The Landau damping of an electrostatic wave is analyzed in relativistic plasmas by solving the Vlasov-Poisson system numerically The Juttner-Synge distribution function is perturbed in order to obtain the numerical dispersion relation for short wavelenghts and for nu(ph) less than or similar to c, upsilon(ph) being the phase velocity of the wave. This is compared with the analytical results available in the literature. The ordering of the time-scales characterizing the system and the corresponding formation of vortices in phase space, as a function of the initial temperature, are investigated
International audienceA numerical code, which solves the Vlasov-Poisson system of equations for an e...
We investigate the dynamical approach towards equilibrium during the wave-particle interaction proce...
The nonlinear aspects of the interaction between externally applied electrostatic oscillations and a...
The Landau damping of an electrostatic wave is analyzed in relativistic plasmas by solving the Vlaso...
The non-thermal high-energy electron effects on Langmuir wave-particle interaction are investigated ...
The dispersion relation of one-dimensional longitudinal plasma waves in relativistic homogeneous pla...
Possible interactions between plasma waves and charged particles are considered, where the particles...
The linear oscillations in a hot plasma which is representable by the relativistic Vlasov equation w...
International audienceIn this paper, a bracket structure is proposed for the laser-plasma interactio...
The relativistic Vlasov equation is integrated numerically in an Eulerian framework in order to inve...
We present a Vlasov, i.e. a kinetic Eulerian simulation study of nonlinear collisionless ion-acousti...
The theory of current drive by plasma waves in tokamak plasmas relies on the quasilinear velocity di...
The theory of current drive by plasma waves in tokamak plasmas relies on the quasilinear velocity di...
International audienceA numerical code, which solves the Vlasov-Poisson system of equations for an e...
International audienceA numerical code, which solves the Vlasov-Poisson system of equations for an e...
International audienceA numerical code, which solves the Vlasov-Poisson system of equations for an e...
We investigate the dynamical approach towards equilibrium during the wave-particle interaction proce...
The nonlinear aspects of the interaction between externally applied electrostatic oscillations and a...
The Landau damping of an electrostatic wave is analyzed in relativistic plasmas by solving the Vlaso...
The non-thermal high-energy electron effects on Langmuir wave-particle interaction are investigated ...
The dispersion relation of one-dimensional longitudinal plasma waves in relativistic homogeneous pla...
Possible interactions between plasma waves and charged particles are considered, where the particles...
The linear oscillations in a hot plasma which is representable by the relativistic Vlasov equation w...
International audienceIn this paper, a bracket structure is proposed for the laser-plasma interactio...
The relativistic Vlasov equation is integrated numerically in an Eulerian framework in order to inve...
We present a Vlasov, i.e. a kinetic Eulerian simulation study of nonlinear collisionless ion-acousti...
The theory of current drive by plasma waves in tokamak plasmas relies on the quasilinear velocity di...
The theory of current drive by plasma waves in tokamak plasmas relies on the quasilinear velocity di...
International audienceA numerical code, which solves the Vlasov-Poisson system of equations for an e...
International audienceA numerical code, which solves the Vlasov-Poisson system of equations for an e...
International audienceA numerical code, which solves the Vlasov-Poisson system of equations for an e...
We investigate the dynamical approach towards equilibrium during the wave-particle interaction proce...
The nonlinear aspects of the interaction between externally applied electrostatic oscillations and a...