可變波長雷射市場的機會、策略與預測（2006年至2012年）

可變波長雷射市場的機會、策略與預測（2006年至2012年） 是由出版商WinterGreen Research, Inc.在2006年05月所出版的。 這份英文市場調查報告書包含333 Pages 109 Tables and Figures 價格從美金2800起跳。

簡介

Triple Play的實際使用讓通訊網路不但更加複雜，對高速資料傳輸光學通訊的需求也節節上升。通訊、軟體領域的專業市調公司 WinterGreen Research, Inc.（總公司：美國麻州），調查分析了可變波長雷射市場後，出版了一本綜合報告書 "Tunable Laser Market Opportunities, Strategies, and Forecasts, 2006 to 2012"。

報告書內容包括：市場概況與預測、產品與技術概要、主要企業等等，內容綱要摘記如下：

第1章　可變波長雷射市場的市場力學與概要

• 光學訊號的傳輸與接收
• Terabit級的光學通訊系統研發
• 業界環境
• 光學網路的成功因素
• 採購可變波長雷射的企業
• 複雜性與密度增加的網路系統
• DWDM系統
• 可變波長雷射的概要
• 可變波長雷射
• 可變波長雷射的可能應用
• 效能要項
• 可變波長雷射的設計
• 可變波長雷射的實際使用

第2章　市場機會與預測

• 可變波長雷射的競爭狀況
• 全球可變波長雷射市場市佔率
• 未使用光纖的活用
• 可變波長雷射市場預測
• 可變波長雷射定價
• 各地區分析

第3章　波長可變雷射產品概要

• 可變波長雷射
• Intel的可變波長雷射技術
• 引進Intel可變波長雷射的富士通
• Avanex的Lithium-Niobate可變波長DWDM系統外部模組
• JDSU／Agility Communications的可變波長雷射
• Santec的窄幅可變波長雷射
• Bookham的直接可變波長雷射
• Bookham的可變波長雷射產品
• Lambda Physik的ScanMatePro
• Iolon Apollo的可變波長雷射
• Spectra Physics
• Lambda Physik
• OPNEXT

第4章　可變波長雷射技術

• Switching、DWDM、其他傳送的整合
• 光學層上IP
• 廣範圍可變波長雷射
• 外部空洞雷射
• 可變波長雷射的Channel Count
• Hornet計畫
• 系統概念
• MEMS
• VCSEL
• 可變波長雷射的規格

第5章　可變波長雷射廠商

• Avago Technologies
• Avanex
• Bookham
• Colibrys
• Corning
• CyOptics
• DiCon Fiberoptics
• Emcore
• Finisar
• Firecomms
• 富士通
• JDSU
• 三菱電機
• 日本電氣
• NeoPhotonics
• Oki Optical Components
• OpLink
• Opnext
• Optium Corporation
• Pirelli & C. SpA Group
• Santec
• Sin Yu
• 住友電氣
• TriQuint
• WaveSplitter Technologies

目錄

Abstract

As networks are implemented for triple play, they become complex, driving the need for fast transport based on optics. Manufacturers of communications and computer equipment are increasingly value the ability to provide integrated solutions for both opto-electronic components and integrated circuits.

Tunable lasers address growing demands for capabilities to reconfigure networks remotely as broadband quality of service demands create the need for flexibility. Integrated optical components include amplifiers, lasers, receivers, transmitters, and transceivers and transponders. Markets are growing in response to the need to have more efficient networks that are high speed and agile. Flexibility and re-configurability are aspects of optical based networks. Market driving forces relate to the need for broadband, the use of the Internet to implement supply chain economies of scale, the ability to put together a network at less cost, and the increased capacity for communication systems provided by optical components.

Internet protocol architecture is significantly more efficient than circuit switched architecture. Circuit switches provide an end-to-end connection for voice traffic. This type of network architecture is very inefficient, tying up a line during the silences and pauses of a voice conversation. (or laser).

A laser is the device that generates the modulated light signal and transmits it through the optical system. By turning the laser device on to represent a digital 1 and turning it off to represent a digital 0 digital processing is made possible. Each optical signal has its own wavelength or frequency. Multiplexing is the technology of aggregating multiple wavelengths onto a single strand of fiber. This process is accomplished through the use of optical devices called wavelength division multiplexers (or WDMs). It is designed to increase the capacity of the optical network.

