Add to ORKGA warm, relativistic fluid theory of a nonequilibrium, collisionless plasma is developed to analyze nonlinear plasma waves excited by intense drive beams. The maximum amplitude and wavelength are calculated for nonrelativistic plasma temperatures and arbitrary plasma wave phase velocities. The maximum amplitude is shown to increase in the presence of a laser field. These results set a limit to the achievable gradient in plasma-based accelerators
Abstract. The two-dimensional wave-breaking of relativistic plasma waves driven by a ultrashort high...
We describe the speed and structure of steady non-linear waves moving with uniform velocity in an ob...
An exact solution is obtained for the relativistic collisionless kinetic equations describing a test...
A warm, relativistic fluid theory of a nonequilibrium, collisionless plasma is developed to analyze...
A relativistic, warm fluid model of a nonequilibrium, collisionless plasma is developed and applied ...
A warm, relativistic fluid theory of a nonequilibrium, collisionless plasma is developed to analyze ...
The propagation of electrostatic plasma waves having relativistic phase speed and amplitude has been...
Laser evolution and plasma wave excitation by a relativistically-intense short-pulse laser in underd...
We discuss the nonlinear propagation of relativistically intense electromagnetic waves into collisio...
We discuss the nonlinear regime of the Plasma Wakefield Ac-celerator and its potential advantages ov...
Analytical and numerical studies of plasma physics in ultra-intense plasma wave generation, electron...
A study is made of nonlinear waves in plasmas using the formalism of a special Lorentz transformatio...
We present a method for constructing multiphase excitations in the generally non-integrable system o...
The covariant Vlasov–Maxwell system is used to study the breaking of relativistic warm plasma waves....
The two-dimensional wave-breaking of relativistic plasma waves driven by a ultrashort high-power las...
Abstract. The two-dimensional wave-breaking of relativistic plasma waves driven by a ultrashort high...
We describe the speed and structure of steady non-linear waves moving with uniform velocity in an ob...
An exact solution is obtained for the relativistic collisionless kinetic equations describing a test...
A warm, relativistic fluid theory of a nonequilibrium, collisionless plasma is developed to analyze...
A relativistic, warm fluid model of a nonequilibrium, collisionless plasma is developed and applied ...
A warm, relativistic fluid theory of a nonequilibrium, collisionless plasma is developed to analyze ...
The propagation of electrostatic plasma waves having relativistic phase speed and amplitude has been...
Laser evolution and plasma wave excitation by a relativistically-intense short-pulse laser in underd...
We discuss the nonlinear propagation of relativistically intense electromagnetic waves into collisio...
We discuss the nonlinear regime of the Plasma Wakefield Ac-celerator and its potential advantages ov...
Analytical and numerical studies of plasma physics in ultra-intense plasma wave generation, electron...
A study is made of nonlinear waves in plasmas using the formalism of a special Lorentz transformatio...
We present a method for constructing multiphase excitations in the generally non-integrable system o...
The covariant Vlasov–Maxwell system is used to study the breaking of relativistic warm plasma waves....
The two-dimensional wave-breaking of relativistic plasma waves driven by a ultrashort high-power las...
Abstract. The two-dimensional wave-breaking of relativistic plasma waves driven by a ultrashort high...
We describe the speed and structure of steady non-linear waves moving with uniform velocity in an ob...
An exact solution is obtained for the relativistic collisionless kinetic equations describing a test...