It is now well established that two distinct types of motion occur in geophysical turbulence: slow motions associated with potential vorticity advection and fast oscillations due to inertia-gravity waves (or acoustic waves). Many studies have theorized the existence of a flow for which the entire motion is controlled by the potential vorticity (or one 'master variable') - this is known as balance. In real geophysical flows, deviations from balance in the form of inertia-gravity waves or 'imbalance' have often been found to be small. Here we examine the extent to which balance holds in rotating stratified turbulence which is nearly balanced initially.Using the non-hydrostatic fluid dynamical equations under the Boussinesq approximation, we a...
The Coriolis force has a subtle, but significant impact on the dynamics of geophysical and astrophys...
International audienceRotating grid turbulence experiments have been carried out in a stably stratif...
Support for this research has come from the UK Engineering and Physical Sciences Research Council (g...
Towards understanding the motion of the Earths atmosphere and oceans many studies have tried to nd s...
Rotating stably stratified geophysical flows can exhibit a near 'balanced' evolution controlled by t...
The fluid dynamics of the atmosphere and oceans are to a large extent controlled by the slow evoluti...
We describe a new approach to modelling three-dimensional rotating stratified flows under the Boussi...
In rapidly rotating turbulent flows the largest scales of the motion are in approximate geostrophic ...
We examine the basic properties and stability of isolated vortices having uniform potential vorticit...
A fundamental problem in fluid dynamics that remains a mystery, even after half a cen-tury of dedica...
Many physical systems exhibit dynamics with vastly different time scales. Often the different motion...
Two idealized rotating and stratified flows are explored using linear stability analysis and three-d...
The fundamental nature of rapidly rotating, stably stratified (i.e. quasi-geostrophic) turbulence ha...
This thesis contains a thorough investigation of the properties of freely decaying turbulence in a r...
It is shown how a renormalization technique, which is a variant of classical Krylov–Bogolyubov–Mitro...
The Coriolis force has a subtle, but significant impact on the dynamics of geophysical and astrophys...
International audienceRotating grid turbulence experiments have been carried out in a stably stratif...
Support for this research has come from the UK Engineering and Physical Sciences Research Council (g...
Towards understanding the motion of the Earths atmosphere and oceans many studies have tried to nd s...
Rotating stably stratified geophysical flows can exhibit a near 'balanced' evolution controlled by t...
The fluid dynamics of the atmosphere and oceans are to a large extent controlled by the slow evoluti...
We describe a new approach to modelling three-dimensional rotating stratified flows under the Boussi...
In rapidly rotating turbulent flows the largest scales of the motion are in approximate geostrophic ...
We examine the basic properties and stability of isolated vortices having uniform potential vorticit...
A fundamental problem in fluid dynamics that remains a mystery, even after half a cen-tury of dedica...
Many physical systems exhibit dynamics with vastly different time scales. Often the different motion...
Two idealized rotating and stratified flows are explored using linear stability analysis and three-d...
The fundamental nature of rapidly rotating, stably stratified (i.e. quasi-geostrophic) turbulence ha...
This thesis contains a thorough investigation of the properties of freely decaying turbulence in a r...
It is shown how a renormalization technique, which is a variant of classical Krylov–Bogolyubov–Mitro...
The Coriolis force has a subtle, but significant impact on the dynamics of geophysical and astrophys...
International audienceRotating grid turbulence experiments have been carried out in a stably stratif...
Support for this research has come from the UK Engineering and Physical Sciences Research Council (g...