Title

Electron Magnetohydrodynamic Turbulence: Universal Features

Keywords

Plasma Physics

Abstract

The energy cascade of electron magnetohydrodynamic (EMHD) turbulence is considered. Fractal and multi-fractal models for the energy dissipation field are used to determine the spatial intermittency corrections to the scaling behavior in the high-wavenumber (electron hydrodynamic limit) and low-wavenumber (magnetization limit) asymptotic regimes of the inertial range. Extrapolation of the multi-fractal scaling down to the dissipative microscales confirms in these asymptotic regimes a dissipative anomaly previously indicated by the numerical simulations of EMHD turbulence. Several basic features of the EMHD turbulent system are found to be universal which seem to transcend the existence of the characteristic length scale d e (which is the electron skin depth) in the EMHD problem: equipartition spectrum; Reynolds-number scaling of the dissipative microscales; scaling of the probability distribution function (PDF) of the electron-flow velocity (or magnetic field) gradient (even with intermittency corrections); dissipative anomaly; and critical exponent scaling.

Publication Date

2-1-2015

Publication Title

European Physical Journal D

Volume

69

Issue

2

Document Type

Article

Personal Identifier

scopus

DOI Link

https://doi.org/10.1140/epjd/e2015-50725-4

Socpus ID

84957583725 (Scopus)

Source API URL

https://api.elsevier.com/content/abstract/scopus_id/84957583725

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