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Effectiveness of monitoring the catastrophic processes of space and terrestrial origin. Space Science and Technology. 2019 ;25(1):38-47.
. Artificial acoustic modification of the near-earth environment. Space Science and Technology. 2020 ;26(2):19-58.
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.
. Temporal and system spectral analysis of infrasonic signals in the atmosphere generated during a man-made catastrophe. Space Science and Technology. 2020 ;26(3):81-96.
. Geospace storm effects on August 5—6, 2019. Space Science and Technology. 2021 ;27(2):45-69.
. The global seismic activity influence on process in atmosphere and ionosphere. Space Science and Technology. 2021 ;27(5):019-034.
. Physics of geospace storms. Space Science and Technology. 2021 ;27(1):03-77.
. Global and local effects of seismic activity in the ionosphere. Space Science and Technology. 2022 ;28(6):12-24.
. Ionospheric effects from rocket launches against the background of geospace storms. Space Science and Technology. 2022 ;28(3):05-05.
. Global variations in the geomagnetic field caused by the explosion of the Tonga volcano on January 15, 2022. Space Science and Technology. 2023 ;29(4):078-105.
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