In this paper we use the CASL method to explore the role of boundary conditions in determining the long-time behaviour of rotating, stratified, quasi-geostrophic turbulence. We find that initially two-dimensional (sufficiently tall) columns of potential vorticity (PV) break down through three-dimensional instability to give a fully three- dimensional flow consisting of ellipsoidal structures. This is the case both for rigid-lid (isothermal) vertical boundary conditions and for vertically periodic boundaries. However, the rigid boundary case gives rise to semi-ellipsoids at both the top and bottom boundaries, and, for sufficient domain depths, preferred depths for the formation of ellipsoids in the interior. By contrast, in the vertically pe...
In rapidly rotating turbulent flows the largest scales of the motion are in approximate geostrophic ...
Rotating grid turbulence experiments have been carried out in a stably stratified fluid for relative...
Many flows in nature and technology are driven by buoyant convection and subsequently modulated by r...
In this paper we use the CASL method to explore the role of boundary conditions in determining the l...
In this paper we use the CASL method to explore the role of boundary conditions in determining the l...
The fundamental nature of rapidly rotating, stably stratified (i.e. quasi-geostrophic) turbulence ha...
The present work discusses the most commonly occurring shape of the coherent vortical structures in ...
We examine the basic properties and stability of isolated vortices having uniform potential vorticit...
Using a novel numerical method at unprecedented resolution, we demonstrate that structures of small ...
We examine the linear stability of elliptical columns of uniform potential vorticity subject to two-...
Although turbulence has been studied for more than five hundred years, a thorough understanding of t...
The CASL algorithm [4] has been shown to be a robust and accurate tool for studying vortex dynamics ...
Two idealized rotating and stratified flows are explored using linear stability analysis and three-d...
Rotating Rayleigh-Bénard convection is a simple model system used to study the interplay of buoyant ...
We investigate the effect of rotation on the structure of turbulence in neutral and convective mixed...
In rapidly rotating turbulent flows the largest scales of the motion are in approximate geostrophic ...
Rotating grid turbulence experiments have been carried out in a stably stratified fluid for relative...
Many flows in nature and technology are driven by buoyant convection and subsequently modulated by r...
In this paper we use the CASL method to explore the role of boundary conditions in determining the l...
In this paper we use the CASL method to explore the role of boundary conditions in determining the l...
The fundamental nature of rapidly rotating, stably stratified (i.e. quasi-geostrophic) turbulence ha...
The present work discusses the most commonly occurring shape of the coherent vortical structures in ...
We examine the basic properties and stability of isolated vortices having uniform potential vorticit...
Using a novel numerical method at unprecedented resolution, we demonstrate that structures of small ...
We examine the linear stability of elliptical columns of uniform potential vorticity subject to two-...
Although turbulence has been studied for more than five hundred years, a thorough understanding of t...
The CASL algorithm [4] has been shown to be a robust and accurate tool for studying vortex dynamics ...
Two idealized rotating and stratified flows are explored using linear stability analysis and three-d...
Rotating Rayleigh-Bénard convection is a simple model system used to study the interplay of buoyant ...
We investigate the effect of rotation on the structure of turbulence in neutral and convective mixed...
In rapidly rotating turbulent flows the largest scales of the motion are in approximate geostrophic ...
Rotating grid turbulence experiments have been carried out in a stably stratified fluid for relative...
Many flows in nature and technology are driven by buoyant convection and subsequently modulated by r...