A detailed numerical simulation to understand the turbulent state of the decaying two-dimensional electron magnetohydrodynamics is presented. It is observed that the evolved spectrum is comprised of a collection of random eddies and a gas of whistler waves, the latter constituting the normal oscillatory modes of such a model. The whistlerization of the turbulent spectra has been quantified by novel diagnostics. In this work, results are presented only in the regime where the spatial excitation scales are longer than the electron skin depth. Simulations suggest that spectra at short scales are comparatively more whistlerized. The long scale field merely acts as the ambient field along which whistler waves propagate. It is also observed that,...
The electron magnetohydrodynamic (EMHD) model represents an incompressible electron fluid flow again...
The coupling between the short scale whistler turbulence and the long scale magnetosonic excitations...
Whistler waves are commonly observed in magnetopause reconnection. Possible wave excitation mechanis...
It is demonstrated using numerical simulation that spectral anisotropy in two-dimensional decaying e...
A detailed numerical simulation studying certain aspects of turbulence in the electron magnetohydrod...
The influence of inertia on the spontaneous amplification of large-scale perturbations by electron m...
The Earth's magnetosheath (MSH) is governed by numerous physical processes which shape the particle ...
International audienceA wave turbulence theory is developed for inertial electron magnetohydrodynami...
The spectral properties of decaying turbulence in 2-dimensional electron magnetohydrodynamics are st...
International audienceA new type of electron-scale coherent structure, referred to as electron vorte...
Theoretical studies of mean field electrodynamics for diffusive processes in the electron magnetohyd...
Electron magnetohydrodynamic (EMHD) turbulence in two dimensions is studied via highresolution numer...
We investigate the transition of the turbulence from large to kinetic scales using Cluster observati...
The problem of the generation of mean magnetic fields by small-scale turbulence within the framework...
A novel type of turbulence, which arises in 2D electron magnetohydrodynamics, is studies by numerica...
The electron magnetohydrodynamic (EMHD) model represents an incompressible electron fluid flow again...
The coupling between the short scale whistler turbulence and the long scale magnetosonic excitations...
Whistler waves are commonly observed in magnetopause reconnection. Possible wave excitation mechanis...
It is demonstrated using numerical simulation that spectral anisotropy in two-dimensional decaying e...
A detailed numerical simulation studying certain aspects of turbulence in the electron magnetohydrod...
The influence of inertia on the spontaneous amplification of large-scale perturbations by electron m...
The Earth's magnetosheath (MSH) is governed by numerous physical processes which shape the particle ...
International audienceA wave turbulence theory is developed for inertial electron magnetohydrodynami...
The spectral properties of decaying turbulence in 2-dimensional electron magnetohydrodynamics are st...
International audienceA new type of electron-scale coherent structure, referred to as electron vorte...
Theoretical studies of mean field electrodynamics for diffusive processes in the electron magnetohyd...
Electron magnetohydrodynamic (EMHD) turbulence in two dimensions is studied via highresolution numer...
We investigate the transition of the turbulence from large to kinetic scales using Cluster observati...
The problem of the generation of mean magnetic fields by small-scale turbulence within the framework...
A novel type of turbulence, which arises in 2D electron magnetohydrodynamics, is studies by numerica...
The electron magnetohydrodynamic (EMHD) model represents an incompressible electron fluid flow again...
The coupling between the short scale whistler turbulence and the long scale magnetosonic excitations...
Whistler waves are commonly observed in magnetopause reconnection. Possible wave excitation mechanis...