[1] LUCAS J, ZHANG X H. The tellurium halide glasses［J］.Journal of Non-Crystalline Solids, 1990, 125(1-2): 1-16.

[2] DANTO S, HOUIZOT P, LUCAS J, et al. A family of far-infrared-transmitting glasses in the Ga-Ge-Te system for space applications［J］.Advanced Functional Materials, 2006, 16(14): 1847-1852.

[3] CONSEIL C, SHIRYAEV V S, CUI S, et al. Preparation of high purity Te-rich Ge-Te-Se fibers for 5-15 μm infrared range［J］.Journal of Lightwave Technology, 2013, 31(11): 1703-1707.

[4] ZHANG X H, FONTENEAU G, LUCAS J. Tellurium halide glasses. New materials for transmission in the 8-12 μm range［J］.Journal of Non-crystalline Solids, 1988, 104(1): 38-44.

[5] PAMUKCHIEVA V, SZEKERES A, TODOROVA K, et al. Evaluation of basic physical parameters of quaternary Ge-Sb-(S, Te) chalcogenide glasses［J］.Journal of Non-Crystalline Solids, 2009, 355(50): 2485-2490.

[6] BAHISHTI A A, MAJEED M A, PATEL B S, et al. Effect of laser irradiation on thermal and optical properties of selenium-tellurium alloy［J］.Journal of Non-Crystalline Solids, 2009, 355(45): 2314-2317.

[7] KALTENEGGER L, FRIDLUND M. The darwin mission: search for extra-solar planets［J］.Advances in Space Research, 2005, 36(6): 1114-1122.

[8] ALDON L, LIPPENS P E, JOSETTE O F, et al. Thermal stability of some glassy compositions of the Ge-As-Te ternary［J］.Chalcogenide Letters, 2010, 7(3): 187-196.

[9] WILHELM A A, BOUSSARD-PLEDEL C, COULOMBIER Q, et al. Development of far-infrared-transmitting te based glasses suitable for carbon dioxide detection and space optics［J］.Advanced Materials, 2007, 19(22): 3796-3800.

[10] HE Yu-ju, NIE Qiu-hua, SUN Jie, et al. Novel Ge-Te-I far-infrared-transmitting chalcogenide glasses system［J］.Acta Photonica Sinica, 2011, 40(9): 1307-1311.

[11] DAI Shi-xun, WANG Guo-xiang, NIE Qiu-hua, et al. Effect of CuI on the formation and properties of Te-based far infrared transmitting chalcogenide glasses［J］.Infrared Physics & Technology, 2010, 53(5): 392-395.

[12] WILHELM A, BOUSSARD-PLEDEL C, LUCAS P, et al. New tellurium based glasses for use in bio-sensing applications［C］//Biomedical Optics (BiOS) 2007. International Society for Optics and Photonics, 2007: 64330U-64330U-8.

[13] TAUC J. Amorphous and liquid semiconductors［M］.Plenum Publishing Corporation, 1974.

[14] WANG Guo-xiang, NIE Qiu-hua, BARJ M, et al. Compositional dependence of the optical properties of novel Ge-Ga-Te-CsI far infrared transmitting chalcohalide glasses system［J］.Journal of Physics and Chemistry of Solids, 2011, 72(1): 5-9.

[15] MOTT N F, DAVIS E A. Electronic processes in non-crystalline materials［M］.Oxford University Press, 2012.

[16] XIA F, BACCARO S, ZHAO D, et al. Gamma ray irradiation induced optical band gap variations in chalcogenide glasses［J］.Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms, 2005, 234(4): 525-532.

[17] ANDRIKOPOULOS K S, YANNOPOULOS S N, KOLOBOV A V, et al. Raman scattering study of GeTe and Ge2Sb2Te5 phase-change materials［J］.Journal of Physics and Chemistry of Solids, 2007, 68(5-6): 1074-1078.

[18] WANG Xun-si, NIE Qiu-hua, WANG Guo-xiang, et al. Investigations of Ge-Te-AgI chalcogenide glass for far-infrared application［J］.Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy, 2012, 86: 586-589.

[19] NISHII J, YAMASHITA T, YAMAGISHI T. Oxide impurity absorptions in Ge-Se-Te glass fibres［J］.Journal of Materials Science, 1989, 24(12): 4293-4297.

[20] PAULING L. The nature of the chemical bond and the structure of molecules and crystals: an introduction to modern structural chemistry［M］.Cornell University Press, 1960.

[21] YANG Z, LUCAS P. Tellurium-based far-infrared transmitting glasses［J］.Journal of the American Ceramic Society, 2009, 92(12): 2920-2923.