E.1 Summary of opportunities E.1.1 Lasers in the service provider network: ROADMs, tunable lasers and the rise of OTN E.1.2 Lasers and optical Ethernet: lasers for ubiquitous 10 GigE and the future 40/100 GigE net E.1.3 Lasers, parallel optics and active optical cabling “revolution” E.1.4 The future of lasers in PONs E.1.5 Other opportunities E.2 Firms to watch E.2.1 The communications laser establishment E.2.2 Communications laser innovators, innovators and niche players E.3 Summary of Forecasts
CHAPTER ONE: INTRODUCTION
1.1 Background to this report 1.2 Goals and scope of this report 1.3 Methodology of this report 1.4 Plan of Report
CHAPTER TWO: TECHNOLOGICAL EVOLUTION OF TELECOM AND DATACOM LASERS
2.1 Introduction 2.2 Optical integration and the future of communications lasers 2.3 Technology directions for FP and DFB lasers 2.3.1 The future of high-end communications lasers in the OTN era 2.3.2 Tunable lasers: mechanisms and costs 2.3.3 FP and DFB lasers for 40 Gbps and 100 Gbps networks 2.3.4 Lasers for next generation PONs 2.4 Evolution of VCSEL Technology 2.4.1 A survey of 10-Gbps VCSEL products and technology 2.4.2 A future with LW VCSELs 2.4.3 VCSEL arrays and parallel optics 2.5 The future of pump lasers 2.6 Light sources for POF 2.7 Modulation and modulators 2.7.1 Modulation issues 2.7.2 EMLs and external modulation 2.7.3 Advanced modulation schemes 2.8 Longer-term solutions and innovations in communications lasers 2.8.1 Silicon lasers 2.8.2 Quantum dot lasers 2.8.3 Fiber lasers 2.9 Developments in laser manufacturing technology
CHAPTER THREE: DEMAND PATTERNS FOR TELECOM AND DATA COM LASERS
3.1 Introduction 3.2 Evolution of Requirements for lasers in enterprise networks 3.2.1 Mainstreaming of the 10 GigE: the impact on the laser industry 3.2.2 What 40/100 GigE will mean for the laser business 3.2.3 Lasers and Fibre Channel 3.2.4 Lasers, optical active cables and “optical InfiniBand” 3.3 At long last! Optical networking for the consumer 3.3.1 PONs, lasers and the future 3.3.2 Lasers for optical USB and other future optical PC interfaces 3.3.3 The future of video: lasers for the HDMI and DisplayPort market 3.4 Evolution of requirements for metro and long-haul networks 3.4.1 The coming boom in WDM lasers 3.4.2 They’re back: what the new ROADMs will mean for the laser industry 3.4.3 Are there still opportunities for SONET lasers? 3.5 Optical applications within the computer 3.5.1 Rack-to-rack and board to board 3.5.2 Chip-to-chip 3.6 Closely related non-communications applications 3.6.1 Laser mice 3.6.2 Sensors 3.6.3 Medical lasers
CHAPTER FOUR: FIVE-YEAR MARKET FORECASTS
4.1 Forecasting methodology 4.1.1 Sources of error and alternative Scenarios 4.2 Forecasts by type of laser 4.2.1 FP lasers forecasts 4.2.2 DFB laser forecasts 4.2.3 EML lasers forecasts 4.2.4 VCSEL forecasts 4.2.5 Tunable lasers forecasts 4.3 Forecasts by application 4.3.1 Long-haul carrier networks 4.3.2 Metro networks 4.3.3 PON 4.3.4 Optical Ethernet 4.3.5 Fibre Channel 4.3.6 InfinBand 4.3.7 Interfaces for home video and PCs 4.3.8 Pump Lasers 4.4 Summary of Forecasts
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