Lidar Differential Absorption System for Measuring Ozone in the Upper Troposphere–Stratosphere

被引:0
|
作者
S. I. Dolgii
А. А. Nevzorov
А. V. Nevzorov
О. А. Romanovskii
О. V. Kharchenko
机构
[1] Siberian Branch of the Russian Academy of Sciences,V. E. Zuev Institute of Atmosp heric Optics
[2] Tomsk State University,undefined
来源
Journal of Applied Spectroscopy | 2019年 / 85卷 / 6期
关键词
atmosphere; lidar ranging; ozone; differential absorption;
D O I
暂无
中图分类号
学科分类号
摘要
A lidar system has been built at the Siberian Lidar Station of the V. E. Zuev Institute of Atmospheric Optics of the Siberian Branch of the Russian Academy of Sciences in Tomsk (56.5 N, 85.0 E) to study the dynamics of ozone in the region of the tropopause and monitor global changes in the ozonosphere by measuring the vertical distribution of ozone in the upper troposphere–stratosphere. Probing is by differential absorption using the wavelength pairs 299/341 and 308/353 nm with temperature and aerosol corrections taken into account. The lidar system covers an altitude range of ~5–45 km.
引用
收藏
页码:1114 / 1120
页数:6
相关论文
共 50 条
  • [31] Improved GOMOS/Envisat ozone retrievals in the upper troposphere and the lower stratosphere
    Sofieva, Viktoria F.
    Ialongo, Iolanda
    Hakkarainen, Janne
    Kyrola, Erkki
    Tamminen, Johanna
    Laine, Marko
    Hubert, Daan
    Hauchecorne, Alain
    Dalaudier, Francis
    Bertaux, Jean-Loup
    Fussen, Didier
    Blanot, Laurent
    Barrot, Gilbert
    Dehn, Angelika
    ATMOSPHERIC MEASUREMENT TECHNIQUES, 2017, 10 (01) : 231 - 246
  • [32] Raman-shifted laser sources suitable for differential–absorption lidar measurements of ozone in the troposphere
    M.J.T. Milton
    G. Ancellet
    A. Apituley
    J. Bösenberg
    W. Carnuth
    F. Castagnoli
    T. Trickl
    H. Edner
    L. Stefanutti
    T. Schaberl
    A. Sunesson
    C. Weitkamp
    Applied Physics B, 1998, 66 : 105 - 113
  • [33] DIFFERENTIAL ABSORPTION LIDAR SYSTEM FOR ROUTINE MONITORING OF TROPOSPHERIC OZONE
    SUNESSON, JA
    APITULEY, A
    SWART, DPJ
    APPLIED OPTICS, 1994, 33 (30) : 7045 - 7058
  • [34] DIFFERENTIAL ABSORPTION LIDAR SENSING OF OZONE
    BROWELL, EV
    PROCEEDINGS OF THE IEEE, 1989, 77 (03) : 419 - 432
  • [35] A Rotary Platform Mounted Doppler Lidar for Wind Measurements in Upper Troposphere and Stratosphere
    Zhao, Ming
    Xie, Chenbo
    Wang, Bangxin
    Xing, Kunming
    Chen, Jianfeng
    Fang, Zhiyuan
    Li, Lu
    Cheng, Liangliang
    REMOTE SENSING, 2022, 14 (21)
  • [36] A differential absorption lidar system for routine water vapor profiling in the lower troposphere
    Bösenberg, J
    Lehmann, S
    Linné, H
    ENVIRONMENTAL SCIENCE AND POLLUTION RESEARCH, 2002, : 3 - 9
  • [37] AERONOMIC REACTIONS OF OZONE IN THE TROPOSPHERE AND STRATOSPHERE
    HINGANE, LS
    ARCHIVES FOR METEOROLOGY GEOPHYSICS AND BIOCLIMATOLOGY SERIES B-THEORETICAL AND APPLIED CLIMATOLOGY, 1986, 36 (02): : 147 - 156
  • [38] Exploring ozone variability in the upper troposphere and lower stratosphere using dynamical coordinates
    Millan, Luis F.
    Hoor, Peter
    Hegglin, Michaela I.
    Manney, Gloria L.
    Boenisch, Harald
    Jeffery, Paul
    Kunkel, Daniel
    Petropavlovskikh, Irina
    Ye, Hao
    Leblanc, Thierry
    Walker, Kaley
    ATMOSPHERIC CHEMISTRY AND PHYSICS, 2024, 24 (13) : 7927 - 7959
  • [39] OZONE TRANSPORT FROM STRATOSPHERE TO TROPOSPHERE
    HUSAIN, L
    COFFEY, PE
    MEYERS, RE
    CEDERWALL, RT
    GEOPHYSICAL RESEARCH LETTERS, 1977, 4 (09) : 363 - 365
  • [40] Ozone vertical profiles in the Upper Troposphere and Stratosphere from the OMPS Limb Sensor
    Fleig, Albert
    Rault, Didier F.
    REMOTE SENSING OF CLOUDS AND THE ATMOSPHERE XVI, 2011, 8177
12345