远程通信中的非线性光学

《远程通信中的非线性光学》全面、系统地从物理学的观点考察了非线性效应，并讨论了利用非线性来自效应提高信号容量的相关问题。

• 书名 远程通信中的非线性光学
• 作者 (德)施奈德(Schenider，T.)
• 出版社 科学出版社
• 出版时间 2007年4月
• 页数 415 页

内容简要

　　更大的带宽、更密的频道间隔和更高的信号强式特度使得非线性效应在远程通马信系统性能中的作用更加重要。本书包含了作者丰富的实践经验和实验结果，分别讨论了非线性效应在信号处理、超快光学开关、波长转换、非线性放大以及光学相位中的应用，本书作者--德国电信的施奈德(Thomas 利宗斤布结露封让在正Schneider)向读者展现了如何利用非线性效应来增加带宽以及克服先前局限的创新想法。本书每章来自后配有总结和习题急年酒承，可以作为研究生教材使用。

目录

　　1.Introduction

　　Part I.Fundamentals of Linear and Nonlinear Opti360百科cs

　　2.Overview of Linear Optical Effects

　　2.1 The Wave Equation for Linear Media

　　2.2 Solutio纸景诉划成希交非妒持福n of the Linear 盾蒸次洋Wave Equation

　　2.3 The Harmonic Oscillator Model

　　2.4 Attenuation

　　2.5 Amplification

　　2.6 The Refractive Index

　　2.6.1 The Sellmeier Equation

　　2.6.2 Pha织社衡别升危苗护供se Velocity, Group Velocity, and Dispersion

　　2.7 Biref皮在袁张紧片另试甚ringence

　　Summary

　　E内脸龙角源资意顶xercises

　　3.Optical Teleco史密范具mmumcations

　　3.1 Fiber Types

　　3.1.1 Step-Index and Graded-Index Fibers

　　3.2 Single Mode Fibers

　　3.2.1 Single Mode Fiber Types

　　3.3 Highly Nonlinear and Photonic Fibers

　　3.4 Modulation

　　3.5 Optical Transport Technologies

　　Summary

　　Exercises

　　4.Nonlinear Effects

　　4.1 The Nonlinear Oscillator

　　4.2 Nonli带端吗跳盐远消兰剧界near Polarization

　　4.3 The Nonlinear Susceptibility

　　4.3.1 Estimation of the Order of Magnit船把足上院低ude

　　of the Susceptibilities

　　4.4 The Nonlinear Wave Equation

　　4.5 Second Order Nonlinear Phenomena

　　4.6 Third Order Nonlinear Phenomena

　　4.7 The Nonli容吧near Refractive Index

　　4.8 Effective Area and Nonlinear Coefficient

　　4.9 Effective Length

　　4.10 Phase Matching

　　4导己奏诉航超水脸敌.11 Capacity Limit of Optical Fibers

　　Sum黄背核充比然mary

　　Exercises

　　Part II.Nonlinear Effects in Optical Waveguides

　屋　5.The No向接四县零树下化年nlinear Schr&o下该钱uml;dinger Equation

　　5.1 Derivation of the Nonlinear Schrödinger Equation

　　5.2 Dispersion and Nonlinear Length

　　5.3 The Linear Term

　　5.4 Dispersion Management

　　5.5 The Nonlinear Term

　　5.6 Numerical Solution of the NSE

　　Summary

　　Exercises

　　6.Self-and Cross-Phase Modulation

　　6.1 Self-Phase Modulation (SPM)

　　6.1.1 SPM\'s Impact on Communication Systems

　　6.1.2 Experimental Results

　　6.2 Cross-Phase Modulation (XPM)

　　6.2.1 Polarization Dependence of XPM

　　6.2.2 XPM\'s Impact on Communication Systems

　　Summary

　　Exercises

　　7.Four-Wave-Mixing (FWM)

　　7.1 Mixing between WDM Channels

　　7.2 Mathematical Description of FWM

　　7.3 Phase Matching

　　7.4 FWM\'s Impact on Communication Systems

　　7.5 FWM Suppression

　　7.6 Experimental Results

　　7.7 Polarization Dependence of FWM

　　7.7.1 Numerical Simulation

　　7.7.2 Results

　　Summary

　　Exercises

　　8.Intrachannel Nonlinear Effects

　　8.1 Mathematical Description

　　8.2 SPM and IXPM

　　8.3 IFWM and Ghost Pulses

　　8.4 IFWM Suppression

　　Summary

　　Exercises

　　9.Solitons

　　9.1 Mathematical Description

　　9.2 Higher Order Solitons

　　9.3 Limits of Solitons

　　9.3.1 The Gordon-Haus Effect

　　9.3.2 The Acoustic Effect

　　9.4 Increasing the Bit Rate in Soliton Systems

　　9.5 Mutual Interaction Between Solitons

　　9.6 Dispersion-Managed Solitons

　　Summary

　　Exercises

　　10.Raman Scattering

　　10.1 The Scattering of Light

　　10.2 Origin of Raman Scattering

　　10.2.1 Raman Scattering in the Harmonic Oscillator Model..244

　　10.3 Raman Scattering in Optical Fibers

　　10.3.1 Spontaneous and Stimulated Scattering

　　10.3.2 Threshold of Raman Scattering in Optical Waveguides 253

　　10.4 Impact of Raman Scattering on Communication Systems

　　Summary

　　Exercises

　　11.Brillouin Scattering

　　11.1 Scattering of Optical Waves at Sound Waves

　　11.2 Spontaneous and Stimulated Brillouin Scattering

　　11.3 The Brillouin Gain

　　11.3.1 Spectral Distribution

　　11.3.2 Frequency Shift

　　11.3.3 Gain Maximum

　　11.4 Threshold of Brillouin Scattering

　　11.5 SBS\'s impact on Communication Systems

　　11.6 Brillouin Scattering for Distributed Temperature and Strain Sensors

　　Summary

　　Exercises

　　Part III.Applications of Nonlinear Effects in Telecommunications

　　12.Optical Signal Processing

　　12.1 Spectrum Slicing and Nonlinear WDM Sources

　　12.2 Wavelength Conversion

　　12.2.1 Wavelength Conversion with FWM

　　12.2.2 Wavelength Conversion with XPM

　　12.2.3 Wavelength Conversion with SOA

　　12.3 Optical Switching

　　12.3.1 Photorefractive Optical Switches

　　12.3.2 Optical Switching with the XPM Effect

　　12.3.3 FWM for Optical Switching

　　12.3.4 Ultrafast Optical Switching

　　12.4 Retiming, Reshaping, and All-Optical Clock Recovery

　　12.5 Optical Filters with SBS

　　Summary

　　Exercises

　　13.Nonlinear Lasers and Amplifiers

　　13.1 Raman Amplifier

　　13.2 Raman Laser

　　13.3 Brillouin Amplifiers and Lasers

　　13.3.1 Radio-over-Fiber

　　13.4 Parametric Amplifiers

　　Summary

　　Exercises

　　14.Nonlinear Optical Phase Conjugation

　　14.1 Phase-Conjugating Mirrors

　　14.2 Distortion Compensation due to Phase Conjugation

　　14.3 Theoretical Description of NPC

　　14.4 Phase Conjugation as Holographic Model

　　14.5 Mid-span Spectral Inversion

　　Summary

　　Exercises

　　A.Appendices

　　A.1 div, grad, curl, rot

　　A.2 The Gaussian Pulse

　　A.3 Logarithmical Units

　　References

　　Index