A. Bershadskii
Published 2022-09-13Version 1
It is shown, using results of direct numerical simulations, that the spontaneous breaking of local reflectional symmetry (and corresponding localized kinetic and magnetic helicities) can dominate chaotic dynamics of the small-scale MHD dynamo in the Rayleigh-B{\'e}nard convection, in kinetically forced flows under strong stratification, in the near-surface solar convection, and in kinetically forced flows at large magnetic Reynolds numbers. The notions of deterministic and helical distributed chaos have been used for this purpose. The coexistence of large- and small-scale dynamo mechanisms and applications of the obtained results to quiet and active regions of the solar photosphere have been briefly discussed.
Inverse Problems in Magnetohydrodynamics: Theoretical and Experimental Aspects
Spontaneous breaking of local mirror symmetry in superfluid and in BEC turbulence
The contribution of kinetic helicity to turbulent magnetic diffusivity
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