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Infrared and Laser Engineering, Volume. 52, Issue 2, 20220412(2023)

Frequency tracking technology of direct wind lidar and observation of atmospheric wind field in troposphere and stratosphere

Zhiyuan Fang1,2,3, Ming Zhao1,3, Hao Yang1,2,3, Kunming Xing1,2, Bangxin Wang1,2, Jianfeng Chen1,2,3, Xu Deng1,2,3, Liangliang Cheng1,2,3, and Chenbo Xie1,2,3
Author Affiliations
  • 1Key Laboratory of Atmospheric Optics, Anhui Institute of Optics and Fine Mechanics, Hefei Institutes of Physical Science, Chinese Academy of Sciences, Hefei 230031, China
  • 2Science Island Branch of Graduate School, University of Science and Technology of China, Hefei 230026, China
  • 3Advanced Laser Technology Laboratory of Anhui Province, Hefei 230037, China
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    [1] [1] Cruten P J. The International Global Atmospheric Chemistry Project (IGAC) summary of an established project of the IGBP [R]. Germany: Max Planck Institute f Chemistry, 1991: 233243.

    [2] [2] Zhou Xiuji, Tao Shanchang, Yao Keya. Advanced Atmospheric Physics [M]. Beijing: Science Press, 1990. (in Chinese)

    [3] Fahua Shen, Zhongchun Wang, Chenglin Liu, et al. Detection of atmospheric wind field by Mie scattering Doppler lidar. Acta Optica Sinica, 30, 1537-1541(2010).

    [4] Jiaxiang Shi, Xiaoquan Song, Songhua Wu, et al. Doppler lidar telemetry technology for wind turbine vibration. Optics Precision Engineering, 28, 2180-2191(2020).

    [5] Jinglong Yuan, Haiyun Xia, Tianwen Wei, et al. Identifying cloud, precipitation, windshear, and turbulence by deep analysis of the power spectrum of coherent Doppler wind lidar. Optics Express, 28, 37406(2020).

    [6] M L Chanin, A Garnier, A Hauchecorne, et al. A Doppler lidar for measuring winds in the middle atmosphere. Geophysical Research Letters, 16, 1273-1276(1989).

    [7] [7] Gentry B M, Chen H L, Einadui F. Tropospheric wind measurements obtained with the Goddard Lidar Observaty f Winds (GLOW): Validation perfmance [C]Proceedings of SPIE , 2001, 4484: 7481.

    [8] Jihui Dong, Hyun-Ki Cha, Duk-Hyeon Kim, et al. Doppler LiDAR measurement of wind in the Stratosphere. Journal of the Optical Society of Korea, 14, 199-203(2010).

    [9] Jun Zheng, Dongsong Sun, Tingdi Chen, et al. Scanning Rayleigh Doppler lidar for wind profiling based on non-polarized beam splitter cube optically contacted FPI. Current Optics and Photonics, 2, 195-202(2018).

    [10] Fahua Shen, Zhifeng Shu, Dongsong Sun, et al. Rayleigh scattering Doppler lidar wind field inversion method. Journal of Physics, 60, 192-198(2011).

    [11] Jie Chen, Yicheng Tong, Da Xiao, et al. Study on inversion method of atmospheric aerosol extinction backscatter ratio. Chinese Optics, 14, 1305-1316(2021).

    [12] Yiyue Li, Shuling Hu. Turbulence spectrum decomposition of lidar using independent component analysis. Optics Precision Engineering, 28, 1029-1037(2020).

    [13] Bin Yang, Zusi Mo, Haijiao Liu, et al. Research on abrupt signal processing method of atmospheric detection lidar (Invited). Infrared and Laser Engineering, 51, 20211117(2022).

    [14] Peng Zhuang, Fahua Shen, Bangxin Wang, et al. Study on Rayleigh meter scattering wind lidar based on Fabry-Perot interferometer. Chinese Journal of Lasers, 47, 1210001(2020).

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    Zhiyuan Fang, Ming Zhao, Hao Yang, Kunming Xing, Bangxin Wang, Jianfeng Chen, Xu Deng, Liangliang Cheng, Chenbo Xie. Frequency tracking technology of direct wind lidar and observation of atmospheric wind field in troposphere and stratosphere[J]. Infrared and Laser Engineering, 2023, 52(2): 20220412

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    Paper Information

    Category: Lasers & Laser optics

    Received: Jun. 17, 2022

    Accepted: --

    Published Online: Mar. 13, 2023

    The Author Email:

    DOI:10.3788/IRLA20220412

    Topics

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