-optical regeneration which are less than improvement and certain for use in destiny communique structures. All different chapters are up-to-date, as well.Content:
Chapter 1 advent (pages 1–23):
Chapter 2 Optical Fibers (pages 24–78):
Chapter three Optical Transmitters (pages 79–127):
Chapter four Optical Receivers (pages 128–181):
Chapter five Lightwave platforms (pages 182–222):
Chapter 6 Multichannel platforms (pages 233–294):
Chapter 7 Loss administration (pages 295–344):
Chapter eight Dispersion administration (pages 345–406):
Chapter nine regulate of Nonlinear results (pages 407–458):
Chapter 10 complicated Lightwave platforms (pages 459–510):
Chapter eleven Optical sign Processing (pages 511–577):
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Additional resources for Fiber-Optic Communication Systems, Fourth Edition
13: Components of an optical transmitter. W corresponds to - 3 0 dBm. The launched power is rather low (< —10 dBm) for light-emitting diodes but semiconductor lasers can launch powers ~ 10 dBm. As light-emitting diodes are also limited in their modulation capabilities, most lightwave systems use semiconductor lasers as optical sources. The bit rate of optical transmitters is often limited by electronics rather than by the semiconductor laser itself. With proper design, optical transmitters can be made to operate at a bit rate of up to 40 Gb/s.
Kao and G. A. Hockham, Proc. IEE 113, 1151 (1966); A. Werts, Onde Electr. 45, 967 (1966).  F. P. Kapron, D. B. Keck, and R. D. Maurer, Appi. Phys. Lett. 17, 423 (1970).  I. Hayashi, M. B. Panish, P. W. Foy, and S. Sumski, Appi. Phys. Lett. 17, 109 (1970).  A. E. , IEEE]. Sei. Topics Quantum Electron. 6, 827 (2000). Several historical articles in this millennium issue cover the development of lasers and optical fibers. See, for example, the articles by Z. Alferov, W. A. Gambling, T. Izawa, D.
214 (1), 19 (1966). 22 Chapter 1. Introduction  K. C. Kao and G. A. Hockham, Proc. IEE 113, 1151 (1966); A. Werts, Onde Electr. 45, 967 (1966).  F. P. Kapron, D. B. Keck, and R. D. Maurer, Appi. Phys. Lett. 17, 423 (1970).  I. Hayashi, M. B. Panish, P. W. Foy, and S. Sumski, Appi. Phys. Lett. 17, 109 (1970).  A. E. , IEEE]. Sei. Topics Quantum Electron. 6, 827 (2000). Several historical articles in this millennium issue cover the development of lasers and optical fibers. See, for example, the articles by Z.