Litcius/Paper detail

Turbulent magnetic helicity fluxes in solar convective zone

N. Kleeorin, I. Rogachevskii

2022Monthly Notices of the Royal Astronomical Society13 citationsDOIOpen Access PDF

Abstract

ABSTRACT Combined action of helical motions of plasma (the kinetic α effect) and non-uniform (differential) rotation is a key dynamo mechanism of solar and galactic large-scale magnetic fields. Dynamics of magnetic helicity of small-scale fields is a crucial mechanism in a non-linear dynamo saturation where turbulent magnetic helicity fluxes allow to avoid catastrophic quenching of the α effect. The convective zone of the Sun and solar-like stars, as well as galactic discs, are the source for production of turbulent magnetic helicity fluxes. In the framework of the mean-field approach and the spectral τ approximation, we derive turbulent magnetic helicity fluxes using the Coulomb gauge in a density-stratified turbulence. The turbulent magnetic helicity fluxes include non-gradient and gradient contributions. The non-gradient magnetic helicity flux is proportional to a non-linear effective velocity (which vanishes in the absence of the density stratification) multiplied by small-scale magnetic helicity, while the gradient contributions describe turbulent magnetic diffusion of the small-scale magnetic helicity. In addition, the turbulent magnetic helicity fluxes contain source terms proportional to the kinetic α effect or its gradients, and also contributions caused by the large-scale shear (solar differential rotation). We have demonstrated that the turbulent magnetic helicity fluxes due to the kinetic α effect and its radial derivative in combination with the non-linear magnetic diffusion of the small-scale magnetic helicity are dominant in the solar convective zone.

Topics & Concepts

PhysicsMagnetic helicityConvection zoneHelicityDynamoSolar dynamoDynamo theoryDifferential rotationMagnetic fieldMagnetic energyTurbulenceMagnetohydrodynamicsConvectionTurbulent diffusionMagnetic fluxAstrophysicsComputational physicsClassical mechanicsMechanicsMagnetizationQuantum mechanicsSolar and Space Plasma DynamicsStellar, planetary, and galactic studiesGeomagnetism and Paleomagnetism Studies