Widely tunable lasers help maximize existing network resources. The ability to dynamically provision bandwidth provides the ability to meet demands for Internet access. Widely tunable lasers move traffic from overcrowded channels to unused channels. They simplify the planning process. When a provider purchases a tunable laser, the widely tunable laser can cover the whole C-band and, in time, another will cover the L-band. Aggregate demand for tunable lasers is related to the need for network managers to manage 100 distinct wavelengths. One widely tunable laser transmitter can be a spare for 100 wavelengths, meaning a carrier can rapidly restore transmission on the wavelength of any failed transmitter, fixed or tunable. Using widely tunable lasers throughout the network deliver reconfigurability and economy of scale. Tunable lasers offer multiple wavelengths in the same laser device. Categorizations for tunable lasers relate to metro and long haul, narrowly tunable and widely tunable. Long haul lasers do not need to solve complexity, nor do they need to be complex. Long haul lasers are used in the long haul network to replace single channel lasers in the event of a malfunction.

The market for tunable lasers at $183 million in 2005 is expected to reach $3.1 billion in 2012. Market driving forces are the need for dynamic reconfiguration of core networks. In addition, physical layer support for packet switching means tunable lasers will be used to implement broadband for the Internet.

Companies Profiled

Market Leaders

• Intel
• Santec
• JDSU/Agility Communications

Market Participants

• Avago Technologies
• Bookham
• Corning
• DiCon Fiberoptics
• Finisar
• Fujitsu
• NEC
• Oki Optical Components
• Opnext
• Pirelli & C. SpA Group
• Sumitomo
• WaveSplitter Technologies
• Avanex
• Colibrys
• CyOptics
• Emcore
• Firecomms
• Mitsubishi Electric
• NeoPhotonics
• OpLink
• Optium Corporation
• Sin Yu
• TriQuint

Table of Contents

TUNABLE LASER MARKET EXECUTIVE SUMMARY

• Key Elements Of Tunable Laser Business Strategy
• Tunable Laser Market Overview
  • Bandwidth Management
  • Wavelength Monitoring
  • Market Demand
• Optical Component Competitive Positioning
• Tunable Laser Market Shares
• Tunable Laser Market Forecasts

1. TUNABLE LASER MARKET DYNAMICS AND MARKET DESCRIPTION

• 1.1 Transmission And Reception Of Optical Signals
  • 1.1.1 Optical Networking Industry
  • 1.1.2 Telecommunications Tunable Lasers
  • 1.1.3 Data And Storage Optical Components
  • 1.1.4 Fiber Optic Communications Systems
• 1.2 Push To Develop Terabit-Class Optical Communications Systems
  • 1.2.1 ESCON, Fibre Channel, and Gigabit Ethernet
  • 1.2.2 WDM Within The Corporate Network/SAN Segments
  • 1.2.3 Multiplexer
  • 1.2.4 Demultiplexer
  • 1.2.5 Full-Rate / Half-Rate Clockin g
  • 1.2.6 WDM: Wavelength-Division Multiplexing
  • 1.2.7 Optical Transmission Interfaces
  • 1.2.8 Optical Transmission Multi-Source Agreements
  • 1.2.9 Compatible TOSA/ROSA Standards
  • 1.2.10 Intelligent Photonic Solutions
• 1.3 Industry Environment
  • 1.3.1 Tunable Laser Market Growth Factors
  • 1.3.2 Fiber Optic Component Network Market Financing Factors
  • 1.3.3 Demand For Network Capacity Is Growing
  • 1.3.4 Telecommunications Industry Will Ultimately Improve
• 1.4 Optical Networking Success Factors
• 1.5 Companies That Purchase Tunable Lasers
• 1.6 Network Systems Increase In Complexity And Density
  • 1.6.1 Optical Networks
• 1.7 DWDM Systems
  • 1.7.1 DWDM Architecture
  • 1.7.2 Modular Fiber Optic Components
  • 1.7.3 Long-Distance Optical Transport Components
• 1.8 Tunable Laser Description
  • 1.8.1 Reprovision A Network Ring Remotely
  • 1.8.2 Tunable Lasers Increase Transmission Capacity
  • 1.8.3 Tunable Lasers Switch Wavelengths
  • 1.8.4 Shift To Packet Based Networks
  • 1.8.5 Metropolitan Access Networks
  • 1.8.6 Long Haul Networks
  • 1.8.7 Grooming Bandwidth
  • 1.8.8 DWDM Advantages
  • 1.8.9 Optical Systems
  • 1.8.10 Optical Signal Connectivity
  • 1.8.11 All Optical Metro Ring
• 1.9 Fixed Lasers
• 1.10 Tunable Laser Application Enabler
  • 1.10.1 Tunable Laser Positioning
  • 1.10.2 Tunable Laser Advantages
  • 1.10.3 Narrowly Tunable Lasers
  • 1.10.4 Narrowly Tunable Laser Supports Network Reconfiguration
  • 1.10.5 Widely Tunable Lasers
• 1.11 Performance Requirements
  • 1.11.1 Applications Enhance Services
• 1.12 Tunable Laser Design
  • 1.12.1 Flexible Provisioning Of New Wavelength
• 1.13 Tunable Laser Implementations
  • 1.13.1 Sampled-Grating DBR
  • 1.13.2 VCSEL
  • 1.13.3 External-Cavity Laser ECLs

