Effects of storm events on the upper atmos-phere in the Baltic sea
... showed an increase in wave activity with periods of ~ 15 min and the formation of a large-scale disturbance at the heights of the thermosphere.
Borchevkina O. P., Kurdyaeva Y. A., Karpov M. I., Chubarenko B. V., Domnin D. A., Korenkova N. A., Karpov I. V.
meteorological storm, ionosphere, total electron content, global positioning system, mathematical modeling, remote sensing
20-28
The dynamics of ground-level aerosol lidar observation in Kaliningrad
... С. 50—54.
3. Hoffmann P., Jacobi C., Borries C. A possible planetary wave coupling between the stratosphere and ionosphere by gravity wave modulation // J. Atmos. SolarTerr. Phys., 2011. Vol. 73. doi:10.1016/j. jastp.2011.07.008.
Suslova O. P., Karpov I. V., Radievsky A. V.
solar terminator, atmosphere, period of the Väisälä — Brunt
39-43
On forward scattering problem for a ground penetrating radar
... radar imaging of buried pefect electric conductors within the physical optics approximation,
Int. J. Electron. Commun. 2004.
58.
P. 362—366.
8
.
Jackson J. D.
, Classical Electrodynamics, 3rd ed. Wiley
, 1999.
Yalunin S. V., Bessarab F. S., Karpov I. V., Radievsky A. V.
ground penetrating radar, scattering problem.
31-34
10.5922/2223-2095-2009-4-6
The ionosphere effects from Poincare waves in the atmosphere
...
В., Лебле С.
Б.
Аналитическая теория ионосферного эффекта ВГВ в
F
2-области ионосферы // Геомагнетизм и аэрономия. 1986. Т. 26, № 2. С. 234—237.
Karpov I. V., Shagimuratov I. I.
Poincare waves, ionosphere, planetary waves.
35-39
10.5922/2223-2095-2009-4-7