Add to ORKGAbstract: Numerical algorithm for a solution of the plasma kinetic equation in 1D3V geometry is developed. For the nonlinear collision operator the direct simulation Monte Carlo (DSMC) method is used. Ambipolar electric field corresponds to the electroneutrality condition at each timestep. The numerical results for the relaxation of the initial temperature perturbation in collisional plasma in 1D3V geometry are presented and compared with the nonlocal heat transport model.Note: Research direction:Mathematical modelling in actual problems of science and technic
International audience-We have performed a new efficient method to calculate numerically the transpo...
The results of mathematical modeling of stationary physical processes in the electron-hole plasma of...
A numerical study is done of a plasma in contact with a cold solid surface that is emitting a neutra...
Abstract: An algorithm for the numerical solution of the plasma kinetic equation in 1D2V g...
The energy relaxation of two types of fully ionized plasma systems are determined with the solution ...
The understanding of the temporal behaviour of a plasma at several time varying conditions is of gre...
The relaxation of nonideal two-temperature plasmas is investigated with a kinetic approach. First th...
The relaxation process of a space uniform plasma composed of electrons and one species of ions is co...
An attempt is made to simulate non-equilibrium strongly coupled plasmas. Monte-Carlo method is used ...
The interaction between a plasma and a solid surface is studied in a (1D-1V) kinetic framework using...
International audienceThermal plasma flows provide a uniquely high specific enthalpy source that is ...
Abstract: Algorithm for the numerical solution of the Vlasov-Landau kinetic equation in 1D...
International audienceWe present a simple stochastic, one-dimensional model for heat transfer in wea...
International audienceAt very high temperature electrons leave the atom to which they are attached a...
The results of mathematical modeling of stationary physical processes in the electron-hole plasma of...
International audience-We have performed a new efficient method to calculate numerically the transpo...
The results of mathematical modeling of stationary physical processes in the electron-hole plasma of...
A numerical study is done of a plasma in contact with a cold solid surface that is emitting a neutra...
Abstract: An algorithm for the numerical solution of the plasma kinetic equation in 1D2V g...
The energy relaxation of two types of fully ionized plasma systems are determined with the solution ...
The understanding of the temporal behaviour of a plasma at several time varying conditions is of gre...
The relaxation of nonideal two-temperature plasmas is investigated with a kinetic approach. First th...
The relaxation process of a space uniform plasma composed of electrons and one species of ions is co...
An attempt is made to simulate non-equilibrium strongly coupled plasmas. Monte-Carlo method is used ...
The interaction between a plasma and a solid surface is studied in a (1D-1V) kinetic framework using...
International audienceThermal plasma flows provide a uniquely high specific enthalpy source that is ...
Abstract: Algorithm for the numerical solution of the Vlasov-Landau kinetic equation in 1D...
International audienceWe present a simple stochastic, one-dimensional model for heat transfer in wea...
International audienceAt very high temperature electrons leave the atom to which they are attached a...
The results of mathematical modeling of stationary physical processes in the electron-hole plasma of...
International audience-We have performed a new efficient method to calculate numerically the transpo...
The results of mathematical modeling of stationary physical processes in the electron-hole plasma of...
A numerical study is done of a plasma in contact with a cold solid surface that is emitting a neutra...