Contents
• Principle of Operation
• Fabrication
• Temperature dependence
• Athermalization or Packaging
• Applications
Principle of Operation
Fabrication
• Inferometric or Holographic technique
• Point by Point Technique
• Phase Mask Method
Temperature dependence of FBG
Athermalization
Applications
Fiber Bragg Grating for Optical Add/Drop Multiplexer
Dispersion Compensation
Solution: Recompress the optical pulses using a chirped grating
References
Technical Papers:
Fiber Bragg Grating for Telecommunications applications: Tuneable thermally stress enhanced OADM.Modeling and Analysis on the Thermal Tuning of Fiber Bragg Gratings for Optical Communication ApplicationsFiber / PLC Grating Devices for WDM Transmission SystemsFiber Bragg Gratings for high performance networksFiber Bragg Gratings and Chromatic DispersionDispersion Compensation using Chirped Fiber Bragg GratingsState-of-Art Manufacturing Techniques Push Fiber Bragg Gratings Components to New Levels of PerformanceFiber Bragg Grating Filters for Optical CommunicationsCeramic Substrate with Negative Thermal Expansion for Athermalization of Fiber Bragg GratingsDevelopment of Optical Fiber Gratings for WDM Systems