Engineering of Glasses for Advanced Optical Fiber Applications

Abstract

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Advanced optical applications (such as fiber optics)demand the engineering of innovative materialswhich provide the requisite optical performance in aform with specific functionality necessary for thedesired application. We will report on recent effortsto engineer new non-oxide glasses with tailoredphoto-sensitive response, and multi-component oxideglasses optimized for use in next generation Ramanamplification applications. The ultimate performanceof such glasses relies on control of the formation andstability of defective and/or metastable structuralconfigurations and their impact on physical as well aslinear and nonlinear optical properties. Direct laserwriting has drawn considerable attention since thedevelopment of femtosecond lasers and therecognition that such systems possess the requisiteintensity to modify, reversibly or irreversibly thephysical properties of optical materials. Such“structuring” has emerged as one of several possibleroutes for the fabrication of waveguides and otherphoto-induced structures.