2. TUNABLE LASER MARKET OPPORTUNITIES AND MARKET FORECASTS

• 2.1 Tunable Laser Competitive Positioning
  • 2.1.1 Tunable Laser Competitive Enviro nment
  • 2.1.2 Optical Component Market Driving Forces
  • 2.1.3 Optical Network
  • 2.1.4 Need For Optical Component Quality And Reliability
• 2.2 Worldwide Tunable Laser Market Shares
  • 2.2.1 Intel C-Band Tunable Laser
  • 2.2.2 Santec Narrow Linewidth Tunable Laser
  • 2.2.3 Fujitsu
  • 2.2.4 JDS Uniphase / Agility Communications
  • 2.2.5 JDSU / Agility Communications Tunability Tunable Transponder
  • 2.2.6 Avanex
  • 2.2.7 Bookham Tunable Laser
  • 2.2.8 Bookham TLB-6000 (Vortex™) Tunable Lasers For Atomic And Molecular Spectroscopy And Interferometry
  • 2.2.9 Bookham TLB-6000 (Vortex™) Tunable Lasers Atomic -Clock, Cooling, Metrology, And Phase-Shifting-Interferometry Applications
  • 2.2.10 Opnext
  • 2.2.11 Pirelli Optical Technologies
• 2.3 Lighting Dark Fiber
  • 2.3.1 All-Optical Network
  • 2.3.2 Optical Metro Markets
  • 2.3.3 Redefining Network Configuration
  • 2.3.4 Impact of High Speed Networks
  • 2.3.5 Dense Wavelength Division Multiplexing (DWDM)
  • 2.3.6 Dense Wavelength Division Multiplexing Capacity
  • 2.3.7 Multiplexing Family
  • 2.3.8 10-Gbps Technologies
  • 2.3.9 40G Driven By Demand For Voice-Over-IP And IPTV Services.
• 2.4 Tunable Laser Market Forecast Analysis
  • 2.4.1 Tunable Lasers
  • 2.4.2 Tunable Lasers Key Enablers For The Intelligent All-Optical Network
  • 2.4.3 Tunable Laser Market Forecasts
  • 2.4.4 Tunable Laser Market Forecasts
  • 2.4.5 Tunable Laser Demand
  • 2.4.6 Tunable Laser Market Growth Factors
• 2.5 Tunable Laser Pricing
• 2.6 Tunable Laser Regional Analysis

