Add to ORKGIn this paper, we consider multi-fractal aspects of spatial intermittency in fully developed magnetohydrodynamic (MHD) turbulence. Multi-fractal scaling behavior in the inertial range is first deduced and then extrapolated down to the Kolmogorov-type microscale. These considerations provide some insights into the mechanism of fully developed MHD turbulence. © 1997 Academic Press
In this paper, multifractal aspects of the scalings laws in fully developed compressible turbulence ...
In this paper, multifractal aspects of the scalings laws in fully developed compressible turbulence ...
International audienceThis paper gives a review of some recent work on intermittency, non-Gaussian s...
In this paper, we consider multi-fractal aspects of spatial intermittency in fully developed magneto...
In this paper we give a formulation of two-dimensional (2D) collisionless magnetohydrodynamic (MHD) ...
In this paper we give a formulation of two-dimensional (2D) collisionless magnetohydrodynamic (MHD) ...
In this paper, some aspects of multifractal scaling at the Kolmogorov microscale in fully developed ...
Multi-fractal aspects of spatial intermittency in fully developed compressible turbulence random-β m...
Multi-fractal aspects of spatial intermittency in fully developed compressible turbulence random-bet...
In this paper, some aspects of multifractal scaling at the Kolnogorov microscale in fully developed ...
Magnetohydrodynamic turbulence is thought to be responsible for producing complex, multiscale magnet...
The energy cascade of electron magnetohydrodynamic (EMHD) turbulence is considered. Fractal and mult...
Both multifractal and monofractal scaling of structure function exponents are observed in the turbul...
This paper provides a short introduction to the consequences of intermittency on the statistical pro...
In this note, we discuss the multifractal description of anomalous scaling laws in physical phenomen...
In this paper, multifractal aspects of the scalings laws in fully developed compressible turbulence ...
In this paper, multifractal aspects of the scalings laws in fully developed compressible turbulence ...
International audienceThis paper gives a review of some recent work on intermittency, non-Gaussian s...
In this paper, we consider multi-fractal aspects of spatial intermittency in fully developed magneto...
In this paper we give a formulation of two-dimensional (2D) collisionless magnetohydrodynamic (MHD) ...
In this paper we give a formulation of two-dimensional (2D) collisionless magnetohydrodynamic (MHD) ...
In this paper, some aspects of multifractal scaling at the Kolmogorov microscale in fully developed ...
Multi-fractal aspects of spatial intermittency in fully developed compressible turbulence random-β m...
Multi-fractal aspects of spatial intermittency in fully developed compressible turbulence random-bet...
In this paper, some aspects of multifractal scaling at the Kolnogorov microscale in fully developed ...
Magnetohydrodynamic turbulence is thought to be responsible for producing complex, multiscale magnet...
The energy cascade of electron magnetohydrodynamic (EMHD) turbulence is considered. Fractal and mult...
Both multifractal and monofractal scaling of structure function exponents are observed in the turbul...
This paper provides a short introduction to the consequences of intermittency on the statistical pro...
In this note, we discuss the multifractal description of anomalous scaling laws in physical phenomen...
In this paper, multifractal aspects of the scalings laws in fully developed compressible turbulence ...
In this paper, multifractal aspects of the scalings laws in fully developed compressible turbulence ...
International audienceThis paper gives a review of some recent work on intermittency, non-Gaussian s...