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1Chernogor LF. Physics of geospace storms. Space Science and Technology. 2021 ;27(1):03-77.
1Chernogor LF, 2Shamota MA. Geomagnetic pulsations associated with solar тerminators near Kharkiv city. 2. Statistical analysis. Kosm. nauka tehnol. 2009 ;15(6):14-19.
1Chernogor LF, 1Shevelev MB. A statistical study of the explosive waves launched by the Tonga super-volcano on January 15, 2022. Space Science and Technology. 2024 ;30(1):66-79.
1Chernogor LF, 2Milovanov Yu.B, 3Fedorenko VN, 4Tsymbal AM. Satellite observations of ionospheric disturbances which followed the Chelyabinsk meteorite passage. Kosm. nauka tehnol. 2013 ;19(6):38–46.
1Chernogor LF, 2Liashchuk OI, 1Shevelev MB. 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.
1Chernogor LF, 2Shamota MA. Geomagnetic pulsations associated with rocket launches from the Canaveral cape cosmodrome and Couru cosmodrome. Kosm. nauka tehnol. 2008 ;14(6):89-98.
1Chernogor LF. Physical effects of the Romanian meteoroid. 2. Space Science and Technology. 2018 ;24(2):18-35.
1Chernogor LF, 2Shamota MA. Geomagnetic pulsations associated with solar тerminators near Kharkiv city. 1. Spectral analysis. Kosm. nauka tehnol. 2009 ;15(5):43-51.
1Chernogor LF. 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.
1Chernogor LF. The earth–atmosphere–geospace environment system as an opened dynamic nonlinear one. Kosm. nauka tehnol. 2003 ;9(5-6):096-105.

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