Altimetric measurements of rotating turbulence: cyclone-anticyclone asymmetry, inertial and Kelvin waves and spectral characteristics

TL;DR

This study uses optical altimetry to analyze rotating turbulence in a circular container, revealing dual cascade spectral characteristics, cyclone-anticyclone asymmetry favoring anticyclones, and the presence of inertial and Kelvin waves.

Contribution

It introduces high-resolution optical altimetry measurements to study spectral and structural features of rotating turbulence, including wave detection and vortex asymmetry.

Findings

Dual cascade spectral behavior with -5/3 slope in energy range

Anticyclones dominate during turbulence decay phase

Inertial and Kelvin waves are observed and characterized

Abstract

Results from a new series of experiments on turbulent flows in a rotating circular container are presented. Electromagnetic forcing is applied to induce flow in a layer of fluid of constant depth. Continuously forced as well as decaying flows are investigated. Optical altimetry is used to measure the gradient of the surface elevation field and to obtain the velocity and vorticity fields with high temporal and spatial resolution. Spectral analysis of the flows demonstrates the formation of dual cascade with energy and enstrophy intervals although the corresponding spectral fluxes of energy and enstrophy are not uniform in these intervals. The energy interval is characterized by the slope of approximately -5/3 in terms of wavenumber and is limited in extent by the finite radius of deformation effect. In the enstrophy range, the slope is steeper than -3 due to the presence of long-lived coherent vortices. The spatial patterns of spectral fluxes in the flow indicate that inverse energy transfer and direct enstrophy transfer occur mainly in elongated vorticity patches. Cyclone/anticyclone asymmetry in favor of anticyclones is observed in our flows. Dominance of anticyclones is most clear during the decay phase of turbulence. The anticyclones remain circular while cyclonic vorticity is stretched into elongated patches. Measurements show that skewness of vorticity distribution increases with increasing Froude number of the flow. Inertial and Kelvin waves are detected in our experiments; their characteristics are analysed against the appropriate dispersion relations.