Intermittency assessed through a model of kurtosis-skewness relation in MHD in fast dynamo regimes
L'intermittence évaluée par un modèle de relation kurtosis-skewness en MHD dans les régimes de dynamo rapide.
Résumé
Intermittency as it occurs in fast dynamos in the MHD framework is evaluated through the examination of relations between normalized moments at third order (skewness S) and fourth order (kurtosis K) for both the velocity and magnetic field, and for their local dissipations. As investigated by several authors in various physical contexts such as fusion plasmas (Krommes ( 2008)), climate evolution (Sura & Sardeshmukh (2008)), fluid turbulence or rotating stratified flows (Pouquet et al. ( 2023)), approximate parabolic K(S) ∼ S α laws emerge whose origin may be related to the applicability of intermittency models to their dynamics. The results analyzed herein are obtained through direct numerical simulations of MHD flows for both Taylor-Green and Beltrami ABC forcing at moderate Reynolds numbers, and for up to 3.14 × 10 5 turn-over times. We observe for the dissipation 0.2 ≲ α ≲ 3.0, an evaluation that varies with the field, the forcing, and when filtering for high-skewness intermittent structures. When using the She & Lévêque (1994) intermittency model, one can compute α analytically; we then find α ≈ 2.5, clearly differing from a (strict) parabolic scaling, a result consistent with the numerical data.
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