Noises in Optical Communications and Photonic Systems Optics and Photonics Series
Auteur : Binh Le Nguyen
Transmitting information over optical fibers requires a high degree of signal integrity due to noise levels existing in optical systems. Proper methods and techniques for noise evaluations are critical in achieving high-performance.
This book provides a fundamental understanding of noise generation processes in optical communications and photonic signals. It discusses techniques for noise evaluation in optical communication systems, especially digital optical systems, as well as transmission systems performance and noise impacts in photonic processing systems
Preface. Acknowledgement. Introduction/Why noises are important in optical communications. Noises and Fundamental Sensitivity Limit. ASK transmission systems. Phase Modulation Systems. QAM modulation Systems. OFDM optical Systems. Optically amplified reception Systems. Raman amplification and noise processes. Phase noises and nonlinear noises. Compensation to combat noises. Quantum limits and receiver sensitivity. Noises in microwave photonic systems. Noises in photonic processing systems. Appendix 1: Techniques for electronic noise evaluations. Appendix 2: Essential terms of noises. Appendix 3: Essential parameters of noises and optical transmission lines.
Le Nguyen Binh is a technical director at the European Research Center of Huawei Technologies Co., Ltd. in Munich, Germany. He is the editor, author, and/or coauthor of numerous books, as well as the editor of CRC Press’ Optics and Photonics series.
Date de parution : 09-2016
17.8x25.4 cm
Date de parution : 12-2019
17.8x25.4 cm
Thèmes de Noises in Optical Communications and Photonic Systems :
Mots-clés :
Optical MSK; Eye Diagrams; distributed; Quantum Shot Noises; feedback; Dispersion Tolerance; laser; Optical MSK Transmitter; local; Electronic Preamplifier; oscillator; Differential Phase Shift Keying; quadrature; Optical MSK Signal; amplitude; DCF; modulation; Balanced Receiver; electronic; RZ Pulse; preamplifier; MSK Signal; Coherent Receiver; Optical Receiver; Phase Trellis; Nyquist Pulse Shaping; Pulse Carver; MSK Format; Lo; Phase Noise; Nyquist Filter; RZ Format; Optically Amplified; MZDI; Complex Phase Shift