半导体激光器:稳定性、失稳与混沌(影印版 英文)第二版
作 者: (日)大坪顺次 著
出版时间: 2013
丛编项: 中外物理学精品书系·引进系列
内容简介
《中外物理学精品书系·引进系列·半导体激光器:稳定性、失稳与混沌(第2版)(影印版)》内容丰富,涵盖面广,可读性强,其中既有对我国传统物理学发展的梳理和总结,也有对正在蓬勃发展的物理学前沿的全面展示;既引进和介绍了世界物理学研究的发展动态,也面向国际主流领域传播中国物理的优秀专著。
目录
1 Introduction
1.1 Chaos and Lasers
1.2 Historical Perspectives of Chaos in Semiconductor Lasers
1.3 Outline of This Book
2 Chaos in Laser Systems
2.1 Laser Model and Bloch Equations
2.1.1 Laser Model in a Ring Resonator
2.1.2 Light Emission and Absorption in Two-Level Atoms
2.1.3 Maxwell-Bloch Equations
2.2 Lorenz-Haken Equations
2.2.1 Lorenz-Haken Equations
2.2.2 First Laser Threshold
2.2.3 Second Laser Threshold
2.3 Classifications of Lasers
2.3.1 Classes of Lasers
2.3.2 Class C Lasers
2.3.3 Class B Lasers
2.3.4 Class A Lasers
3 Semiconductor Lasers and Theory
3.1 Semiconductor Lasers
3.2 Oscillation Conditions of Semiconductor Lasers
3.2.1 Laser Oscillation Conditions
3.2.2 Laser Oscillation Frequency
3.2.3 Dependence of Oscillation Frequency on Carrier Density
3.3 Derivation of Rate Equations
3.3.1 Gain at Laser Oscillation
3.3.2 Rate Equation for the Field
3.3.3 Line width Enhancement Factor
3.3.4 Laser Rate Equations
3.4 Linear Stability Analysis and Relaxation Oscillation
3.4.1 Linear Stability Analysis
3.4.2 Relaxation Oscillation
3.5 Langevin Noises
3.5.1 Rate Equations Including Langevin Noises
3.5.2 Langevin Noises
3.5.3 Noise Spectrum
3.5.4 Relative Intensity Noise (RIN)
3.5.5 Phase Noise and Spectral Linewidth
3.6 Modulation Characteristics
3.6.1 Injection Current Modulation
3.6.2 Intensity Modulation Characteristics
3.6.3 Phase Modulation Characteristics
3.7 Waveguide Models of Semiconductor Lasers
3.7.1 Index- and Gain-Guided Structures
3.7.2 Waveguide Models
3.7.3 Spatial Modes of Gain- and Index-Guided Lasers
3.7.4 Effects of Spontaneous Emission in Gain- and Index-Guided Lasers
3.7.5 Laser Types
4 Theory of Optical Feedback in Semiconductor Lasers
4.1 Theory of Optical Feedback
4.1.1 Optical Feedback Effects and Classifications of Optical Feedback Phenomena
4.1.2 Theoretical Model
4.2 Linear Stability Analysis for Optical Feedback Systems
4.2.1 Linear Stability Analysis
4.2.2 Linear Mode, and Stability and Instability in Semiconductor Lasers
4.2.3 Gain Reduction Due to Optical Feedback
4.2.4 Linewidth in the Presence of Optical Feedback
4.3 Feedback from a Grating Mirror
4.4 Phase-Conjugate Feedback
4.5 Incoherent Feedback and Polarization-Rotated Optical Feedback
4.5.1 Incoherent Feedback
4.5.2 Polarization-Rotated Optical Feedback
4.6 Filtered Feedback
5 Dynamics of Semiconductor Lasers with Optical Feedback
5.1 Optical Feedback from a Conventional Reflector
5.1.1 Optical Feedback Effects
5.1.2 Potential Model in Feedback Induced Instability
……
6 Dynamics in Semiconductor Lasers with Optical Injection
7 Dynamics of Semiconductor Lasers with Optoelectronic Feedback and Modulation
8 Instability and Chaos in Various Laser Structures
9 Chaos Control and Applications
10 Stabilization of Semiconductor Lasers
11 Stability and Bistability in Feedback Interferometers, and Their Applications
12 Chaos Synchronization in Semiconductor Lasers
13 Chaotic Communications in Semiconductor Lasers