0去购物车结算
购物车中还没有商品,赶紧选购吧!
当前位置: 图书分类 > 物理 > 光学 > All-Optical Switches Based on Nonlinear Optics

相同语种的商品

销售排行榜

浏览历史

All-Optical Switches Based on Nonlinear Optics


联系编辑
 
标题:
 
内容:
 
联系方式:
 
  
All-Optical Switches Based on Nonlinear Optics
  • 书号:9787030461308
    作者:李淳飞
  • 外文书名:
  • 装帧:圆脊精装
    开本:B5
  • 页数:492
    字数:
    语种:en
  • 出版社:科学出版社
    出版时间:1900-01-01
  • 所属分类:
  • 定价: ¥178.00元
    售价: ¥140.62元
  • 图书介质:
    纸质书

  • 购买数量: 件  商品库存: 2
  • 商品总价:

相同系列
全选

内容介绍

样章试读

用户评论

全部咨询

样章试读
  • 暂时还没有任何用户评论
总计 0 个记录,共 1 页。 第一页 上一页 下一页 最末页

全部咨询(共0条问答)

  • 暂时还没有任何用户咨询内容
总计 0 个记录,共 1 页。 第一页 上一页 下一页 最末页
用户名: 匿名用户
E-mail:
咨询内容:

目录

  • CONTENTS
    Preface
    Chapter 1Introduction to Optical Switch1
    1.1Importance of Optical Switch1
    1.1.1Optical Switch is a Demand of Optical Physics Development1
    1.1.2Optical Switch is a Demand of Photonic Technology Progress6
    1.2Classification of Optical Switch10
    1.2.1Classification According to the Control Method10
    1.2.2Classification According to the Working Function12
    1.2.3Classification According to the Working Domain13
    1.3Parameters of Optical Switch19
    1.3.1Performance Parameters of Optical Switch19
    1.3.2Figure of Merit of Optical-Switch Materials22
    1.4Research Direction of All-Optical Switch24
    1.4.1Technical Indicators of Applicable AOS24
    1.4.2Difficulties and Solutions of AOS Study24
    References26
    Chapter 2Nonlinear Optical Basics for All-Optical Switch27
    2.1K-K Relation and Kerr Effect27
    2.1.1Kramers-Kronig Relation27
    2.1.2Relation Betweenand 28
    2.1.3Optical Kerr Effect and Optical Phase Modulation32
    2.2Two-Photon-Absorption Effect38
    2.2.1Optical Intensity Transportation Equation38
    2.2.2TPA Coefficient Measurement41
    2.2.3TPA in Silicon Material43
    2.3Optical Nonlinearity in Semiconductor45
    2.3.1Free-Carrier Nonlinearity46
    2.3.2Bound-Electron Nonlinearity48
    2.3.3Quantum-Confinement Nonlinearity in Semiconductor49
    2.4Optical Nonlinearity in Glass Materials55
    2.4.1Silica and Doped Silica55
    2.4.2Chalcogenide Glass56
    2.5Nonlinear Optical Mechanism in Organic Material57
    2.5.1Conjugated Polymers57
    2.5.2Charge Transfer Molecules (Chromophores)60
    2.5.3Miscellaneous Molecules62
    2.6Saturable and Reverse Saturable Absorption64
    2.6.1Saturable Absorption64
    2.6.2Reverse Saturable Absorption69
    References75
    Chapter 3Electric-Controlled Optical Switches78
    3.1Electro-Optical Switches78
    3.1.1Electro-Optic Coupler Optical Switches80
    3.1.2Electro-Optic M-Z Interferometer Optical Switches86
    3.1.3Branch-Waveguide Electro-Optical Switches88
    3.2Waveguide Thermo-Optic Switches89
    3.2.1Coupler Thermo-Optic Switches91
    3.2.2M-Z Interferometer Thermo-Optic Switches92
    3.2.3Multi-Mode Interference Thermo-Optic Switches94
    3.2.4Branch-Waveguide Thermo-Optic Switches94
    3.2.5Ring-Resonator Thermo-Optic Wavelength Switch96
    3.2.6Phase Transition Thermo-Optic Switch97
