[1] WANG Y Z, JIAO K, LIANG X L, et al. Fabrication of mid-IR As-Se chalcogenide glass and fiber with low scattering loss[J]. J Light Technol, 2024, 42(9): 3338–3345.

[2] CHEN P, XUE Z G, TIAN Y M, et al. Ge-Ga-Se-CsI chalcohalide with low zero dispersion wavelength[J]. ACTA PHOTONICA SINICA, 2018, 47(8): 816002.

[3] XU Y T, GUO H T, YAN X T, et al. Preparation and applications of low-loss As-S chalcogenide glass fibers[J]. J Inorg Mater, 2015, 30(1): 97.

[4] SHIRYAEV V S, CHURBANOV M F, SNOPATIN G E, et al. Preparation of low-loss core–clad As–Se glass fibers[J]. Opt Mater, 2015, 48: 222–225.

[6] MOCHALOV L A, LOBANOV A S, NEZHDANOV A V, et al. Influence of the preparation technique on the optical properties and content of heterophase inclusions of AS2S3 chalcogenide glasses[J]. Opt Mater Express, 2016, 6(11): 3507.

[7] NGUYEN V Q, DRAKE G, VILLALOBOS G, et al. Effect of aluminum and tellurium tetrachloride addition on the loss of arsenic selenide optical fiber[J]. Opt Mater, 2017, 64: 327–333.

[8] VELMUZHOV A P, SUKHANOV M V, CHURBANOV M F, et al. Sulfur as the source of hydrogen impurity and heterogeneous inclusions in the Ge–Ga–S glasses[J]. J Non Cryst Solids, 2020, 545: 120237.

[9] VELMUZHOV A P, SUKHANOV M V, TYURINA E A, et al. Rare-earth metals as effective getters for purification of germanium telluride glasses from oxygen impurities[J]. J Non Cryst Solids, 2023. 603:122112.

[11] WANG J, WU G L, FENG Z, et al. Se–H-free As2Se3 fiber and its spectral applications in the mid-infrared[J]. Opt Express, 2022, 30(13): 24072–24083.

[12] FENG Z, WANG J, WU G L, et al. Arsenic-free low-loss sulfide glass fiber for mid-infrared supercontinuum generation[J]. Infrared Phys Technol, 2021, 113: 103618.

[13] SHIRYAEV V S, KETKOVA L A, CHURBANOV M F, et al. Heterophase inclusions and dissolved impurities in Ge25Sb10S65 glass[J]. J Non Cryst Solids, 2009, 355(52–54): 2640–2646.

[14] FENG Z, WANG J J, WU G L, et al. Low-loss single-mode Ge–As–S–Se glass fiber and its supercontinuum generation for mid-infrared[J]. Opt Commun, 2022, 515: 128189.

[15] LIU J, JIAO K, XU T S, et al. Iodine-doped Ge–As–Se glasses with high purity and low dispersion[J]. Spectrochim Acta A Mol Biomol Spectrosc, 2020, 229: 117885.

[16] SANGHERA J S, BUSSE L E, AGGARWAL I D. Effect of scattering centers on the optical loss of As2S3 glass fibers in the infrared[J]. J Appl Phys, 1994, 75(10): 4885–4891.

[17] SUN W L, LIANG X L, SHENG J K, et al. Suppression of impurities absorption and heterophase inclusions in Ge–As–S glasses[J]. Infrared Phys Technol, 2022, 127: 104419.

[18] KAMENSKY V A, SCRIPACHEV I V, SNOPATIN G E, et al. High-power As–S glass fiber delivery instrument for pulse YAG: Er laser radiation[J]. Appl Opt, 1998, 37(24): 5596.

[20] MCELHENNY J E, BAMBHA N K. Continuous wave laser-induced damage threshold of Schott IRG-24, IRG-25, and IRG-26 at 1.07 microns[C]//Laser-induced Damage in Optical Materials 2019. Broomfield (Boulder area), USA. SPIE, 2019, 11173: 113–125.