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    Journals >Journal of Atmospheric and Environmental Optics >Volume 15 >Issue 3 >Page 180 > Article
    • Journal of Atmospheric and Environmental Optics
    • Vol. 15, Issue 3, 180 (2020)
    Abel Transformation of Laser Occultation for Profiling Water Vapor in UTLS
    Guanglie HONG1、*, Hu LI1、2, Jianyu WANG1、2, Yinan WANG3, and Wei KONG1
    Author Affiliations
  • 1[in Chinese]
  • 2[in Chinese]
  • 3[in Chinese]
    • show less
    DOI: 10.3969/j.issn.1673-6141.20.003 Cite this Article
    HONG Guanglie, LI Hu, WANG Jianyu, WANG Yinan, KONG Wei. Abel Transformation of Laser Occultation for Profiling Water Vapor in UTLS[J]. Journal of Atmospheric and Environmental Optics, 2020, 15(3): 180 Copy Citation Text show less
    References

    [1] Sheng Peixuan, Mao Jietai, Li Jianguo, et al. Atmospheric Physics[M], 2nd ed. Beijing: Peking university press, 2013: 505-507 (in Chinese).

    [2] Bi Y M, Yang Z D, Zhang P, et al. An introduction to China FY3 radio occultation mission and its measurement simulation[J]. Advances in Space Research, 2012, 49: 1191-1197.

    [3] Born M, Wolf E. Principles of Optics[M]. 7th(expanded) ed. Yang Jiasun, Transl. Beijing: Electronics Industry Press, 2009: 185-191 (in Chinese).

    [4] Bevis M, Businger S, Herring T A, et al. GPS meteorology: Remote sensing of atmospheric water vapor using the global positioning system[J]. Journal of Geophys. Research, 1992, 97(D14): 15787-15801.

    [5] Born M, Wolf E. Principles of Optics[M]. 7th (expanded) ed. Yang Jiasun, Transl. Beijing: Electronics Industry Press, 2009: 109-110 (in Chinese).

    [6] Hoffmann A, Clifford D, Aulinas J, et al. A novel satellite mission concept for upper Air water vapour, aerosol and cloud observations using integrated path differential absorption LiDAR limb sounding[R]. Remote Sensing. 2012, 4: 867-910.

    [7] Chuang T, Walters B, Shuman T, et al. Single frequency and wavelength stabilized near infrared laser source for water vapor DIAL remote sensing application[C]// SPIE LASE. Solid State Lasers XXIV: Technology and Devices, 2015.

    [8] Wirth M, Fix A, Mahnke P, et al. The airborne multi-wavelength water vapor differential absorption lidar WALES: system design and performance[J]. Applied Physics B, 2009, 96: 201-213.

    [9] Feng D D, Syndergaard S, Herman B M, et al. Deriving atmospheric water vapor and ozone profiles from active microwave occultation measurements[J]. Proceedings of SPIE, 2000, 4169: 298-304.

    [10] Kursinski E R, Syndergaard S, Flittner D, et al. A microwave occultation observing system optimized to characterize atmospheric water, temperature, and geopotential via absorption[J]. Journal of Atmospheric and Oceanic Technology, 2002, 19: 1897-1914.

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    HONG Guanglie, LI Hu, WANG Jianyu, WANG Yinan, KONG Wei. Abel Transformation of Laser Occultation for Profiling Water Vapor in UTLS[J]. Journal of Atmospheric and Environmental Optics, 2020, 15(3): 180
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