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Observation data on wave-like processes in ionosphere under quiet and disturbed conditions. Kosm. nauka tehnol. 2005 ;11(1-2):037-057.
. Monitoring of space weather variations k. magnetometricp. Kosm. nauka tehnol. 2003 ;9(Supplement2):082-085.
. Latitudinal dependence of quasi-periodic variations in the geomagnetic field during the greatest geospace storm of September 7-9, 2017. Space Science and Technology. 2020 ;26(2):72-83.
. Ionospheric total electron content variations caused by the Tonga volcano explosion of January 15, 2022. Space Science and Technology. 2023 ;29(3):67-87.
. Ionospheric processes during the 7–10 November 2004 extreme geospace storm. 2. Simulation results and discussion. Kosm. nauka tehnol. 2007 ;13(4):077-090.
. Ionospheric processes during the 7–10 November 2004 extreme geospace storm. 1. Observation results. Kosm. nauka tehnol. 2007 ;13(4):062-076.
. Ionospheric effects from rocket launches against the background of geospace storms. Space Science and Technology. 2022 ;28(3):05-05.
. Ionospheric effects during rocket «Proton» flight: results of vertical sounding. Kosm. nauka tehnol. 2010 ;16(3):15-21.
. Ionospheric effects during flights of the rocket «Soyuz» under magnetically quiet and magnetically disturbed conditions. Kosm. nauka tehnol. 2010 ;16(3):22-31.
. Ionosphere response to the solar eclipse on 1 august 2008: Some results of vertical sounding. Kosm. nauka tehnol. 2009 ;15(4):12-21.
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