大气光学遥感监测技术现状与发展趋势
[1] CLEMENT R E,EICEMAN G A,KOESTER C J. Environmental analysis[J]. Anal. Chem.,1995,67(12): 221R-255R.
[2] CASS G R. Speciation of organic carbon in the atmosphere[J]. J. Aerosol Sci.,2000,31: S1-S4.
[3] BROWN R H,ELLWOOD P A,GROVES J A,et al.. New methods for the determination of airborne isocyanates[J]. Cellular Polymers,1987,6(6): 1-8.
[4] AGGARWAL I D,FARQUHARSON S,KOGLIN E. Optical sensors for environmental and chemical process monitoring[J]. Proceedings of SPIE-The International Society for Optical Engineering,1995,23: 67.
[5] 谢品华, 刘文清, 魏庆农.大气环境污染气体的光谱遥感监测技术[J].量子电子学报, 2000,17(5): 385-394.
[6] 陈友华.遥测用多次反射式弹光调制傅里叶变换光谱技术研究[D].山西: 中北大学, 2013.
CHEN Y H. The study on multi-reflected photo-elastic modulator-based fourier transform spectroscopy for telemetry[D]. Shanxi: North University of China,2013.(in Chinese)
[7] ZHANG J,ZHEN X B,XUN Y L. Passive fourier-transform infrared spectroscopy monitoring of environmental pollution[J]. Proceedings of SPIE-The International Society for Optical Engineering,1998,3505: 94-101.
[8] VAZQUEZ G J. FTIR remote sensing of atmospheric species: application to air pollution[J]. Proceedings of SPIE-The International Society for Optical Engineering,1995,2365: 438-463.
[9] PLATT U,PERNER D,PATZ H W. Simultaneous measurement of atmospheric CH2O, O3, and NO2 by differential optical absorption[J]. J. Geophysical Research,1979,84(C10): 6329-6335.
[10] PLATT U,PENER D. Direct measurements of atmospheric CH2O, O3, NO2 and SO2 by differential optical absorption in the near UV[J]. J. Geophysical Research,1980,85(C12): 7453-7458.
[11] EDNER H,RAGNARSON P,SPANNARE S,et al.. Differential optical absorption spectroscopy(DOAS) system for urban atmospheric pollution monitoring[J]. Appl. Optics,1993,32(3): 327-333.
[12] PLANE J M C,NIEN C F. Differential optical absorption spectrometer for measuring atmospheric trace gases[J]. Rev. Sci. Instrum.,1992,63(3): l867-1876.
[13] AXELSSON H,EILARD A,EMANUEISSON A,et al.. Measurement of aromatic hydrocarbons with the DOAS technique[J]. Appl. Spectroscopy,1995,49(9): l254-1960.
[14] PUCKRIN E,MCMASTER D,EVANS W F J. A new technique for remote sensing of air pollution in the lower troposphere[J]. Proceedings of SPIE-The International Society for Optical Engineering,2001,4574: 44-51.
[15] NOXON J F. Nitrogen dioxide in the stratosphere and troposphere measured by ground-based absorption spectroscopy[J]. Science,1975,189: 547-549.
[16] NOXON J F,WHIPPLE E C,HYDE R S. Stratospheric NO2 Observation method and behavior at midlatirudes[J]. J. Geophys. Res.,1979,84: 5047-5076.
[17] 黄宝库.激光探测大气典型气体的研究进展[J].激光与红外,2012,42(11): 1222-1225.
HUANG B K. Research progress of laser detecting typical gases in atmosphere[J]. Laser Infrared,2012,42(11): 1222-1225.(in Chinese)
[18] KUZNETSOV A I,NADEZHDINSKII A I,STEPANOV E V,et al.. Tunable-diode-laser-based monitoring of atmospheric gases: modem techniques[J]. Proceedings of SPIE-The International Society for Optical Eng.,1993,1715: 151-162.
[19] WERLE P W, MUECKE. In-situ trace gas analysis using high-frequency modulation spectroscopy with tunable diode lasers[J]. Proceedings of SPIE-The International Society for Optical Engineering,1995,2506: 708-719.
[20] VICET A,NICOLAS J C, GENTY F,et al.. Room temperature GaInAsSb/GaSb quantum well laser for tunable diode laser absorption spectroscopy around 2.35 μm[J]. IEEE Proceedings: Optoelectronics,2000,147(3): 172-176.
[21] DUBINSKY R N. Lidar moves toward the 21st century[J]. Lasers Optronics,1988,7(4): 92-106.
[22] 杨进川,黄宝库, 章正宇,等.宽光谱激光雷达探测多种气体的仿真研究[J].激光与红外,2013,43(7): 743-746.
YANG J C,HUANG B K,ZHANG Z Y,et al.. Simulation study of detecting various gases based on far-infrared wide spectrum laser lidar[J]. Laser Infrared,2013,43(7): 743-746.(in Chinese)
[23] 刘继桥, 谢杨易, 李世光,等.用于全球大气温室气体探测的星载激光雷达研究[J].红外, 2013,34(2): 22-28.
曲艺. 大气光学遥感监测技术现状与发展趋势[J]. 中国光学, 2013, 6(6): 834. QU Yi. Technical status and development tendency of atmosphere optical remote and monitoring[J]. Chinese Optics, 2013, 6(6): 834.
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