[1] Smektala F, Quemard C, Leneindre L, et al. Chalcogenide glasses with large non-linear refractive indices[J]. Journal of Non-Crystalline Solids, 1998, 239(1-3): 139-142.

[2] Eggleton B J, Luther-Davies B, Richardson K. Chalcogenide photonics[J]. Nature Photonics, 2011, 5(3): 141-148.

[3] Houizot P, Boussard-Plédel C, Faber A J, et al. Infrared single mode chalcogenide glass fiber for space[J]. Optics Express, 2007, 15(19): 12529-12538.

[4] Gopal V, Harrington J A, Goren A, et al. Coherent hollow-core waveguide bundles for infrared imaging[J]. Optical Engineering, 2004, 43(5): 1195-1199.

[5] Suto H. Chalcogenide fiber bundle for 3D spectroscopy[J]. Infrared Physics & Technology, 1997, 38(2): 93-99.

[6] Bernier M, Fortin V, Caron N, et al. Mid-infrared chalcogenide glass Raman fiber laser[J]. Optics Letters, 2013, 38(2): 127-129.

[7] Limpert J, Liem A, Reich M, et al. Low-nonlinearity single-transverse-mode ytterbium-doped photonic crystal fiber amplifier[J]. Optics Express, 2004, 12(7): 1313-1319.

[8] Limpert J, Schreiber T, Nolte S, et al. High-power air-clad large-mode-area photonic crystal fiber laser[J]. Optics Express, 2003, 11(7): 818-823.

[9] Monro T M, Warren-Smith S, Schartner E P, et al. Sensing with suspended-core optical fibers[J]. Optical Fiber Technology, 2010, 16(6): 343-356.

[10] 汪翠, 戴世勋, 张培晴, 等. 基于硫系玻璃光纤的红外超连续谱的研究进展[J]. 激光与光电子学进展, 2015, 52(3): 030001.

    Wang Cui, Dai Shixun, Zhang Peiqing, et al. Research progress of infrared supercontinuum generation in chalcogenide glass fibers[J]. Laser & Optoelectronics Progress, 2015, 52(3): 030001.

[11] Troles J, Shiryaev V, Churbanov M, et al. GeSe4 glass fibres with low optical losses in the mid-IR[J]. Optical Materials, 2009, 32(1): 212-215.

[12] Churbanov M F, Snopatin G E, Shiryaev V S, et al. Recent advances in preparation of high-purity glasses based on arsenic chalcogenides for fiber optics[J]. Journal of Non-Crystalline Solids, 2011, 357(11-13): 2352-2357.

[13] Smektala F, Le Foulgoc K, Le Neindre L, et al. TeX-glass infrared optical fibers delivering medium power from a CO2 laser[J]. Optical Materials, 1999, 13(2): 271-276.

[14] Mossadegh R, Sanghera J S, Schaafsma D, et al. Fabrication of single-mode chalcogenide optical fiber[J]. Journal of Lightwave Technology, 1998, 16(2): 214-217.

[15] Tao G, Shabahang S, Banaei E H, et al. Multimaterial preform coextrusion for robust chalcogenide optical fibers and tapers[J]. Optics Letters, 2012, 37(13): 2751-2753.

[16] Lee E T Y, Taylor E R M. Two-die assembly for the extrusion of glasses with dissimilar thermal properties for fibre optic preforms[J]. Journal of Materials Processing Technology, 2007, 184(1-3): 325-329.

[17] Savage S D, Miller C A, Furniss D, et al. Extrusion of chalcogenide glass preforms and drawing to multimode optical fibers[J]. Journal of Non-Crystalline Solids, 2008, 354(29): 3418-3427.

[18] Liao M, Chaudhari C, Qin G, et al. Fabrication and characterization of a chalcogenide-tellurite composite microstructure fiber with high nonlinearity[J]. Optics Express, 2009, 17(24): 21608-21614.

[19] 朱敏鸣, 王训四, 徐会娟, 等. 新型远红外Ge-Ga-Te-KBr硫系玻璃性能研究[J]. 光子学报, 2014, 43(6): 0616001.

    Zhu Minming, Wang Xunsi, Xu Huijuan, et al. Novel Ge-Ga-Te-KBr far-infrared-transmitting chalcogenide glasses system[J]. Acta Photonica Sinica, 2014, 43(6): 0616001.

[20] 翟诚诚, 张斌, 祁思胜, 等. 柔性硫系玻璃光纤传像束的制备及性能研究[J]. 光学学报, 2015, 35(8): 0806005.

    Zhai Chengcheng, Zhang Bin, Qi Sisheng, et al. Fabrication and properties of flexible chalcogenide fiber image bundles[J]. Acta Optica Sinica, 2015, 35(8): 0806005.

[21] Lafond C, Couillard J F, Delarosbil J L, et al. Recent improvements on mid-IR chalcogenide optical fibers[C]. Proceedings of SPIE, Infrared Technology and Applications, 2014, 9070: 90701C.

[22] Katsuyama T, Satoh S, Matsumura H. Scattering loss characteristics of selenide-based chalcogenide glass optical fibers[J]. Journal of Applied Physics, 1992, 71(9): 4132-4135.

[23] 祝清德, 王训四, 张培晴, 等. 硫系As2S3悬吊芯光纤制备及其光谱性能研究[J]. 光学学报, 2015, 35(12): 1206004.

    Zhu Qingde, Wang Xunsi, Zhang Peiqing, et al. Fabrication and optical properties of chalcogenide As2S3 suspended-core fiber[J]. Acta Optica Sinica, 2015, 35(12): 1206004.

[24] Toupin P, Brilland L, Renversez G, et al. All-solid all-chalcogenide microstructured optical fiber[J]. Optics Express, 2013, 21(12): 14643-14648.

[25] Bernier M, Asatryan K, Vallée R, et al. Second-order Bragg gratings in single-mode chalcogenide fibres[J]. Quantum Electronics, 2011, 41(5): 465-468.