Flexible composition-dependent third-order optical nonlinearity of chalcogenide glasses within a Ge-Ga-S ternary system

•TONL properties of pristine Ge-Ga-S glasses show high flexibility via composition modification.•TONL parameters of Ge-Ga-S glasses is sensitive to the type of defective units present in glass network.•TONL dispersion of Ge-Ga-S glasses deviates from the classic theories based on semiconductors. In...

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Bibliographic Details
Published in:Journal of non-crystalline solids 2023-11, Vol.620, p.122605, Article 122605
Main Authors: Mao, Guangrui, Li, Ziliang, Jia, Chengtao, Lin, Changgui, Dai, Shixun, Xu, Tiefeng, Chen, Feifei
Format: Article
Language:English
Subjects:
Ge-Ga-S chalcogenide glass
Third-order optical nonlinearity
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Summary:•TONL properties of pristine Ge-Ga-S glasses show high flexibility via composition modification.•TONL parameters of Ge-Ga-S glasses is sensitive to the type of defective units present in glass network.•TONL dispersion of Ge-Ga-S glasses deviates from the classic theories based on semiconductors. In this work, we present a systemic study with respect to the third-order optical nonlinear (TONL) features of chalcogenide glasses (ChGs) within a germanium-gallium-sulfur (Ge-Ga-S, GGS) ternary system. The research outcomes show that the TONL attributes of GGS ChGs are highly tunable by glass composition, and the flexibility is higher than many other reported ChG systems. We have found that the TONL attributes of GGS ChGs depend remarkably on the deviation level of glass composition from chemical stoichiometry, which is associated with the presence of different types of defective units in the GGS glass network. The TONL dispersion of GGS ChGs is discovered to deviate from the classic theories based on crystalline semiconductors, as a result of the presence of multiple-steps absorption process occurred between gap states near the band gap, which renders the GGS ChGs applicable for various types of nonlinear optical functionalities.
ISSN:0022-3093
1873-4812
DOI:10.1016/j.jnoncrysol.2023.122605