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Index
Cover image Title page Table of Contents Dedication Copyright Dedication 2 Preface—Overview of OFT VI A & B
Six Editions OFT VI Volume A: Components and Subsystems OFT VI Volume B: Systems and Networks
Chapter 1. Advances in Fiber Distributed-Feedback Lasers
1.1 Introduction 1.2 Fiber DFB Lasers 1.3 Summary and concluding remarks—outlook References
Chapter 2. Semiconductor Photonic Integrated Circuit Transmitters and Receivers
2.1 Introduction 2.2 Technology 2.3 Devices based on on-off keying (OOK) 2.4 PICs based on advanced modulation formats 2.5 Future trends References
Chapter 3. Advances in Photodetectors and Optical Receivers
3.1 Introduction 3.2 High-speed waveguide photodiodes 3.3 High-power photodiodes 3.4 Long-wavelength photodiodes on silicon 3.5 APDs 3.6 Conclusion References
Chapter 4. Fundamentals of Photonic Crystals for Telecom Applications—Photonic Crystal Lasers
4.1 Introduction 4.2 Ultimate Nanolasers 4.3 Broad-Area Coherent Lasers 4.4 Conclusion References
Chapter 5. High-Speed Polymer Optical Modulators
5.1 Introduction 5.2 Material design 5.3 EO Material characterization 5.4 Fundamental EO Performance Characterization 5.5 Device Design 5.6 Wafer Fabrication 5.7 Conclusion References
Chapter 6. Nanophotonics for Low-Power Switches
6.1 Introduction 6.2 Existing and Emerging Materials 6.3 Switches 6.4 Summary and Conclusions References
Chapter 7. Fibers for Short-Distance Applications
7.1 Introduction 7.2 Theory of Light Propagation in Multimode Fibers 7.3 Characterization of MM Fiber and Sources for High Data Rate Applications 7.4 System Models and Measurements for 1Gb and 10Gb Ethernet 7.5 Bend-Insensitive MM Fiber 7.6 Current and Future Directions for Optical Fibers for Short-Reach Applications Appendix A References
Chapter 8. Few-Mode Fiber Technology for Spatial Multiplexing
8.1 Motivation 8.2 Modal Structure of Fiber Designs 8.3 Fiber Designs Optimized for Few-Mode Transmission 8.4 Measurement of Few-Mode Fiber 8.5 Future perspective References
Chapter 9. Multi-Core Optical Fibers
9.1 Introduction 9.2 Inter-Core Crosstalk 9.3 Cutoff Wavelength Variation Due to Effects of Surrounding Cores 9.4 Efficient Utilization of Fiber Cross-Sectional Area 9.5 Conclusion References
Chapter 10. Plastic Optical Fibers and Gb/s Data Links
10.1 Introduction 10.2 Structure and Fabrication of Plastic Optical Fiber 10.3 Attenuation of Plastic Optical Fiber 10.4 Bandwidth of Plastic Optical Fiber 10.5 Application and Future Prospect of Plastic Optical Fiber References
Chapter 11. Integrated and Hybrid Photonics for High-Performance Interconnects
11.1 Introduction 11.2 Components 11.3 Architectures 11.4 Outlook References
Chapter 12. CMOS Photonics for High Performance Interconnects
12.1 On-Chip Interconnects and Power—A System Architect’s View 12.2 Photonic Network Architecture 12.3 Future Core-to-DRAM Photonic Networks References
Chapter 13. Hybrid Silicon Lasers
13.1 Introduction to Hybrid Silicon Lasers 13.2 Design of Hybrid Silicon Lasers 13.3 Wafer Bonding Techniques and Fabrication 13.4 Experimental Results 13.5 Reliability 13.6 Specialized Hybrid Lasers and System Demonstrations 13.7 Conclusions References
Chapter 14. VCSEL-Based Data Links
14.1 Introduction 14.2 850nm VCSELs 14.3 Long Wavelength VCSELs (1.3–1.6μM) 14.4 Data Rates >28Gb/s 14.5 Optical Interconnect Technology 14.6 Comparison of VCSELs and Silicon Photonics 14.7 Conclusions References
Chapter 15. Implementation Aspects of Coherent Transmit and Receive Functions in Application-Specific Integrated Circuits
15.1 Introduction 15.2 ASIC Design Options and Limitations 15.3 High-Speed Data Converters 15.4 Implementation of Signal Processing Algorithms at High Speed 15.5 Soft-FEC Implementation at Data Rates of 100G or Higher 15.6 Performance Evaluation of Different Coding Concepts 15.7 Conclusion References
Chapter 16. All-Optical Regeneration of Phase Encoded Signals: Phase Sensitive Optical Regeneration
16.1 Introduction 16.2 Approaches to Regeneration of Phase Encoded Signals 16.3 PSA-Based Phase Regeneration 16.4 Black-Box PSA-Based BPSK Regeneration 16.5 MPSK Phase Regeneration 16.6 Choice of Nonlinear Materials and Designs for All-Optical Signal Processing 16.7 Future Trends and Research Directions 16.8 Conclusions References
Chapter 17. Ultra-High-Speed Optical Time Division Multiplexing
17.1 Background 17.2 The Basic OTDM System and its Constituent Parts 17.3 Silicon Photonics and Ultra-Fast Optical Signal Processing 17.4 Energy Perspectives and Potential Applications 17.5 Summary References
Chapter 18. Technology and Applications of Liquid Crystal on Silicon (LCoS) in Telecommunications
18.1 Introduction 18.2 ROADMs and Reconfigurable Optical Networks 18.3 Background and Technology of LCoS 18.4 LCoS-based Wavelength-Selective Switching 18.5 Future Networks 18.6 Emerging Applications of LCoS References
Index
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