    3.3Liquid Crystal Optical Switch99
    3.3.1Birefringent-Type Liquid Crystal Optical Switch101
    3.3.2Polarization-Type Liquid Crystal Optical Switch102
    3.3.3Reflection-Type Liquid Crystal Optical Switch104
    3.4Mechanical Optical Switches106
    3.4.1Simple Mechanical Optical Switches106
    3.4.2MEMS Optical Switches108
    3.5Magneto-Optical Switches111
    3.6Acousto-Optical Switches113
    3.6.1Beam Reflection-Type Acousto-Optical Switches113
    3.6.2Polarization Conversion Acousto-Optical Switches115
    References118
    Chapter 4Optical Bistability Devices120
    4.1Introduction to Optical Bistability120
    4.1.1Optical Bistability120
    4.1.2Optical Bistable Devices121
    4.2Intrinsic Optical Bitable Device126
    4.2.1Absorptive Optical Bistable Device126
    4.2.2Refractive Optical Bistable Device130
    4.2.3Other All-Optical Bistable Devices142
    4.3Hybrid Optical Bistable Devices150
    4.3.1Electro-Optic Modulation Fabry-Perot OBD151
    4.3.2Electro-Optic Polarization Modulation OBD155
    4.3.3Electro-Optic M-Z Interferometer OBD158
    4.3.4Other Principles of Hybrid OBDs160
    4.4Stability and Instability of Optical Bistability165
    4.4.1Stability of Optical Bistability165
    4.4.2Double Feedback Instability168
    4.4.3Time Delay Feedback Instability172
    References176
    Chapter 5Nonlinear-Interferometer All-Optical Switches179
    5.1Optical Coupler All-Optical Switches180
    5.1.1Low-Power Symmetric Optical Coupler181
    5.1.2Symmetric Coupler AOS in SPM Mode184
    5.1.3Asymmetric Coupler AOS in XPM Mode187
    5.1.4Nonlinear Coupler AOS based on Resonate Nonlinearity190
    5.2Sagnac Interferometer All-Optical Switches195
    5.2.1Low-Power Sagnac Interferometer with a 3dB Coupler195
    5.2.2Sagnac Interferometer AOS with a Non-3dB Coupler in SPM Mode199
    5.2.3Sagnac Interferometer AOS with a 3dB coupler in XPM Mode201
    5.2.4Sagnac Interferometer AOS with an Optical Amplifier in SPM Mode203
    5.2.5Sagnac Interferometer AOS with a Nonlinear Coupler in XPM Mode206
    5.3M-Z Interferometer All-Optical Switches209
    5.3.1Phase-Difference Formulae of M-Z Interferometer209
    5.3.2M-Z Interferometer AOS with Different Arms in Refractive Index211
    5.3.3M-Z Interferometer AOS with Different Arms in Length212
    5.4Ring Resonator All-Optical Switches213
    5.4.1Single-Coupler Ring Resonator AOS213
    5.4.2Ring Resonator Coupled M-Z interferometer AOS217
    5.4.3Double-Coupler Ring Resonator AOS219
    5.5Active Ring Resonator All-Optical Switches223
    5.5.1Active Ring Resonator Coupled M-Z Interferometer AOS224
    5.5.2Active Double Ring Resonator AOS229
    5.5.3Active Double-Coupler Ring Resonator OBD234
    References239
    Chapter 6Nonlinear-Fiber-Grating All-Optical Switches241
    6.1Fiber-Bragg-Grating AOSs242
    6.1.1Principle of Fiber-Bragg-Grating AOS242
    6.1.2Experiments of Fiber-Bragg-Grating AOS247
    6.1.3High Nonlinear Fiber-Bragg-Grating AOS250
    6.1.4Phase-Shifted Fiber Grating AOS251
    6.2Long-Period-Fiber-Grating AOSs255
