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Radial gradient refractive index (GRIN) infrared lens based on spatially resolved crystallization of chalcogenide glass

Enora Lavanant, Laurent Calvez, François Cheviré, Mathieu Rozé, T. Hingant, Raphaël Proux, Yann Guimond, Xianghua Zhang

2020Optical Materials Express36 citationsDOIOpen Access PDF

Abstract

While widely used in the visible, radial gradient refractive index (GRIN) lenses are still elusive in the IR waveband. In this paper we introduce a new method based on spatially resolved crystallization of chalcogenide glass to produce such lenses. Optical and structural properties of 80 GeSe 2 –20 Ga 2 Se 3 glass ceramic samples are measured. A shift of refractive index is induced by increasing the density of nanocrystals. By placing the sample into a tailored thermal profile, spatially controlled crystallization is achieved. To our knowledge this constitutes the first fabrication of an optically functional radial GRIN in the IR. We also introduce a method to characterize the index profile non-destructively, which is a necessary step for embedding GRIN into commercial systems.

Topics & Concepts

ChalcogenideRefractive indexMaterials scienceChalcogenide glassLens (geology)OpticsGradient-index opticsCrystallizationFabricationInfraredRefractive index profileOptoelectronicsOrganic chemistryPathologyChemistryAlternative medicineMedicinePhysicsPhase-change materials and chalcogenidesGlass properties and applicationsPhotorefractive and Nonlinear Optics