Laboratory 2.2. of Mathematical Models of Near Space

Grants

• 2001–2003. Mathematical Model of the Magnetospheric Magnetic Field. Russian Foundation for Basic Research, Moscow.
• 2000–2003. Time-dependent solar wind — dayside magnetosphere interaction under constant solar wind dynamic pressure conditions. ESA — INTAS.
• 2001–2002. Erosion of the magnetopause and magnetic reconnection. Russian Foundation for Basic Research, Moscow.
• 2001. Mathematical Model of the Geomagnetic Field Variations Due to Magnetospheric Currents. Krasnoyarsk Territory Science Foundation.
• 1998–2000. Mathematical Simulations of the Magnetospheric Generators of the Ionospheric Electric Field. Russian Foundation for Basic Research, Moscow.
• 1995–1997. Mathematical Simulations of the Electric Field Penetration from the Solar Wind to the Earth's Ionosphere. Russian Foundation for Basic Research, Moscow.
• 1996. Mathematical simulation of the structure of electric fields and field-aligned currents at the ionospheric dayside cusp. Krasnoyarsk Territory Science Foundation.
• 1994–1995. A Model of the Electric Fields Generation at the Magnetospheric Boundary, Their Transfer through the Magnetosphere with Electric Energy Dissipation in the Ionosphere of the Earth. International Science Foundation, New York — Moscow.
• 1994. The model of flow around the Earth's magnetosphere and the model of closed magnetic field. Krasnoyarsk Territory Science Foundation.
• 1993–1994. Thermodynamical and variational principles for transfer processes in gyrotropic media. Krasnoyarsk Territory Science Foundation.
• 1992–1993. Multigrid Method for Convection — Diffusion Problems. Polar Geophysical Institute RAS, Murmansk, Russia.
• 1985–1987. Magnetic Fields of Superconducting Solenoids. Design company «Horizon», Moscow.