Add to ORKGThe first large-scale simulations of continuously driven, two-dimensional electromagnetic strong plasma turbulence are performed, for electron thermal speeds 0.01c⩽v⩽0.57c, by integrating the Zakharov equations for coupled Langmuir and transverse (T) waves near the plasma frequency. Turbulence scalings and wave number spectra are calculated, a transition is found from a mix of trapped and free T eigenstates for v⩾0.1c to just free eigenstates for v⩽0.1c, and wave energy densities are observed to undergo slow quasiperiodic oscillations
Langmuir turbulence is an archetype of wave turbulence in plasma physics. By means of 1D-1V Vlasov-P...
A frontier problem in plasma physics and among the hot topics in space plasma research, is the under...
The understanding of the fundamental properties of turbulence in collisionless plasmas, such as the ...
A numerical simulation is presented concerning an L/O mode electromagnetic wave propagating normally...
A recent paper [Ziebell et al., Phys. Plasmas 21, 010701 (2014)] discusses a new type of radiation e...
We report on the nonlinear turbulent processes associated with electromagnetic waves in plasmas. We ...
An equation is derived for the average nonlinear growth (damping) rate of an electrostatic mode with...
The evolution of turbulence of a magnetized pure electron plasma confined in a Penning-Malmberg trap...
Magnetic plasma turbulence is observed over a broad range of scales in the solar wind. We discuss th...
Aims: This work aims to investigate the spectral structure of the parallel electric field generated ...
The role of large-scale fluctuation structures in electrostatic drift-wave-type plasma turbulence is...
International audienceA systematic study of the properties of Langmuir turbulence generated by elect...
The nonlinear dynamics of magnetic electron drift mode turbulence are outlined and the generation of...
This brief review is devoted to full-scale numerical modeling of the nonlinear interactions between ...
We study collective processes for an electron beam propagating through a background plasma using sim...
Langmuir turbulence is an archetype of wave turbulence in plasma physics. By means of 1D-1V Vlasov-P...
A frontier problem in plasma physics and among the hot topics in space plasma research, is the under...
The understanding of the fundamental properties of turbulence in collisionless plasmas, such as the ...
A numerical simulation is presented concerning an L/O mode electromagnetic wave propagating normally...
A recent paper [Ziebell et al., Phys. Plasmas 21, 010701 (2014)] discusses a new type of radiation e...
We report on the nonlinear turbulent processes associated with electromagnetic waves in plasmas. We ...
An equation is derived for the average nonlinear growth (damping) rate of an electrostatic mode with...
The evolution of turbulence of a magnetized pure electron plasma confined in a Penning-Malmberg trap...
Magnetic plasma turbulence is observed over a broad range of scales in the solar wind. We discuss th...
Aims: This work aims to investigate the spectral structure of the parallel electric field generated ...
The role of large-scale fluctuation structures in electrostatic drift-wave-type plasma turbulence is...
International audienceA systematic study of the properties of Langmuir turbulence generated by elect...
The nonlinear dynamics of magnetic electron drift mode turbulence are outlined and the generation of...
This brief review is devoted to full-scale numerical modeling of the nonlinear interactions between ...
We study collective processes for an electron beam propagating through a background plasma using sim...
Langmuir turbulence is an archetype of wave turbulence in plasma physics. By means of 1D-1V Vlasov-P...
A frontier problem in plasma physics and among the hot topics in space plasma research, is the under...
The understanding of the fundamental properties of turbulence in collisionless plasmas, such as the ...