Add to ORKGAbstract: An algorithm for the numerical solution of the plasma kinetic equation in 1D2V geometry is suggested. The nonlinear collision operator is computed on the base of the completely conservative difference scheme. Self consistent electrical field is computed from the condition of quasi neutrality at each time step. The numerical results for the relaxation of the initial temperature perturbation in a collisional plasma in 1D2V geometry are presented.Note: Research direction:Mathematical modelling in actual problems of science and technic
The kinetic theory of the electrons in a strongly ionized, collision dominated plasma is reconsidere...
International audienceAt very high temperature electrons leave the atom to which they are attached a...
Nonlocal electron heat transport calculations are carried out by making use of some of the technique...
Abstract: Numerical algorithm for a solution of the plasma kinetic equation in 1D3V geomet...
Abstract: Algorithm for the numerical solution of the Vlasov-Landau kinetic equation in 1D...
A self-consistent scheme has been developed to model electron transport in evolving plasmas of arbit...
A numerical algorithm is described for computing coupled heat and hydrodynamic flow on an arbitraril...
International audience-We have performed a new efficient method to calculate numerically the transpo...
Abstract: The numerical solution of Landau – Fokker – Plank equation for the elect...
In the present contribution, we derive from kinetic theory a unified fluid model for multicomponent ...
The energy relaxation of two types of fully ionized plasma systems are determined with the solution ...
An approach to solve numerically transport equations for plasmas with spontaneously arising and arbi...
A numerical study is done of a plasma in contact with a cold solid surface that is emitting a neutra...
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 ...
The kinetic theory of the electrons in a strongly ionized, collision dominated plasma is reconsidere...
International audienceAt very high temperature electrons leave the atom to which they are attached a...
Nonlocal electron heat transport calculations are carried out by making use of some of the technique...
Abstract: Numerical algorithm for a solution of the plasma kinetic equation in 1D3V geomet...
Abstract: Algorithm for the numerical solution of the Vlasov-Landau kinetic equation in 1D...
A self-consistent scheme has been developed to model electron transport in evolving plasmas of arbit...
A numerical algorithm is described for computing coupled heat and hydrodynamic flow on an arbitraril...
International audience-We have performed a new efficient method to calculate numerically the transpo...
Abstract: The numerical solution of Landau – Fokker – Plank equation for the elect...
In the present contribution, we derive from kinetic theory a unified fluid model for multicomponent ...
The energy relaxation of two types of fully ionized plasma systems are determined with the solution ...
An approach to solve numerically transport equations for plasmas with spontaneously arising and arbi...
A numerical study is done of a plasma in contact with a cold solid surface that is emitting a neutra...
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 ...
The kinetic theory of the electrons in a strongly ionized, collision dominated plasma is reconsidere...
International audienceAt very high temperature electrons leave the atom to which they are attached a...
Nonlocal electron heat transport calculations are carried out by making use of some of the technique...