Optimization of multispectral chalcogenide glass for large-size fabrication

Chalcogenide glass has become one of the essential IR lens materials in passively athermalized long-wave IR devices. However, that there is no multispectral chalcogenide glass capable of large-size fabrication raises challenges to the development and popularization of multispectral imaging systems c...

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Veröffentlicht in:Optics letters 2023-03, Vol.48 (6), p.1431-1433
Hauptverfasser: Yang, Liu, Liu, Hongjun, Dai, Shixun, Lin, Changgui
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container_title Optics letters
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creator Yang, Liu
Liu, Hongjun
Dai, Shixun
Lin, Changgui
description Chalcogenide glass has become one of the essential IR lens materials in passively athermalized long-wave IR devices. However, that there is no multispectral chalcogenide glass capable of large-size fabrication raises challenges to the development and popularization of multispectral imaging systems combining visible, near-IR, and mid-IR. In this work, we developed a novel chalcogenide glass capable of a record-big (Ø120 mm) fabrication through the compositional optimization of GeS -Ga S -CsCl glass with introduction of Sb S . Its transmission window is characterized as ranging from 0.51 to 11.2 µm, which means it could be employed as a multispectral lens transmitting visible and IR signals in a co-aperture IR optical system. In addition, a method of three-stage thermal analysis is proposed to evaluate the glass-forming ability of chalcogenide glass through simulating the melt-quenching process of chalcogenide melt in a vacuum-sealed silica ampoule. This work not only shows an innovative multispectral chalcogenide glass with promising applications but also introduces a simple and convenient technique for screening chalcogenide glass with ultrahigh glass-forming ability capable of large-size fabrication.
doi_str_mv 10.1364/OL.479835
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source Optica Publishing Group Journals
subjects Chalcogenides
Gallium sesquisulfide
Glass
Glass formation
Lenses
Optimization
Thermal analysis
title Optimization of multispectral chalcogenide glass for large-size fabrication
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