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Chinese Journal of Lasers, Volume. 43, Issue 7, 710004(2016)

Performance Improvement of Rayleigh Wind Lidar and Wind Field Observation in Middle and Upper Atmosphere

Tang Lei1、*, Jiang Shan1, Li Zimu2, Zheng Jun2, Zhao Ruocan2, Sun Dongsong2, Wu Haibin3, Dai Xuan1, and Lu Ping1
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  • 1[in Chinese]
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    [1] [1] Lü Daren, Chen Hongbin. Advances in middle atmosphere physics research[J]. Chinese Journal of Atmospheric Sciences, 2003, 27(4): 750-769.

    [2] [2] Jiang Guoying. The study of atmospheric waves and the distribution of temperature, wind in mesosphere and lower thermosphere[D]. Beijing: Center for Space Science and Applied Research, Chinese Academy of Sciences, 2009: 48-59.

    [3] [3] Korb C L, Gentry B M, Li S X, et al.. Theory of the double-edge technique for Doppler lidar wind measurement[J]. Appl Opt, 1998, 37(15): 3097-3104.

    [4] [4] Irgang T D, Hays P B, Skinner W R. Two-channel direct-detection Doppler lidar employing a charge-coupled device as a detector[J]. Appl Opt, 2002, 41(6): 1145-1155.

    [5] [5] Chanin M L, Garnier A, Hauchecorne A, et al.. A Doppler lidar for measuring winds in the middle atmosphere[J]. Geophys Res Lett, 1989, 16(11): 1273-1276.

    [6] [6] von Zahn U, von Cossart G, Fiedler J, et al.. The ALOMAR Rayleigh/Mie/Raman lidar: Objectives, configuration, and performance[J]. Ann Geophysicae, 2000, 18(7): 815-833.

    [7] [7] Hildebrand J, Baumgarten G, Fiedler J, et al.. Combined wind measurements by two different lidar instruments in the Arctic middle atmosphere[J]. Atmos Meas Tech Discuss, 2012, 5(10): 4123-4156.

    [8] [8] Tang L, Shu Z F, Dong J H, et al.. Mobile Rayleigh Doppler wind lidar based on double-edge technique[J]. Chin Opt Lett, 2010, 8(8): 726-731.

    [9] [9] Xia H Y, Dou X K, Sun D S, et al.. Mid-altitude wind measurements with mobile Rayleigh Doppler lidar incorporating system-level optical frequency control method[J]. Opt Express, 2012, 20(14): 15286-15300.

    [10] [10] Shen F H, Cha H, Dong J H, et al.. Design and performance simulation of a molecular Doppler wind lidar[J]. Chin Opt Lett, 2009, 7(7): 593-597.

    [11] [11] Zhang F F, Dou X K, Shu Z F, et al.. Analysis on error of laser frequency locking for fiber optical receiver in direct detection wind lidar based on Fabry-Perot interferometer and improvements[J]. Opt Eng, 2014, 53(12): 124102.

    [12] [12] Dou X K, Han Y L, Sun D S, et al.. Mobile Rayleigh Doppler lidar for wind and temperature measurements in the stratosphere and lower mesosphere[J]. Opt Express, 2014, 22(S5): A1203-A1221.

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    Tang Lei, Jiang Shan, Li Zimu, Zheng Jun, Zhao Ruocan, Sun Dongsong, Wu Haibin, Dai Xuan, Lu Ping. Performance Improvement of Rayleigh Wind Lidar and Wind Field Observation in Middle and Upper Atmosphere[J]. Chinese Journal of Lasers, 2016, 43(7): 710004

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    Paper Information

    Category: Remote Sensing and Sensors

    Received: Jan. 26, 2016

    Accepted: --

    Published Online: Jul. 13, 2016

    The Author Email: Lei Tang (tanglei_66@163.com)

    DOI:10.3788/cjl201643.0710004

    Topics

    laser devices and laser physics
    Lasers and Laser Optics
    Laser physics
    laser manufacturing
    Instrumentation, Measurement and Metrology