*
1. Advanced techniques of computer modelling Implementation of advanced techniques of particle and fluid modelling. *
2. Modelling of physical processes in low-temperature plasma Self-consistent one- and more-dimensional models of plasma-solid interaction for systems with different geometries. Implementation of algorithms with increased efficiency. Visualisation of static data in plasma physics. Advanced algorithms of non self-consistent modelling. *
3. Modelling of physical processes in high-temperature plasma Particle algorithms in the presence of magnetic fields. Programming system XOOPIC. Probe diagnostics in edge plasma of tokamak. Algorithms for visualisation of static and dynamic data in plasma physics. *
4. Modelling in plasma chemistry Algorithms for solution of stiff sets of equations in plasma chemistry. Implementation of selected algorithms of computer modelling and visualisation in plasma physics. Reduction in plasma chemistry.
Advanced techniques of computer modelling - particle modelling deterministic, stochastic and hybrid, fluid modelling. Modelling of physical processes in low-temperature plasma, high-temperature plasma and in plasma chemistry - study of volume processes in plasma and physical processes during plasma-solid interaction.
Selected algorithms and programming techniques in plasma physics and in visualisation.