The results of studying the structure of the ionospheric plasma distribution from data obtained at the transcontinental Russian radio tomographic chain, which is the world’s longest, are presented. The 4000 km long tomographic chain extends from the Svalbard Archipelago to Sochi. The unique feature of this upgraded radio tomographic system is that for the first time observations cover a wide sector of the ionosphere from high latitudes (polar cap and auroral region) to low latitudes. This allows us to study the transfer of perturbations in the system auroral-subauroral-midlatitude-low latitude ionosphere, and to analyze ionospheric electron density distributions in different latitudinal regions as a function of different external factors and solar-geophysical conditions. The first recent results speak for a complex structure of the ionospheric plasma, even in quiet geophysical conditions (${K_p<2}$)
94.20.Qq Particle precipitation
94.20.Tt Ionospheric soundings; active experiments
$^1$Faculty of Physics, Chair of Physics of Atmosphere, Moscow State University, Moscow, 119991, Russia
$^2$Polar Geophysical Institute of the Kola Science Centre of the Russian Academy of Sciences, Khalturina ul., 15, Murmansk, 183010, Russia
$^3$State Southern Research Ground of the Russian Academy of Sciences, Teatral’naya ul., 8, Sochi, 354000, Russia
$^4$Research Institute of Physics, South Federal University, Stachki pr., 194, Rostov on Don, 344090, Russia
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