3. TUNABLE LASER PRODUCT DESCRIPTION

• 3.1 Tunable Laser
  • 3.1.1 Intelligent Photonic Solutions
  • 3.1.2 Dynamically Provisioning Bandwidth
  • 3.1.3 Narrowly Tunable Lasers
• 3.2 Intel Tunable Laser Technology
  • 3.2.1 Intel C-Band Tunable Laser Module
  • 3.2.2 IntelR TTX11500 Full C-Band Tunable Laser
  • 3.2.3 Intel Application To The Tunable Laser
  • 3.2.4 Design of the External Cavity Laser
  • 3.2.5 Intel Wafer of the MEMS filters
  • 3.2.6 Intel Quasi-Planar Optical Packaging
• 3.3 Fujitsu Adopts Intel Optical Tunable Laser
  • 3.3.1 Fujitsu
  • 3.3.2 Fujitsu 22-Channel Single Substrate Tunable Laser
  • 3.3.3 Fujitsu 44-Channel Tunable Laser
  • 3.3.4 Reduces Spare Count
  • 3.3.5 Next -Generation OC-192 Capabilities
• 3.4 Avanex Lithium-Niobate Tunable DWDM Systems External Modulators
  • 3.4.1 Avanex PowerFlexTM 1926 SDH Transmitter And Receiver Pairs
  • 3.4.2 Avanex Tunable CW Locked Laser Module PowerSourceTM 1935 TLI
  • 3.4.3 Avanex Lithium Niobate PowerBit. IM -2.5
  • 3.4.4 Avanex PowerReach(TM) Dynamically Tunable Laser Modules for Tunable Transponder Products In the L-Band
  • 3.4.5 Avanex Lithium Niobate PowerBit. IM -2.5
• 3.5 JDSU / Agility Communications Tunable Lasers
  • 3.5.1 JDSU / Agility Communications Tunable Lasers
  • 3.5.2 JDSU Argon Gas Lasers
  • 3.5.3 JDSU Solid -State Lasers
• 3.6 Santec Narrow Linewidth Tunable Laser
  • 3.6.1 AR Coating Characterization
  • 3.6.2 CWDM Filter Characterization
  • 3.6.3 PON Filter Characterization
  • 3.6.4 Optical Coherence Tomography: using UWS-1000G (Santec)
  • 3.6.5 High output power compatibles broad spectrum range
• 3.7 Bookham Direct Modulated Lasers
• 3.8 Bookham Tunable Laser Products
  • 3.8.1 Bookham New Focus Tunable Lasers
  • 3.8.2 Bookham TLB-6000 (Vortex.) Tunable Lasers For Atomic And Molecular Spectroscopy And Interferometry
  • 3.8.3 Bookham TLB-6000 (Vortex.) Tunable Lasers Atomic -Clock, Cooling, Metrology, And Phase-Shifting-Interferometry Applications
  • 3.8.4 Bookham Transmitters
  • 3.8.5 Bookham New Focus Tunable Lasers
  • 3.8.6 Bookham New Focus DWDM Network Tunable Lasers
  • 3.8.7 Bookham New Focus TLB-6000 (Vortex.) Tunable Lasers
• 3.9 Lambda Physik ScanMatePro
  • 3.9.1 Lambda Physik ScanMatePro For External Nd:YAG And Excimer Pump Lasers
  • 3.9.2 Lambda Physik ScanMatePro C With Integrated Nd:YAG Laser
  • 3.9.3 Lambda Physik IB Options Module: Improved Bandwidth Performance
• 3.10 Iolon Apollo Tunable Laser
  • 3.10.1 Iolon Tunable Laser Development Kit
  • 3.10.2 Iolon Tunable Laser Integrable Assembly
  • 3.10.3 Iolon Swept Frequency Laser
  • 3.10.4 Iolon Widely Tunable Optical Filter for 50 or 100 GHz DWDM
  • 3.10.5 Iolon Optical Channel Monitor For 50 Or 100 Ghz DWDM
• 3.11 Spectra Physics (Newport)
  • 3.11.1 Spectra Physics 3900S CW Tunable Ti: sapphire Laser
  • 3.11.2 Mai Tai One Box Ti: sapphire Lasers
  • 3.11.3 Matis se. TR Passively -stabilized Ti:sapphire Ring Laser
  • 3.11.4 MOPO Series, High-Energy OPO
  • 3.11.5 OPA-800C Ultrafast OPA
  • 3.11.6 Opal Femtosecond OPO
  • 3.11.7 Sirah Dye Lasers
  • 3.11.8 Spitfire Pro Ultrafast Ti:sapphire Amplifier
• 3.12 LAMBDA PHYSIK:
  • 3.12.1 Lambda Physik ScanMatePro C With Integrated Nd:YAG Tunable Laser
• 3.13 Iolon Tunable Laser
  • 3.13.1 Iolon Swept Frequency Laser
  • 3.13.2 Iolon Widely Tunable Optical Filter for 50 or 100 GHz DWDM
  • 3.13.3 Iolon Optical Channel Monitor
• 3.14 OPNEXT
  • 3.14.1 14 Pin butterfly laser diode modules
  • 3.14.2 7 pin Butterfly Laser Diode Modules
  • 3.14.3 XMD TOSA

