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Fiber-optic communication systems / Govind P. Agrawal.

By: Material type: TextTextSeries: Wiley series in microwave and optical engineeringPublisher: New York : Wiley-Interscience, [2002]Copyright date: ©2002Edition: Third editionDescription: xvii, 546 pages : illustrations, map ; 25 cm + 1 computer disc (12 cm)Content type:
  • text
  • computer dataset
Media type:
  • unmediated
  • computer
Carrier type:
  • volume
  • computer disc
ISBN:
  • 0471215716
  • 9780471215714
Other title:
  • Fibre-optic communication systems
Subject(s): DDC classification:
  • 621.38275 23
LOC classification:
  • TK5103.59 .A37 2002
Online resources:
Contents:
1. Introduction. 1.1. Historical Perspective. 1.2. Basic Concepts. 1.3. Optical Communication Systems. 1.4. Lightwave System Components -- 2. Optical Fibers. 2.1. Geometrical-Optics Description. 2.2. Wave Propagation. 2.3. Dispersion in Single-Mode Fibers. 2.4. Dispersion-Induced Limitations. 2.5. Fiber Losses. 2.6. Nonlinear Optical Effects. 2.7. Fiber Manufacturing -- 3. Optical Transmitters. 3.1. Basic Concepts. 3.2. Light-Emitting Diodes. 3.3. Semiconductor Lasers. 3.4. Control of Longitudinal Modes. 3.5. Laser Characteristics. 3.6. Transmitter Design -- 4. Optical Receivers. 4.1. Basic Concepts. 4.2. Common Photodetectors. 4.3. Receiver Design. 4.4. Receiver Noise. 4.5. Receiver Sensitivity. 4.6. Sensitivity Degradation. 4.7. Receiver Performance -- 5. Lightwave Systems. 5.1. System Architectures. 5.2. Design Guidelines. 5.3. Long-Haul Systems. 5.4. Sources of Power Penalty. 5.5. Computer-Aided Design -- 6. Optical Amplifiers. 6.1. Basic Concepts. 6.2. Semiconductor Optical Amplifiers. 6.3. Raman Amplifiers. 6.4. Erbium-Doped Fiber Amplifiers. 6.5. System Applications -- 7. Dispersion Management. 7.1. Need for Dispersion Management. 7.2. Precompensation Schemes. 7.3. Postcompensation Techniques. 7.4. Dispersion-Compensating Fibers. 7.5. Optical Filters. 7.6. Fiber Bragg Gratings. 7.7. Optical Phase Conjugation. 7.8. Long-Haul Lightwave Systems. 7.9. High-Capacity Systems -- 8. Multichannel Systems. 8.1. WDM Lightwave Systems. 8.2. WDM Components. 8.3. System Performance Issues. 8.4. Time-Division Multiplexing. 8.5. Subcarrier Multiplexing. 8.6. Code-Division Multiplexing -- 9. Soliton Systems. 9.1. Fiber Solitons. 9.2. Soliton-Based Communications. 9.3. Loss-Managed Solitons. 9.4. Dispersion-Managed Solitons. 9.5. Impact of Amplifier Noise. 9.6. High-Speed Soliton Systems. 9.7. WDM Soliton Systems -- 10. Coherent Lightwave Systems. 10.1. Basic Concepts. 10.2. Modulation Formats. 10.3. Demodulation Schemes. 10.4. Bit-Error Rate. 10.5. Sensitivity Degradation. 10.6. System Performance. App. C. General Formula for Pulse Broadening -- App. D. Ultimate System Capacity.
Review: "Although intended primarily as a textbook for graduate students of fiber-optic communications, this book is also a valuable resource for undergraduate courses at the senior level and a valuable professional reference for researchers and engineers working in the fields of telecommunications and lightwave technology."--BOOK JACKET.
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Holdings
Item type Current library Call number Copy number Status Date due Barcode
Book City Campus City Campus Main Collection 621.38275 AGR (Browse shelf(Opens below)) 1 Available A256659B
Accompanying Material City Campus City Campus Main Collection 621.38275 AGR Accompanying part (Disc) (Browse shelf(Opens below)) 1 Not for loan A256655B

"A Wiley-Interscience publication.".

Previous ed.: 1997.

Accompanied by: 1 computer disc (CD-ROM)

Includes bibliographical references and index.

1. Introduction. 1.1. Historical Perspective. 1.2. Basic Concepts. 1.3. Optical Communication Systems. 1.4. Lightwave System Components -- 2. Optical Fibers. 2.1. Geometrical-Optics Description. 2.2. Wave Propagation. 2.3. Dispersion in Single-Mode Fibers. 2.4. Dispersion-Induced Limitations. 2.5. Fiber Losses. 2.6. Nonlinear Optical Effects. 2.7. Fiber Manufacturing -- 3. Optical Transmitters. 3.1. Basic Concepts. 3.2. Light-Emitting Diodes. 3.3. Semiconductor Lasers. 3.4. Control of Longitudinal Modes. 3.5. Laser Characteristics. 3.6. Transmitter Design -- 4. Optical Receivers. 4.1. Basic Concepts. 4.2. Common Photodetectors. 4.3. Receiver Design. 4.4. Receiver Noise. 4.5. Receiver Sensitivity. 4.6. Sensitivity Degradation. 4.7. Receiver Performance -- 5. Lightwave Systems. 5.1. System Architectures. 5.2. Design Guidelines. 5.3. Long-Haul Systems. 5.4. Sources of Power Penalty. 5.5. Computer-Aided Design -- 6. Optical Amplifiers. 6.1. Basic Concepts. 6.2. Semiconductor Optical Amplifiers. 6.3. Raman Amplifiers. 6.4. Erbium-Doped Fiber Amplifiers. 6.5. System Applications -- 7. Dispersion Management. 7.1. Need for Dispersion Management. 7.2. Precompensation Schemes. 7.3. Postcompensation Techniques. 7.4. Dispersion-Compensating Fibers. 7.5. Optical Filters. 7.6. Fiber Bragg Gratings. 7.7. Optical Phase Conjugation. 7.8. Long-Haul Lightwave Systems. 7.9. High-Capacity Systems -- 8. Multichannel Systems. 8.1. WDM Lightwave Systems. 8.2. WDM Components. 8.3. System Performance Issues. 8.4. Time-Division Multiplexing. 8.5. Subcarrier Multiplexing. 8.6. Code-Division Multiplexing -- 9. Soliton Systems. 9.1. Fiber Solitons. 9.2. Soliton-Based Communications. 9.3. Loss-Managed Solitons. 9.4. Dispersion-Managed Solitons. 9.5. Impact of Amplifier Noise. 9.6. High-Speed Soliton Systems. 9.7. WDM Soliton Systems -- 10. Coherent Lightwave Systems. 10.1. Basic Concepts. 10.2. Modulation Formats. 10.3. Demodulation Schemes. 10.4. Bit-Error Rate. 10.5. Sensitivity Degradation. 10.6. System Performance. App. C. General Formula for Pulse Broadening -- App. D. Ultimate System Capacity.

"Although intended primarily as a textbook for graduate students of fiber-optic communications, this book is also a valuable resource for undergraduate courses at the senior level and a valuable professional reference for researchers and engineers working in the fields of telecommunications and lightwave technology."--BOOK JACKET.

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