Experimental and theorethical investigations of resonance phenomena in the magnetosphericionospheric plasma

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Space and Atmospheric Physics
1Cheremnykh, ОК, 1Fedorenko, AK, 1Kryuchkov, EI, 2Cheremnykh, SО, 3Bespalova, AV
1Space Research Institute of the National Academy of Sciences of Ukraine and the State Space Agency of Ukraine, Kyiv, Ukraine
2Space Research Institute of the National Academy of Science of Ukraine and the State Space Agency of Ukraine, Kyiv
3Space Research Institute of the National Academy of Science of Ukraine and the State Space Agency of Ukraine, Kyiv, Ukraine
Kosm. nauka tehnol. 2015, 21 ;(1):64–69
https://doi.org/10.15407/knit2015.01.064
Publication Language: Ukrainian
Abstract: 

The main results of experimental and theoretical studies of resonance phenomenon in the magnetospheric-ionospheric plasma are presented. Among them, a theoretical model of resonance ULF wave phenomena in the magnetosphere is developed; the global oscillations of the neutral upper atmosphere and ionosphere is investigated basing on satellite measurements; the effects of the magnetosphere-ionosphere interaction is detected from the satellite data
Keywords: ionosphere, magnetosphere, resonance phenomena, wave processes
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References: 

1. Bespalova A. V., Fedorenko A. K. Satellite studies of ionospheric manifestations of acoustic-gravity waves. Radio Physics and Radio Astronomy.  19 (3), 206—216 (2014) [in Russian].
2. Zagorodnij A. G., Cheremnyh O. K. Introduction to Plasma Physics. 697 p. (Nauk. dumka, Kiev, 2014) [in Russian].
3. Fedorenko A. K. Krjuchkov E. I. Distribution of medium-AGW in the polar regions according to satellite measurements.  Geomagnetism and Aeronomy. 51 (4), 527—539 (2011) [in Russian].
4. Fedorenko A. K., Krjuchkov E. I. The observed features of acoustic-gravity waves in heterosphere.  Geomagnetism and Aeronomy. 54 (1), 116—123 (2014) [in Russian].
5. Cheremnykh O. K.  Resonant mode in the Earth`s thermosphere. Space science and technology, 17 (6), 74—76 (2011) [in Russian].
https://doi.org/10.15407/knit2011.06.074
6. Cheremnykh O. K., Klimushkin D. Yu., Kostarev D. V.  On the structure of azimuthally small-scale ulf oscillations of hot space plasma in curved magnetic field. Modes with continuous spectrum. Kinematics Phys. Celestial Bodies, 30 (5), 3 —21 (2014) [in Russian].
7. Cheremnykh O.K., Yampolski Yu. M., Agapitov O.V. et al. Studies of MHD oscillations of the Earth’s inner magnetosphere in the RESONANCE mission.  Space science and technology, 19 (2), 5—42 (2013) [in Russian].
https://doi.org/10.15407/knit2013.02.005
8. Agapitov O. V., Cheremnykh O. K. Natural oscillations of the Earth magnetosphere associated with solar wind sudden impulses. Ukr. Phys. J.  53, 506—510 (2008).
9. Burdo O. S., Cheremnykh O. K., Verkhoglyadova O. P. Study of ballooning modes in the inner magnetosphere of the Earth.  Izv. Akad. Nauk. Fiz6 (9), 1986—1900 (2000).
10. Cheng C. Z., Chang T. C., Lin C. A., Tsoi W. N. Magnetohydrodynamic theory offield line resonanses in the magnetosphere.  J. Geophys. Res98A, N 7, 11339—11347  (1993).
11. Cheremnykh O. K. Transversally small-scale perturbations in arbitrary plasma configurations with magnetic surfaces.  Plasma Phys. and Contr. Fusion. 52 (9), 095006  (2010).
12. Cheremnykh O. K., Parnovski A. S. Flute and ballooning modes in the inner magnetosphere of the Earth: stablilty and influence of the ionospheric conductivity.  Space Science: New Research, Ed. N. S. Maravell.  P. 97—139 (Nova Sci. Publ., New York, 2006).
13. Johnson F. S., Hanson W. B., Hodges R. R., et al. Gravity waves near 300 km over the polar caps  J. Geophys. Res. 100,  23993—24002 (1995).