4. TUNABLE LASER TECHNOLOGY

• 4.1 Integrating Switching, DWDM, And Other Transport
• 4.2 Internet Protocol (IP) Over The Optical Layer
• 4.3 Capabilities Of Widely Tunable Lasers
• 4.4 External Cavity Lasers
• 4.5 Tunable Laser Channel Count
  • 4.5.1 Tuning To A Hundred Channels
• 4.6 Hornet Project
• 4.7 System Concept
• 4.8 MEMS
• 4.9 VCSEL
• 4.10 Tunable Laser Standard
  • 4.10.1 OIF-TLMSA -01.0 -Multi-Source Agreement for CW Tunable Lasers
  • 4.10.2 OIF-ITLA-MSA -01.0 -Integratable Tunable Laser Assembly Multi-Source Agreement

5. TUNABLE LASER COMPANY PROFILES

• 5.1 Avago Technologies
• 5.2 Avanex
• 5.3 Bookham
• 5.4 Colibrys
  • 5.4.1 Products and Markets
• 5.5 Corning
  • 5.5.1 Corning Cable Systems
  • 5.5.2 Public/Carrier Networks
  • 5.5.3 Private Networks
  • 5.5.4 Original Equipment Manufacturer (OEM) Networks
  • 5.5.5 Telecommunications Segment
• 5.6 CyOptics
• 5.7 DiCon Fiberoptics
• 5.8 Emcore
  • 5.8.1 Fiber Optics
  • 5.8.2 Cable Television (CATV) and Fiber-to-the-premise (FTTP) Networks
  • 5.8.3 Telecommunications Networks
  • 5.8.4 Data Communications Networks
  • 5.8.5 Satellite Communications Networks
  • 5.8.6 Storage Area Networks
  • 5.8.7 Defense and Homeland Security
• 5.9 Finisar
  • 5.9.1 Finisar Digital Fiber Optics for Computer and Access Networks
  • 5.9.2 Infineon Fiber Optic Transceiver Business
• 5.10 Firecomms
• 5.11 Fujitsu
  • 5.11.1 Fujitsu Network Communications
  • 5.11.2 Fujitsu Considers WiMAX vs. 3G vs. Wi-Fi
  • 5.11.3 Fujitsu FLASHWAVER 7500 Small System
  • 5.11.4 Fujitsu FASST Transition Solutions
  • 5.11.5 Fujitsu Microelectronics America
  • 5.11.6 Fujitsu Network Communications Inc.
• 5.12 JDSU
  • 5.12.1 Communications Products
  • 5.12.2 Modules and Subsystems
  • 5.12.3 Test & Measurement
  • 5.12.4 Commercial and Consumer Products
  • 5.12.5 Custom Optics
  • 5.12.6 Commercial Lasers
  • 5.12.7 JDSU / Agility Communications
• 5.13 Mitsubishi Electric
• 5.14 NEC
  • 5.14.1 NEC IT And Networking Technologies
• 5.15 NeoPhotonics
• 5.16 Oki Optical Components
• 5.17 OpLink
• 5.18 Opnext
• 5.19 Optium Corporation
• 5.20 Pirelli & C. SpA Group
  • 5.20.1 Pirelli Tyre
  • 5.20.2 Pirelli Broadband Solutions
  • 5.20.3 Pirelli RE
  • 5.20.4 Pirelli Ambiente
• 5.21 Santec
• 5.22 Sin Yu
• 5.23 Sumitomo
• 5.24 TriQuint
• 5.25 WaveSplitter Technologies

