美国罗切斯特大学James C. Wyant光学教授,曾任OSA期刊Advances in Optics and Photonics主编(2014~2019),2012年IEEE量子电子学奖获得者,2015年Esther Hoffman Beller奖章获得者,2019年美国光学学会Max Born奖、欧洲物理学会量子电子学和光学奖获得者。世界光电子和光通信领域的著名学者,在非线性光学和光纤通信领域著作颇丰。OSA会士,IEEE终身会士。美国罗切斯特大学James C. Wyant光学教授,曾任OSA期刊Advances in Optics and Photonics主编(2014~2019),2012年IEEE量子电子学奖获得者,2015年Esther Hoffman Beller奖章获得者,2019年美国光学学会Max Born奖、欧洲物理学会量子电子学和光学奖获得者。世界光电子和光通信领域的著名学者,在非线性光学和光纤通信领域著作颇丰。OSA会士,IEEE终身会士。
目錄:
CHAPTER 1 Introduction 导论1.1 Historical perspective 历史回顾1.2 Fiber characteristics 光纤的基本特性1.2.1 Material and fabrication 材料和制造1.2.2 Fiber losses 光纤损耗1.2.3 Chromatic dispersion 色度色散1.2.4 Polarization-mode dispersion 偏振模色散1.3 Fiber nonlinearities 光纤非线性1.3.1 Nonlinear refraction 非线性折射1.3.2 Stimulated inelastic scattering 受激非弹性散射1.3.3 Importance of nonlinear effects 非线性效应的重要性1.4 Overview 综述Problems 习题References 参考文献CHAPTER 2 Pulse propagation in fibers 脉冲在光纤中的传输2.1 Maxwell’s equations 麦克斯韦方程组2.2 Fiber modes 光纤模式2.2.1 Eigenvalue equation 本征值方程2.2.2 Characteristics of the fundamental mode 基模特性2.3 Pulse-propagation equation 脉冲传输方程2.3.1 Nonlinear wave equation 非线性波动方程2.3.2 Higher-order nonlinear effects 高阶非线性效应2.3.3 Raman response function and its impact 喇曼响应函数及其作用2.4 Numerical methods 数值方法2.4.1 Split-step Fourier method 分步傅里叶法2.4.2 Finite-difference methods 有限差分法Problems 习题References 参考文献CHAPTER 3 Group-velocity dispersion 群速度色散3.1 Different propagation regimes 不同的传输区域3.2 Dispersion-induced pulse broadening 色散感应的脉冲展宽3.2.1 Gaussian pulses 高斯脉冲3.2.2 Chirped Gaussian pulses 啁啾高斯脉冲3.2.3 Hyperbolic secant pulses 双曲正割脉冲3.2.4 Super-Gaussian pulses 超高斯脉冲3.2.5 Experimental results 实验结果3.3 Third-order dispersion 三阶色散3.3.1 Chirped Gaussian pulses 啁啾高斯脉冲3.3.2 Broadening factor 展宽因子3.3.3 Ultrashort-pulse measurements 超短脉冲测量3.4 Dispersion management 色散管理3.4.1 Dispersion compensation 色散补偿3.4.2 Compensation of third-order dispersion 三阶色散补偿3.4.3 Dispersion-varying fibers 色散变化光纤Problems 习题References 参考文献CHAPTER 4 Self-phase modulation 自相位调制4.1 SPM-induced spectral changes 自相位调制感应频谱变化4.1.1 Nonlinear phase shift 非线性相移4.1.2 Changes in pulse spectra 脉冲频谱的变化4.1.3 Effect of pulse shape and initial chirp 脉冲形状和初始啁啾的影响4.1.4 Effect of partial coherence 部分相干效应4.2 Effect of group-velocity dispersion 群速度色散的影响4.2.1 Pulse evolution 脉冲演化4.2.2 Broadening factor 展宽因子4.2.3 Optical wave breaking 光波分裂4.2.4 Experimental results 实验结果4.2.5 Effect of third-order dispersion 三阶色散效应4.2.6 SPM effects in fiber amplifiers 光纤放大器中的自相位调制效应4.3 Semianalytic techniques 半解析方法4.3.1 Moment method 矩方法4.3.2 Variational method 变分法4.3.3 Specific analytic solutions 具体解析解4.4 Higher-order nonlinear effects 高阶非线性效应4.4.1 Self-steepening 自变陡效应4.4.2 Effect of GVD on optical shocks 群速度色散对光波冲击的影响4.4.3 Intrapulse Raman scattering 脉冲内喇曼散射Problems 习题References 参考文献CHAPTER 5 Optical solitons 光孤子5.1 Modulation instability 调制不稳定性5.1.1 Linear stability analysis 线性稳定性分析5.1.2 Gain spectrum 增益谱5.1.3 Experimental observation 实验结果5.1.4 Ultrashort pulse generation 超短脉冲产生5.1.5 Impact of loss and third-order dispersion 损耗和三阶色散的影响5.1.6 Spatial modulation of fiber parameters 光纤参量的空间调制5.2 Fiber solitons 光孤子5.2.1 Inverse scattering method 逆散射法5.2.2 Fundamental