温度不敏感型石英光滤波器的研究
高艾琳, 王鑫, 盛荔, 王梦樱, 陶音, 孔勇, 韩华. 温度不敏感型石英光滤波器的研究[J]. 激光技术, 2016, 40(3): 358.
GAO Ailin, WANG Xin, SHENG Li, WANG Mengying, TAO Yin, KONG Yong, HAN Hua. Research of new temperature-insensitive quartz filters[J]. Laser Technology, 2016, 40(3): 358.
[1] EVANS J W. The birefringent filter[J]. Journal of Optical Society of America, 1949, 39(3): 229-237.
[2] AHARON O, ABDULHALIM I. Liquid crystal Lyot tunable filter with extended free spectral range[J]. Optics Express, 2009,17(14):11426-11433.
[4] EVANS J W. Solc birefringent filter[J]. Journal of Optical Society of America, 1958, 48(3): 142-143.
[5] SOLC I. Birefringent chain filters[J]. Journal of Optical Society of America, 1965, 55(6): 621-625.
[6] WANG X, YAO J. Transmitted and tuning characteristics of birefringent filters[J]. Applied Optics, 1992, 31(22): 4505-4508.
[7] WACOGNE B, GOEDGEBUER J, ONOKHOV A, et al. Wavelength tuning of a semiconductor laser using nematic liquid crystals[J]. IEEE Journal of Quantum Electronics, 1993, 29(4): 1015-1017.
[8] HOBBS J. Tunable liquid-crystal filter helps study stellar emission[J]. Laser Focus World,1993,29(1): 29-30.
[9] MILLER P J. Tunable narrowband birefringent filters for astronomical imaging[J]. Proceedings of the SPIE, 1990, 1235: 466-473.
[10] KOPP G A, DERKS M J, ELMORE D F, et al. Tunable liquid-crystal filter for solar imaging at the He i 1083nm line[J]. Applied Optics, 1997,36(1):291-296.
[11] ZHANG J, LIU L R, ZHOU Y. Optimum design of a novel electro-optically tunable birefringent interleaver filter[J]. Journal of Optics, 2004,A6(11): 1052-1057.
[12] LUO Zh X, WAN Zh J. Design and tolerance analysis of optical interleaver based on retardant crystals[J]. Optik, 2011,122(2): 133-135.
[13] YE C. Wavelength-tunable spectral filters based on the optical rotatory dispersion effect[J]. Applied Optics, 2003, 42(22): 4505-4513.
[14] YE C. A liquid crystal band-pass filter based on the optical rotatory dispersion effect[J]. Applied Optics, 2004, 43(20): 4007-4012.
[15] YE C. Low-loss tunable filter based on optical rotator dispersion[J]. Applied Optics,2006,45(6):1162-1168.
[17] CAO Zh L, XUAN L, HU L F, et al. Temperature effect on the diffraction efficiency of the liquid crystal spatial light modulator[J]. Optics Communications, 2006,267(1):69-73.
[18] LIN Y Q, FENG S M . Temperature effect on threshold voltage and optical property of twisted nematic liquid crystal with applied different voltages[J]. Optik, 2010, 121(18):1693-1697.
[19] WULLERT J R, PATEL J S. Optical communications over a wide temperature range using a tunable liquid-crystal filter[J]. IEEE Photonics Technology Letters, 1993, 5(2):257-259.
[21] KIMURA T, SARUWATARI M. Temperature compensation of birefringent optical filters[J]. Proceedings of the IEEE, 1971,59(8):1273-1274.
[22] YAN J X, WEI G H, HA L Zh,et al. Matrix optics[M]. Beijing: Ordnance Industry Press, 1995: 178-189(in Chinese).
[23] LIAO Y B. Polarized optics[M]. Beijing: Science Press, 2003:133-135(in Chinese).
[25] ENNOS A E, OPPERMAN K W. Birefringence of nature quartz[J]. Applied Optics,1966,5(1): 170-172.
高艾琳, 王鑫, 盛荔, 王梦樱, 陶音, 孔勇, 韩华. 温度不敏感型石英光滤波器的研究[J]. 激光技术, 2016, 40(3): 358. GAO Ailin, WANG Xin, SHENG Li, WANG Mengying, TAO Yin, KONG Yong, HAN Hua. Research of new temperature-insensitive quartz filters[J]. Laser Technology, 2016, 40(3): 358.