CdSe波片 6~12 μm波段增透膜研究
杨明, 杨辉, 张志勇, 田文, 明仕文, 张敏, 曾体贤. CdSe波片 6~12 μm波段增透膜研究[J]. 人工晶体学报, 2020, 49(4): 576.
YANG Ming, YANG Hui, ZHANG Zhiyong, TIAN Wen, MING Shiwen, ZHANG Min, ZENG Tixian. Study on 6-12 μm Anti-reflection Coating for CdSe Wave Plate[J]. Journal of Synthetic Crystals, 2020, 49(4): 576.
[1] 姜会林,付 强,段 锦,等. 红外偏振成像探测技术及应用研究[J].红外技术, 2014(5):5-9.
[2] 刘重阳, 赵万利. 红外偏振成像技术研究[J].光电技术应用, 2014, 29(5):31-33.
[3] 刘 忠, 邓元勇, 季海生,等. 中国地基大太阳望远镜[J].中国科学:物理学 力学 天文学, 2012(12):22-31.
[4] Taylor A. A study of novel mid-infrared optical devices:wave plates and tunable filters[D]. Illinois:University of Illinois at Urbana-Champaign, 2013.
[5] Zeng T, Zhao B, Zhu S, et al. Optimizing the growth procedures for CdSe crystal by thermal analysis techniques[J].Journal of Crystal Growth, 2011, 316(1):15-19.
[6] Pawlak M, Chirtoc M, Horny N, et al. Spectrally resolved modulated infrared radiometry of photothermal, photocarrier, and photoluminescence response of CdSe crystals:Determination of optical, thermal, and electronic transport parameters[J].Journal of Applied Physics, 2016, 119(12):125108.
[7] Dmitriev V G, Gurzadyan G G, Nikogosyan D N. Handbook of nonlinear optical crystals. (second, revised and updated edition)[J].Crystal Research & Technology,1997,32(5):636-636.
[8] Frese K W. A high efficiency single crystal cdse photoelectrochemical solar cell and an associated loss mechanism[J].Applied Physics Letters,1982,40(3):275-277.
[9] Herbst R L, Byer R L. Singly resonant cdse infrared parametric oscillator[J].Applied Physics Letters,1972,21(5):189-191.
[10] Zhu S F, Zhao B J. Modified growth of cadmium selenide single crystal from the vapor phase and quality characterization[J].Crystal Research and Technology,2000,35(11-12):1239-1244.
[11] Bhar G C, Ghosh G. Temperature dependent phase-matched nonlinear optical devices using CdSe and ZnGeP2[J].IEEE Journal of Quantum Electronics,1980,16(8):838-843.
[12] Vodopyanov K L. Megawatt peak power 8-13 μm CdSe optical parametric generator pumped at 2.8 μm[J].Optics Communications, 1998, 150(1-6):210-212.
[13] Zeng T X, Zhao B J, Zhu S F. Thermodynamic analysis of the sublimation process in cadmium selenide[J].Journal of Alloys and Compounds, 2010, 491(1-2):172.
[14] 曾体贤,赵北君,朱世富,等.红外非线性光学晶体CdSe生长与性能表征[J].人工晶体学报,2009,38(2):326-329.
[15] Zhu S F, Zhao B J, Jin Y, et al. Growth and characterization of CdSe single crystals by modified vertical vapor phase method[J].Journal of Crystal Growth, 2002, 240(3):454-458.
[16] 卢大洲,朱世富,赵北君,等.硒化镉晶体定向切割方法研究[J].人工晶体学报,2008,37(5):1121-1126.
[17] 魏顺勇,张志勇,杨 辉,等.酸性条件下的CdSe波片抛光工艺研究[J].人工晶体学报,2018,47(6):1280-1285.
[18] 孙可祥.红外增透膜的研究[D].西安:西安工业大学, 2013.
[19] 潘永强,朱 昌.硒化锌基底8~12μm高性能增透膜的研究[J].红外与激光工程, 2005(4):19-21+78.
[20] 李大琪,刘定权,张凤山.6.4~15μm宽带增透膜的设计与制作[J].红外与毫米波学报,2006(2):135-137.
[21] 于天燕,朱福荣,刘定权,等.硫化锌透镜中长波红外宽带增透膜的研制[J].光学学报,2005(2):270-273.
[22] Lemarquis F, Marchand G, Amra C. Design and manufacture of low-absorption ZnS YF3 antireflection coatings in the 3.5-16 μm spectral range[J].Applied Optics, 1998, 37(19):4239-4244.
[23] 广州机床研究所激光室.计算膜系特征矩阵的一种新方法[J].机床与液压, 1977(6):133-145.
杨明, 杨辉, 张志勇, 田文, 明仕文, 张敏, 曾体贤. CdSe波片 6~12 μm波段增透膜研究[J]. 人工晶体学报, 2020, 49(4): 576. YANG Ming, YANG Hui, ZHANG Zhiyong, TIAN Wen, MING Shiwen, ZHANG Min, ZENG Tixian. Study on 6-12 μm Anti-reflection Coating for CdSe Wave Plate[J]. Journal of Synthetic Crystals, 2020, 49(4): 576.
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