English

Large-scale flow generation by inhomogeneous helicity

Fluid Dynamics 2016-04-06 v3 Solar and Stellar Astrophysics Geophysics

Abstract

The effect of kinetic helicity (velocity--vorticity correlation) on turbulent momentum transport is investigated. The turbulent kinetic helicity (pseudoscalar) enters the Reynolds stress (mirrorsymmetric tensor) expression in the form of a helicity gradient as the coupling coefficient for the mean vorticity and/or the angular velocity (axial vector), which suggests the possibility of mean-flow generation in the presence of inhomogeneous helicity. This inhomogeneous helicity effect, which was previously confirmed at the level of a turbulence- or closure-model simulation, is examined with the aid of direct numerical simulations of rotating turbulence with non-uniform helicity sustained by an external forcing. The numerical simulations show that the spatial distribution of the Reynolds stress is in agreement with the helicity-related term coupled with the angular velocity, and that a large-scale flow is generated in the direction of angular velocity. Such a large-scale flow is not induced in the case of homogeneous turbulent helicity. This result confirms the validity of the inhomogeneous helicity effect in large-scale flow generation and suggests that a vortex dynamo is possible even in incompressible turbulence where there is no baroclinicity effect.

Keywords

Cite

@article{arxiv.1511.08983,
  title  = {Large-scale flow generation by inhomogeneous helicity},
  author = {Nobumitsu Yokoi and Axel Brandenburg},
  journal= {arXiv preprint arXiv:1511.08983},
  year   = {2016}
}

Comments

15pages, 11 figures

R2 v1 2026-06-22T11:56:26.723Z