List of Tables and Figures

• Table ES-1
  • Key Elements Of Tunable Laser Vendor Business Strategy
• Figure ES-2
  • Worldwide Tunable Laser Market Shares, Dollars, 2005
• Figure ES-3
  • Worldwide Tunable Laser Market Forecasts, 2006-2012
• Table 1-1
  • Selected Communications Market Participants
• Table 1-2
  • MSA Compatible TOSA/ROSA Standards
• Table 1-3
  • Optical Component Product Qualification Process
• Table 1-4
  • Fiber Optic Component Market Growth Factors
• Table 1-5
  • Fiber Optic Component Network Market Financing Factors
• Table 1-6
  • Telecommunications Industry Market Growth Factors
• Table 1-7
  • Internet Traffic Broadband Content
• Table 1-8
  • Optical Networking Success Factors
• Table 1-9
  • Telecommunications And Cable Television Equipment Providers
• Table 1-10
  • Fiber Optic Component Market Driving Forces
• Table 1-11
  • DWDM Broadband Bandwidth Solutions
• Figure 1-12
  • Hybrid Optical / Electrical Switching Matrices
• Figure 1-13
  • Hybrid Optical Switching Matrix
• Table 1-14
  • Difficulties With Fixed Lasers
• Figure 1-15
  • Tuning Speeds For GCSR Laser Transmitters Of 4-Nm And 8-Nm-Spaced Wavelengths
• Figure 1-16
  • Tuning Speeds Laser Transmitters Of 4-Nm And 8-Nm-Spaced Wavelengths
• Table 1-17
  • Tunable Laser Advantages
• Table 1-18
  • Performance Requirements For The Transport Markets
• Table 1-19
  • Tunable Lasers Performance Requirements
• Table 1-20
  • Optical System Advantages
• Table 1-21
  • Tunable Laser Applications
• Table 1-22
  • Basic Tunable Laser Structures
• Table 1-23
  • Basic Tunable Laser Applications
• Table 1-24
  • Features Of Tunable Laser Technologies
• Table 1-25
  • Advantages Of VCSEL
• Table 2-1
  • Tunable Laser Market Driving Forces
• Table 2-2
  • Optical Networking Tunable Laser System Market Segments
• Figure 2-3
  • Worldwide Tunable Laser Market Shares, Dollars, 2005
• Table 2-4
  • Worldwide Tunable Laser Market Shares, Dollars, 2005
• Table 2-5
  • Impact of Optical Switching on IP Transport Speeds
• Table 2-6
  • 10-Gbps Technologies
• Table 2-7
  • 10-Gbps Value Chain
• Table 2-8
  • 10-Gbps Active Optics Component And Subsystems Products
• Figure 2-9
  • Worldwide Tunable Laser Market Forecasts, 2006-2012
• Table 2-10
  • Worldwide Tunable Laser Market Forecasts, 2006-2012
• Table 2-11
  • Reasons Tunable Lasers Replace Fixed Wavelength Lasers
• Table 2-12
  • Tunable Laser Competitive Advantage Market Factors
• Table 2-13
  • Tunable Laser Market Growth Factors
• Table 2-14
  • Tunable Laser Specifications Required By Long-Haul 10-Gbit/Sec System
• Figure 2-15
  • Tunable Laser Regional Segment Analysis, Dollars, 2005
• Table 2-16
  • Tunable Laser Regional Market Analysis
• Table 3-1
  • Tunable Laser Features, Issues, And Functions
• Table 3-2
  • Engineering Challenges Of Tunable Lasers
• Table 3-3
  • Intel Tunable Laser Technology Key Benefits
• Table 3-4
  • Intel Tunable Laser Technology Key Features
• Figure 3-5
  • Intel Tunable Laser
• Table 3-6
  • Intel Benefits of Tunability
• Table 3-7
  • Intel TTX11500 Key Features
• Figure 3-8
  • Intel Block Diagram Of The External Cavity And Internal Coupling
• Figure 3-9
  • Intel Temperature-Tuned External Cavity Laser Assembled On The Quasi-Planar Laser Welded Manufacturing Platform
• Table 3-10
  • Layout Of The Intel C-Band Tunable Laser