    6.2.1Principle of Long-Period-Fiber-Grating AOS255
    6.2.2Experiment of Long-Period-Fiber-Grating AOS258
    6.3Nonlinear Fiber Connected LPFG Pare AOS261
    6.3.1Usual Fiber Connected LPFG-Pair AOS261
    6.3.2Nonlinear Fiber Connected LPFG-Pair AOS268
    6.4Nonlinear Fiber Connected FBG-Pare OBD272
    6.4.1Transmission Matrix of Single FBG273
    6.4.2Theory of Nonlinear-Fiber-Connected FBG-Pair OBD275
    6.4.3Simulations of OB Loops in Nonlinear FBG-pair279
    References283
    Chapter 7Nanophotonic All-Optical Switches285
    7.1Nano-Waveguide Interferometer All-Optical Switches287
    7.1.1Nano-Waveguide Microring-Coupled MZI AOS287
    7.1.2Nano-Waveguide Single-Coupler Microring AOS288
    7.1.3Nano-Waveguide Double-Coupler Microring AOS289
    7.2Photonic Crystal All-Optical Switches296
    7.2.1Basic Conception of Photonic Crystal296
    7.2.2Two-Dimensional Photonic-Crystal Coupler AOS299
    7.2.3Two-Dimensional Photonic-Crystal Ring Resonator AOS300
    7.2.4Two-Dimensional Photonic-Crystal M-Z Interferometer AOS302
    7.2.5ZnS/ZnSe 1D Photonic-Crystal Bandgap-Shift OBD305
    7.2.6Nano-Ag Polymer 2-D Photonic-Crystal Bandgap-Shift AOS309
    7.2.7PST Polymer 2-D Photonic-Crystal Defect-Shift AOS314
    7.2.8Silicon 2D Photonic-Crystal Nanocavity AOS318
    7.3Surface-Plasmon-Polaritons All-Optical Switches321
    7.3.1Introduction to Surface-Plasmon-Polaritons321
    7.3.2Metal-Nanometer-Structure and Its Absorption Spectra324
    7.3.3Gallium Phase-Transition Grating Coupled SPP AOS328
    7.3.4Gallium Phase-Transition Prism-Coupled SPP AOS329
    7.3.5Photochromics Phase-Transition Grating-Coupled SPP AOS330
    7.3.6MDM-Waveguide Absorption SPP AOS331
    7.3.7Nonlinear Grating SPP OBD332
    7.4Silicon-Nanowaveguide Resonance-Cavity All-Optical Switches335
    7.4.1Silicon-Ridge-Nanowaveguide Microring-Resonator AOS336
    7.4.2Organic-Material-Filled Silicon-Vertical-Slot-Nanowaveguide All-Optical Signal Processing337
    7.4.3Si-nc/SiO2-Filled Silicon-Horizontal-Slot-Nanowaveguide Ring AOS340
    7.4.4Silicon/Air Photonic-Crystal-Waveguide F-P Cavity AOS343
    7.4.5Silicon-Based MDM-Type SPP-Waveguide Nanoring Resonator AOS346
    References350
    Chapter 8Optical Flip-Flop and Wavelength Converter353
    8.1SOA and Its Applications353
    8.1.1General Principle of Optical Amplifier353
    8.1.2Semiconductor Optical Amplifier356
    8.1.3Nonlinear Properties and Applications of SOA359
    8.2All-Optical Flip-Flop365
    8.2.1Semiconductor-MQW Optical-Bistability Optical Flip-Flop366
    8.2.2Semiconductor Grating-Waveguide-Refraction Optical Flip-Flop367
    8.2.3Distributed-Feedback-SOA Reflection Optical Flip-Flop369
    8.2.4SOA-Polarization-Switch Optical Flip-Flop371
    8.2.5Double-Laser Absorption/Gain-Saturation Optical Flip-Flop372
    8.2.6SOA-Contained M-Z Interferometer Optical Flip-Flop373
    8.2.7InP/SOI Microdisk-Laser Integrated Optical Flip-Flop374
    8.3All-Optical Wavelength Converter378
    8.3.1SOA Cross-Gain-Saturation Wavelength Converter379
