Add to ORKGThe growth in size and quality of observations of Geophysical Flows enables more detailed comparison between theoretical predictions and the real world. In this presentation, I give two examples where a "statistical look" on a classical problem can offer new insights on the underlying dynamics. In both cases, success is enabled by the collection of large, high-quality datasets in the field
The stability of flows cascading down slopes as dense inclined plumes is examined, with particular r...
Transport phenomena, including diffusion, mixing, spreading, and mobility, are crucial to understand...
Two types of circulations are found in the deep ocean: recirculating cells and basin-wide gyres. Thi...
Geophysical flows are highly turbulent, yet embody large-scale coherent structures, such as ocean ri...
Turbulence is often referred to as the last mystery of classical physics. Although turbulence is ubi...
Dense overflows on a continental slope play an important role in renewing deep water as part of the ...
Real environmental flows are non-homogeneous, of fundamental interest is to determine and quantify t...
This thesis is a summary of my PhD works. It explores the influence of turbulence on two different o...
The atmosphere and ocean are examples of dynamical systems that evolve in accordance with the laws o...
International audience1 Facts about the Workshop This workshop was convened on November 13-15 1995 b...
The study of turbulence in geophysical flows benefits from the growing amount of data available via ...
We present a detailed analysis of temperature statistics in an oceanographic observational dataset. ...
41 pages, submitted to Journal of Statistical PhysicsInternational audienceUsing explicit analytical...
Gravity currents are the primary means by which sediments, solutes and heat are transported across t...
A relatively new area at the crossroads of fluid and nonlinear dynamics are objects known as Lagrang...
The stability of flows cascading down slopes as dense inclined plumes is examined, with particular r...
Transport phenomena, including diffusion, mixing, spreading, and mobility, are crucial to understand...
Two types of circulations are found in the deep ocean: recirculating cells and basin-wide gyres. Thi...
Geophysical flows are highly turbulent, yet embody large-scale coherent structures, such as ocean ri...
Turbulence is often referred to as the last mystery of classical physics. Although turbulence is ubi...
Dense overflows on a continental slope play an important role in renewing deep water as part of the ...
Real environmental flows are non-homogeneous, of fundamental interest is to determine and quantify t...
This thesis is a summary of my PhD works. It explores the influence of turbulence on two different o...
The atmosphere and ocean are examples of dynamical systems that evolve in accordance with the laws o...
International audience1 Facts about the Workshop This workshop was convened on November 13-15 1995 b...
The study of turbulence in geophysical flows benefits from the growing amount of data available via ...
We present a detailed analysis of temperature statistics in an oceanographic observational dataset. ...
41 pages, submitted to Journal of Statistical PhysicsInternational audienceUsing explicit analytical...
Gravity currents are the primary means by which sediments, solutes and heat are transported across t...
A relatively new area at the crossroads of fluid and nonlinear dynamics are objects known as Lagrang...
The stability of flows cascading down slopes as dense inclined plumes is examined, with particular r...
Transport phenomena, including diffusion, mixing, spreading, and mobility, are crucial to understand...
Two types of circulations are found in the deep ocean: recirculating cells and basin-wide gyres. Thi...