• Figure 3-11
  • Intel Tunable Laser Coupling Optics
• Figure 3-12
  • Intel Optical Etalon Composed By Two Thermally Tuned Si Filters
• Table 3-13
  • Control Functions In The Intel ECL Operations
• Figure 3-14
  • Intel Wavelength Filter Selectivity
• Figure 3-15
  • Intel Manufacturing Process Steps To Build The Tunable Laser
• Table 3-16
  • Avanex Transmission Solutions Lithium Niobate Features
• Table 3-17
  • Santec Narrow Linewidth Tunable Laser TSL-210V and TSL-210H Functions
• Table 3-18
  • Santec Narrow Linewidth Tunable Laser TSL-510 Functions
• Table 3-19
  • Santec Narrow Linewidth Tunable Laser ECL-210 Functions
• Table 3-20
  • Santec Ultra-Wide Tunable Laser TSL-210F Functions
• Figure 3-21
  • Santec Ultra-Wide Tunable Laser TSL-210F
• Table 3-22
  • Santec Ultra-Wide UWS-1000
• Figure 3-23
  • Santec Ultra-Wideband Source, UWS-1000
• Table 3-24
  • Santec UWS-1000G Gaussian Spectrum Light Source for OCT
• Table 3-25
  • Santec Ultra-Wideband Source with High Output Power UWS-1000H
• Table 3-26
  • Santec Tunable Laser Operating Ranges
• Table 3-27
  • Santec Emission Spectrum Of The UWS-1000
• Table 3-28
  • Specifications of the UWS-1000
• Table 3-29
  • Bookham Direct Modulated Lasers Modules
• Table 3-30
  • Bookham New Focus Tunable Laser Specifications
• Table 3-31
  • Iolon Apollo Tunable Laser Features
• Figure 3-32
  • Lambda Physik ScanMatePro Professional Spectroscopy System
• Table 3-33
  • Iolon Apollo Tunable Laser Features
• Table 3-34
  • Iolon Apollo Tunable Laser Applications
• Table 3-35
  • Iolon Apollo Tunable Laser Features
• Table 3-36
  • Iolon Swept Frequency Laser Features
• Table 3-37
  • Iolon Widely Tunable Optical Filter Features
• Table 3-38
  • Iolon Widely Tunable Optical Filter Applications:
• Table 4-1
  • Selected Optical Add / Drop Parameters For Tunable Lasers
• Table 4-2
  • Selected Switching Tunable Laser Parameters
• Table 4-3
  • Selected Metropolitan Tunable Laser Parameters
• Table 4-4
  • Selected Long Haul Tunable Laser Parameters
• Table 4-5
  • Selected Ultra Long Haul Tunable Laser Parameters
• Figure 4-6
  • Stanford University Hornet Project Demonstrated Fast Switching Using A GCSR Laser
• Table 5-1
  • Bookham's Optical Solutions Markets
• Table 5-2
  • Bookham's Product Portfolio
• Table 5-3
  • Colibrys Custom Market Applications
• Table 5-4
  • Colibrys's Products Range
• Table 5-5
  • Corning Cable Systems Offerings
• Table 5-6
  • Corning's Hardware and Equipment Products
• Table 5-7
  • Emcore's Solutions
• Table 5-8
  • Markets Served by Emcore's Fiber Optics Segment
• Table 5-9
  • Emcore's CATV and FTTP Products
• Table 5-10
  • Parallel Optical Transceiver Product Family
• Table 5-11
  • Emcore's Optical Components and Modules for Data Applications
• Table 5-12
  • JDSU Components
• Table 5-13
  • JDSU Custom Optic Products' Uses
• Table 5-14
  • Mitsubishi Electric Products
• Table 5-15
  • Oki Optical Components' Products
• Table 5-16
  • OpLink Product Benefits
• Table 5-17
  • OpLink Product Portfolio Solutions
• Table 5-18
  • Opnext's High-Performance Optical Components
• Table 5-19
  • Sumitomo Electric Industries Optical Components
• Table 5-20
  • WaveSplitter's Fused Fiber and Planar Lightguide Circuit Products
• Table 5-21
  • WaveSplitter Product Portfolio

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