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Analysis of the discrepancy between ground-based and satellite total ozone content measurements at Kyiv-Goloseyev station. Kosm. nauka tehnol. 2014 ;20(1):03-13.
. Antarctic tropopause in winter and spring. Kosm. nauka tehnol. 2008 ;14(4):58-71.
. Atmosphere aerosol modeling by GEOS-Chem for the “Aerosol-UA” space project validation. Space Science and Technology. 2017 ;23(3):03-10.
. Comparison of ground-based and satellite total ozone measurements over the antarctic station Akademik Vernadsky (1996–2005). Kosm. nauka tehnol. 2008 ;14(5):074-084.
. Distant troposphere-stratosphere teleconnections from 30-year satellite measurements of the antarctic ozone. Kosm. nauka tehnol. 2012 ;18(5):48–58.
. Integrated satellite and groundbased regional monitoring of atmospheric aerosol by lidar and radiometric systems using data assimilation. Space Science and Technology. 2020 ;26(1):59-71.
. Longitudinal distribution of total ozone content in edge region of antarctic stratospheric vortex. Kosm. nauka tehnol. 2005 ;11(5-6):005-011.
. Methodology, hardware implementation, and validation of satellite remote sensing of atmospheric aerosols: first results of the Aerosol-UA space experiment development. Kosm. nauka tehnol. 2015 ;21(3):09–17.
. Multispectral imager-polarimeter of the "AEROSOL-UA" space project. Space Science and Technology. 2018 ;24(3):23-32.
. Ozone distribution in the Antarctic region from the data of 30-year satellite measurements. Kosm. nauka tehnol. 2010 ;16(1):20-27.
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