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Paper detail

Universal Nonlinear Small-Scale Dynamo

We consider astrophysically relevant nonlinear MHD dynamo at large Reynolds numbers (Re). We argue that it is universal in a sense that magnetic energy grows at a rate which is a constant fraction C_E of the total turbulent dissipation rate. On the basis of locality bounds we claim that this "efficiency of small-scale dynamo", C_E, is a true constant for large Re and is determined only by strongly nonlinear dynamics at the equipartition scale. We measured C_E in numerical simulations and observed a value around 0.05 in highest resolution simulations. We address the issue of C_E being small, unlike Kolmogorov constant which is of order unity.

preprint2011arXivOpen access
Andrey Beresnyak
physics.space-phphysics.plasm-phastro-ph.GAphysics.geo-phphysics.flu-dyn
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Andrey Beresnyak

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