English

Libration-induced mean flow in a spherical shell

Fluid Dynamics 2013-10-08 v1 Geophysics

Abstract

We investigate the flow in a spherical shell subject to a time harmonic oscillation of its rotation rate, also called longitudinal libration, when the oscillation frequency is larger than twice the mean rotation rate. In this frequency regime, no inertial waves are directly excited by harmonic forcing. We show however that it can generate through non-linear interactions in the Ekman layers a strong mean zonal flow in the interior. An analytical theory is developed using a perturbative approach in the limit of small libration amplitude ϵ\epsilon and small Ekman number EE. The mean flow is found to be at leading order an azimuthal flow which scales as the square of the libration amplitude and only depends on the cylindrical-radius coordinate. The mean flow also exhibits a discontinuity across the cylinder tangent to the inner sphere. We show that this discontinuity can be smoothed through multi-scale Stewartson layers. The mean flow is also found to possess a weak axial flow which scales as O(ϵ2E5/42)O(\epsilon^2 E^{5/42}) in the Stewartson layers. The analytical solution is compared to axisymmetric numerical simulations and a good agreement is demonstrated.

Keywords

Cite

@article{arxiv.1212.1433,
  title  = {Libration-induced mean flow in a spherical shell},
  author = {Alban Sauret and Stéphane Le Dizès},
  journal= {arXiv preprint arXiv:1212.1433},
  year   = {2013}
}

Comments

Accepted for publication in Journal of Fluid Mechanics

R2 v1 2026-06-21T22:49:57.418Z