    8.3.2SOA Four-Wave-Mixing Wavelength Converter380
    8.3.3Eleceroabsorption Modulator Wavelength Converter381
    8.3.4SOA-XPM M-Z Interferometer Wavelength Converter382
    8.3.5SOA-XPM Sagnac Interferometer Wavelength Converter384
    References386
    Chapter 9Optical-Limiting All-Optical Switches387
    9.1Introduction to Optical Limiter387
    9.1.1Conception and Application of Optical Limiter387
    9.1.2Classification and Parameters of Optical Limiting389
    9.2Linear Optical Limiters392
    9.2.1Multilayer-Film Reflective Mirror Optical Limiter392
    9.2.2Two-Dimensional Diffraction Grating Optical Limiter394
    9.3Nonlinear Optical Limiters395
    9.3.1Suspension Liquid Scattering Nonlinear Optical Limiter395
    9.3.2Tow-Photon Absorption Optical Limiter396
    9.3.3Reverse Saturable Absorption Optical Limiter397
    9.4Linear and Nonlinear Combined Optical Limiter408
    9.4.1Frosted-Glass-Scattering based Optical Limiter409
    9.4.2All-Reflection-Prism Based Optical Limiter410
    9.4.3Grating Diffraction Based Optical Limiter410
    References418
    Chapter 10AOS Application in All-Optical Network420
    10.1Introduction to All-Optical Network420
    10.1.1Classification of All-Optical Network420
    10.1.2Physical Structure of the All-Optical Network424
    10.1.3Development Tendency of All-Optical Network425
    10.1.4Applications of AOS in Optical Network Security428
    10.2Wavelength Division Multiplexing429
    10.2.1Introduction to WDM429
    10.2.2Interference-Filter WDM430
    10.2.3Optical-Grating WDM432
    10.2.4Arrayed-Waveguide-Grating WDM433
    10.2.5Fused-Tapering Fiber WDM434
    10.3Optical Time Division Multiplexing435
    10.3.1Introduction to OTDM435
    10.3.2Fiber-Delayed-Line OTDM436
    10.3.3SOA-FWM OTDM437
    10.3.4SOA-XPM OTDM438
    10.3.5SOA-Polarization OTDM440
    10.3.6PPLN-Waveguide OTDM442
    10.4Broadcast Network and Wavelength Routing443
    10.4.1Broadcast and Select Optical Network444
    10.4.2Wavelength-Routing Optical Network445
    10.4.3Waveguide-Grating Router446
    10.5Optical-Add-Drop Multiplexer448
    10.5.1Grating-Assisted Coupler OADM449
    10.5.2Grating-Assisted M-Z Interferometer OADM450
    10.5.3Grating-Assisted Circulator OADM451
    10.5.4Microring-Resonator OADM452
    10.5.5Optical-Switch-Based Dynamic OADM453
    10.5.6OADM Applications in Communication Networks454
    10.6Optical Cross Connects455
    10.6.1Wavelength-Selective OXC455
    10.6.2Wavelength-Interchanging OXC458
    10.6.3Free-Space OXC459
    10.7Optical Circuit, Packet and Burst Switching461
    10.7.1Three Optical Switching Modes461
    10.7.2Optical Circuit Switching463
    10.7.3Optical Packet Switching464
    10.7.4Optical Burst Switching469
    References472
帮助中心
公司简介
联系我们
常见问题
新手上路
发票制度
积分说明
购物指南
配送方式
配送时间及费用
配送查询说明
配送范围
快递查询
售后服务
退换货说明
退换货流程
投诉或建议
版权声明
经营资质
营业执照
出版社经营许可证

中国科技出版传媒股份有限公司 版权所有

 

京ICP备14028887号-5  京ICP证150976号 京公网安备 11010102004214号

北京东黄城根北街16号 邮编:100717 Email:webmaster@mail.sciencep.com