Evolution of localized magnetic field perturbations and the nature of turbulent dynamo
Autor: | A. S. Il'yn, Kirill P. Zybin, V. A. Sirota, A. V. Kopyev |
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Rok vydání: | 2021 |
Předmět: |
Fluid Flow and Transfer Processes
Physics Inertial frame of reference Turbulence Mechanical Engineering Isotropy Fluid Dynamics (physics.flu-dyn) Computational Mechanics FOS: Physical sciences Physics - Fluid Dynamics Mechanics Condensed Matter Physics Physics - Plasma Physics Magnetic field Plasma Physics (physics.plasm-ph) Physics::Fluid Dynamics Superposition principle Mechanics of Materials Compressibility Magnetic Prandtl number Dynamo |
Zdroj: | Physics of Fluids. 33:075105 |
ISSN: | 1089-7666 1070-6631 |
DOI: | 10.1063/5.0051669 |
Popis: | Kinematic dynamo in incompressible isotropic turbulent flows with high magnetic Prandtl number is considered. The approach interpreting an arbitrary magnetic field distribution as a superposition of localized perturbations (blobs) is proposed. We derive a relation between stochastic properties of a blob and a stochastically homogenous distribution of magnetic field advected by the same stochastic flow. This relation allows to investigate the evolution of a localized blob at late stage when its size exceeds the viscous scale. It is shown that in 3-dimansional flows, the average magnetic field of the blob increases exponentially in the inertial range of turbulence, as opposed to the late-Batchelor stage when it decreases. Our approach reveals the mechanism of dynamo generation in the inertial range both for blobs and homogenous contributions. It explains the absence of dynamo in the two-dimensional case and its efficiency in three dimensions. We propose the way to observe the mechanism in numerical simulations. 10 pages, 1 figure |
Databáze: | OpenAIRE |
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