Hyperdiffusion in non-linear, large and small-scale turbulent dynamos
Abstract
The generation of large-scale magnetic fields is generically accompanied by the more rapid growth of small-scale fields. The growing Lorentz force due to these fields back reacts on the turbulence to saturate the mean-field and small-scale dynamos. For the mean-field dynamo, in a quasi-linear treatment of this saturation, it is generally thought that, while the alpha-effect gets renormalised and suppressed by non-linear effects, the turbulent diffusion is left unchanged. We show here that this is not true and the effect of the Lorentz forces, is also to generate additional non-linear hyperdiffusion of the mean field. A combination of such non-linear hyperdiffusion with diffusion at small scales, also arises in a similar treatment of small-scale dynamos, and is crucial to understand its saturation.
Cite
@article{arxiv.astro-ph/0303015,
title = {Hyperdiffusion in non-linear, large and small-scale turbulent dynamos},
author = {Kandaswamy Subramanian},
journal= {arXiv preprint arXiv:astro-ph/0303015},
year = {2009}
}
Comments
4 pages, accepted in Physical Review Letters, small changes to match accepted version