Theoretically and numerically investigate the dynamics of atomic and molecular systems by laser pulses of femtosecond duration and ultrahigh intensity, particularly in the case where the field strength of the electromagnetic wave exceeds the value of the field in the atom, and the pulse duration is of the order period, the atomic (molecular) vibrations.

The first in Europe, the current laboratory prototype of a scanning magnetic microscope (SMM) based on high-temperature dc SQUID.


The analysis of several promising types of multiple-synchronous Josephson structures on which the possible synthesis of narrow-band phased array of electromagnetic radiation in the millimeter and submillimeter wavelengths.
First experimentally realized molecular single-electron transistor, and at room temperature. It is shown that the characteristics of the transistor at the level of single-electron devices of the best traditional and the temperature is three orders higher. First demonstrated the possibility of modifying conventional metal pellets in the isolated single-electron tunneling structures directly on the substrate, which opens up wide possibilities for the construction of single-electron devices.

Experimental and theoretical studies of the kinetics of plasma chemical processes in the plasma of electrical discharges (dc discharge with a "runaway electrons", RF and microwave discharges), responsible for ionization, dissociation and excitation of the electronic and vibrational levels of molecules and atoms of oxygen, nitrogen, inert gases and carbon molecules
Experimental and theoretical studies of the kinetics and electro discharge containing particles with sizes ranging from nano-to micrometers.


Experimental and theoretical studies of new light-emitting discharges (a system of micro-discharges, glow discharges with runaway electrons) in an inert gas with the addition of H2, N2 and vapor Cu.


Experimental and theoretical studies of non-locality and anisotropy of the energy spectrum of electrons in electronegative gases.


Investigations of plasma - stimulated the synthesis of new materials and thin films based on them. Studies on the effect of plasma parameters on the properties of these films.
Development of methods for calculating the electron distribution function (EDF), the energy and spatial coordinates in electromagnetic fields on the basis of the Boltzmann equation and Monte Carlo methods, systems of equations for the concentrations of charged and neutral particles in the plasma with the inclusion of the spatial processes of transfer of vibrational equations (including State to state kinetics) kinetics for molecular gases, gas-dynamic equations of reacting gases, taking into account the radiative transfer.