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Geomagnetism and Aeronomy - This paper analyzes the effect of azimuthal proton drift from the nighttime sector of the Earth’s magnetosphere on the characteristics of the pitch-angle... 相似文献
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Geomagnetism and Aeronomy - The effects of different large-scale solar wind structures on magnetospheric substorms at high geomagnetic latitudes are studied. Two types of high-latitude substorm... 相似文献
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Yahnin A. G. Titova E. E. Demekhov A. G. Yahnina T. A. Popova T. A. Lyubchich A. Manninen J. Raita T. 《Geomagnetism and Aeronomy》2019,59(6):668-680
Geomagnetism and Aeronomy - Simultaneous observations of ELF/VLF and EMIC waves from Van Allen Probe satellites in the daytime Earth’s magnetosphere and on the ground during multiple... 相似文献
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Polar and high latitude substorms and solar wind conditions 总被引:1,自引:0,他引:1
All substorm disturbances observed in polar latitudes can be divided into two types: polar, which are observable at geomagnetic latitudes higher than 70° in the absence of substorms below 70°, and high latitude substorms, which travel from auroral (<70°) to polar (>70°) geomagnetic latitudes. The aim of this study is to compare conditions in the IMF and solar wind, under which these two types of substorms are observable on the basis of data from meridional chain of magnetometers IMAGE and OMNI database for 1995, 2000, and 2006–2011. In total, 105 polar and 55 high latitude substorms were studied. It is shown that polar substorms are observable at a low velocity of solar wind after propagation of a high-speed recurrent stream during the late recovery phase of a magnetic storm. High latitude substorms, in contrast, are observable with a high velocity of solar wind, increased values of the Bz component of the IMF, the Ey component of the electric field, and solar wind temperature and pressure, when a high-speed recurrent stream passes by the Earth. 相似文献
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Despirak I. V. Kleimenova N. G. Lyubchich A. A. Setsko P. V. Gromova L. I. Werner R. 《Geomagnetism and Aeronomy》2022,62(3):199-208
Geomagnetism and Aeronomy - The paper gives an analysis of the isolated supersubstorm observed during the main phase of the moderate magnetic storm on May 28, 2011 (SYM/H ~ –95 nT), which was... 相似文献
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E. E. Titova T. A. Yahnina A. G. Yahnin B. B. Gvozdevsky A. A. Lyubchich V. Yu. Trakhtengets A. G. Demekhov J. L. Horwitz F. Lefeuvre D. Lagoutte J. Manninen T. Turunen 《Annales Geophysicae》1997,16(1):25-33
Specific type of energetic electron precipitation accompanied by a sharp increase in trapped energetic electron flux are found in the data obtained from low-altitude NOAA satellites. These strongly localized variations of the trapped and precipitated energetic electron flux have been observed in the evening sector near the plasmapause during recovery phase of magnetic storms. Statistical characteristics of these structures as well as the results of comparison with proton precipitation are described. We demonstrate the spatial coincidence of localized electron precipitation with cold plasma gradient and whistler wave intensification measured on board the DE-1 and Aureol-3 satellites. A simultaneous localized sharp increase in both trapped and precipitating electron flux could be a result of significant pitch-angle isotropization of drifting electrons due to their interaction via cyclotron instability with the region of sharp increase in background plasma density. 相似文献
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Geomagnetism and Aeronomy - This article examines the effect of various large-scale solar-wind structures and streams on the occurrence of a special type of substorms—the so-called... 相似文献
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A. A. Lyubchich A. G. Demekhov E. E. Titova A. G. Yahnin 《Geomagnetism and Aeronomy》2017,57(1):40-50
Using two-hour (from 2300 UT January 25, 2013 to 0100 UT January 26, 2013) measurement data from Van Allen Probes on fluxes of energetic particles, cold plasma density, and magnetic field magnitude, we have calculated the local growth rate of electromagnetic ion–cyclotron and whistler-mode waves for field-aligned propagation. The results of these calculations have been compared with wave spectra observed by the same Van Allen Probe spacecraft. The time intervals when the calculated wave increments are sufficiently large, and the frequency ranges corresponding to the enhancement peak agree with the frequency–time characteristics of observed electromagnetic waves. We have analyzed the influence of variations in the density and ionic composition of cold plasma, fluxes of energetic particles, and their pitch-angle distribution on the wave generation. The ducted propagation of waves plays an important role in their generation during the given event. The chorus VLF emissions observed in this event cannot be explained by kinetic cyclotron instability, and their generation requires much sharper changes (“steps”) for velocity distributions than those measured by energetic particle detectors on Van Allen Probes satellites. 相似文献
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D. L. Pasmanik V. Y. Trakhtengerts A. G. Demekhov A. A. Lyubchich E. E. Titova T. Yahnina M. J. Rycroft J. Manninen T. Turunen 《Annales Geophysicae》1998,16(3):322-330
The formation of a zone of energetic electron precipitation by the plasmapause, a region of enhanced plasma density, following energetic particle injection during a magnetic storm, is analyzed. Such a region can also be formed by detached cold plasma clouds appearing in the outer magnetosphere by restructuring of the plasmasphere during a magnetic storm. As a mechanism of precipitation, wave-particle interactions by the cyclotron instability between whistler-mode waves and electrons are considered. In the framework of the self-consistent equations of quasi-linear plasma theory, the distribution function of trapped electrons and the electron precipitation pattern are found. The theoretical results are compared with experimental data obtained from NOAA satellites. 相似文献
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A. G. Demekhov A. A. Lyubchich V. Y. Trakhtengerts E. E. Titova J. Manninen T. Turunen 《Annales Geophysicae》1998,16(11):1455-1460
We study a simple self-consistent model of a whistler cyclotron maser derived from the full set of quasi-linear equations. We employ numerical calculations to demonstrate dependencies of pulsation regimes of whistler-mode wave interactions with energetic electrons on plasma parameters. Possible temporal evolution of those regimes in real conditions is discussed; calculations are compared with case-study experimental data on energetic electron precipitation pulsations. A reasonable agreement of the model results and the observations has been found. 相似文献
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