soliton 基阶孤子5.2.3 Second and higher-order solitons 二阶和高阶孤子5.2.4 Experimental confirmation 实验验证5.2.5 Soliton stability 孤子稳定性5.3 Other types of solitons 其他类型的孤子5.3.1 Dark solitons 暗孤子5.3.2 Bistable solitons 双稳孤子5.3.3 Dispersion-managed solitons 色散管理孤子5.3.4 Optical similaritons 光相似子5.4 Perturbation of solitons 孤子微扰5.4.1 Perturbation methods 微扰法5.4.2 Fiber loss 光纤损耗5.4.3 Soliton amplification 孤子放大5.4.4 Soliton interaction 孤子互作用5.5 Higher-order effects 高阶效应5.5.1 Moment equations for pulse parameters 脉冲参量的矩方程5.5.2 Third-order dispersion 三阶色散5.5.3 Self-steepening 自变陡效应5.5.4 Intrapulse Raman scattering 脉冲内喇曼散射5.6 Propagation of femtosecond pulses 飞秒脉冲的传输Problems 习题References 参考文献CHAPTER 6 Polarization effects 偏振效应6.1 Nonlinear birefringence 非线性双折射6.1.1 Origin of nonlinear birefringence 非线性双折射的起源6.1.2 Coupled-mode equations 耦合模方程6.1.3 Elliptically birefringent fibers 椭圆双折射光纤6.2 Nonlinear phase shift 非线性相移6.2.1 Nondispersive XPM 无色散交叉相位调制6.2.2 Optical Kerr effect 光克尔效应6.2.3 Pulse shaping 脉冲整形6.3 Evolution of polarization state 偏振态的演化6.3.1 Analytic solution 解析解6.3.2 Poincaré-sphere representation 邦加球表示法6.3.3 Polarization instability 偏振不稳定性6.3.4 Polarization chaos 偏振混沌6.4 Vector modulation instability 矢量调制不稳定性6.4.1 Low-birefringence fibers 低双折射光纤6.4.2 High-birefringence fibers 高双折射光纤6.4.3 Isotropic fibers 各向同性光纤6.4.4 Experimental results 实验结果6.5 Birefringence and solitons 双折射和孤子6.5.1 Low-birefringence fibers 低双折射光纤6.5.2 High-birefringence fibers 高双折射光纤6.5.3 Soliton-dragging logic gates 孤子牵引逻辑门6.5.4 Vector solitons 矢量孤子6.6 Higher-order effects 高阶效应6.6.1 Extended coupled-mode equations 耦合模方程的扩展6.6.2 Impact of TOD and Raman nonlinearity 三阶色散和喇曼非线性的影响6.6.3 Interaction of two vector solitons 两个矢量孤子的相互作用6.7 Random birefringence 随机双折射6.7.1 Polarization-mode dispersion 偏振模色散6.7.2 Vector form of the NLS equation 非线性薛定谔方程的矢量形式6.7.3 Effects of PMD on solitons 偏振模色散对孤子的影响Problems 习题References 参考文献CHAPTER 7 Cross-phase modulation 交叉相位调制7.1 XPM-induced nonlinear coupling 交叉相位调制感应的非线性耦合7.1.1 Nonlinear refractive index 非线性折射率7.1.2 Coupled NLS equations 耦合非线性薛定谔方程7.2 XPM-induced modulation instability 交叉相位调制感应的调制不稳定性7.2.1 Linear stability analysis 线性稳定性分析7.2.2 Experimental results 实验结果7.3 XPM-paired solitons 交叉相位调制配对孤子7.3.1 Bright?Cdark soliton pair 亮?C暗孤子对7.3.2 Bright?Cgray soliton pair 亮?C灰孤子对7.3.3 Periodic solutions 周期解7.3.4 Multiple coupled NLS equations 多耦合非线性薛定谔方程7.4 Spectral and temporal effects 频域和时域效应7.4.1 Asymmetric spectral broadening 非对称频谱展宽7.4.2 Asymmetric temporal changes 非对称时域变化7.4.3 Higher-order nonlinear effects 高阶非线性效应7.5 Applications of XPM 交叉相位调制的应用7.5.1 XPM-induced pulse compression 交叉相位调制感应的脉冲压缩7.5.2 XPM-induced optical switching 交叉相位调制感应的光开关7.5.3 XPM-induced wavelength conversion 交叉相位调制感应的波长变换7.6 Polarization effects 偏振效应7.6.1 Vector theory of XPM 交叉相位调制的矢量理论7.6.2 Polarization evolution 偏振演化7.6.3 Polarization-dependent spectral broadening 偏振相关频谱展宽7.6.4 Pulse trapping and compression 脉冲捕获和压缩7.6.5 XPM-induced wave breaking 交叉相位调制感应光波分裂7.7 XPM effects in birefringent fibers 双折射光纤中的交叉相位调制效应7.7.1 Fibers with low birefringence 低双折射光纤7.7.2 Fibers with high birefringence 高双折射光纤7.8 Two counterpropagating wa