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Radial gradient refractive index from crystallized chalcogenide glass for infrared applications

Abstract : The last twenty years have seen a dramatic improvement in the performance of infrared detectors, especially those with uncooled microbolometer arrays. These make new commercial applications possible, from the Internet of things to drones for crop monitoring. Such emerging markets are constantly pushing the requirements on the existing technology to improve cost, performance, weight and size. In this context, gradient index (GRIN) lenses can offer a new degree of freedom compared to their homogeneous counterparts. For example, recent papers have shown how GRIN lenses could help reduce the number of elements in a system, by helping correct lens chromatism and athermalization. While the interest in using GRIN is obvious, mastering their fabrication with infrared materials remains highly challenging. Encouraging progress has been made in that direction, for instance by stacking different materials or by laser writing. Very recently, it has been demonstrated that partial crystallization of chalcogenide glass allows for tuning the refractive index. In this paper, we introduce a new technique based on the controlled formation of nano-crystallites in chalcogenide glass to fabricate the first macroscopic radial GRIN in the infrared. We also propose a simple way to test the index gradient value by interferometry and demonstrate GRIN with index contrast of ▵n ~ 3⋅10-2 between the center and the edge of the disk. The process is easily repeated and opens the possibility for a rapid transfer to the industry.
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Contributor : François Cheviré Connect in order to contact the contributor
Submitted on : Friday, November 6, 2020 - 11:15:52 AM
Last modification on : Thursday, October 14, 2021 - 9:54:01 AM



Thomas Hingant, Enora Lavanant, Raphaël Proux, Mathieu Rozé, François Cheviré, et al.. Radial gradient refractive index from crystallized chalcogenide glass for infrared applications. Advanced Optics for Imaging Applications: UV through LWIR V, Apr 2020, On-line, California, United States. pp.11, ⟨10.1117/12.2558009⟩. ⟨hal-02992006⟩



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