We will investigate air-sea transfer of momentum, heat, and moisture under weak wind conditions. We will focus on effects of swell on turbulence transfer since swell phase speeds can be much faster than weak wind and swell can have significant impacts on air-sea interactions. Improved understanding of wave effects on marine atmospheric turbulent fluxes under weak wind conditions will be used to modify the existing bulk aerodynamic formula for numerical models
Current models cannot capture well the impacts of wind waves on the atmospheric boundary layer. Here...
The gas flux at the water surface is affected by physical processes including turbulence from wind s...
The goal is to investigate, through theory and by analyzing existing data, sea surface physics and a...
We investigate air-sea transfer of momentum, heat, and moisture under weak wind conditions. We focus...
Atmospheric models are strongly dependent on the turbulent exchange of momentum, sensible heat and m...
Abstract. Recent field observations and large-eddy simulations have shown that the impact of fast ru...
A quantitative description of wind-wave and wind-current momentum transfer in high wind conditions i...
The turbulent fluxes of momentum, mass, and energy across the ocean-atmosphere boundary are fundamen...
International audienceFollowing a 2005 field campaign to study the possible influence of swell on wi...
The main goal of the proposed research is to study theoretically the role of the breaking wind waves...
A revised wind-over-wave-coupling model is developed to provide a consistent description of the sea ...
Winds and waves in marine boundary layers are often in an unsettled state when fast-running swell ge...
The interaction between ocean surface waves and the overlying wind leads to a transfer of momentum a...
In the paper, we will discuss two separate, but connected issues: wave-turbulence interactions, and ...
Abstract A simple model of the atmospheric boundary layer over the ocean where the swell impact on t...
Current models cannot capture well the impacts of wind waves on the atmospheric boundary layer. Here...
The gas flux at the water surface is affected by physical processes including turbulence from wind s...
The goal is to investigate, through theory and by analyzing existing data, sea surface physics and a...
We investigate air-sea transfer of momentum, heat, and moisture under weak wind conditions. We focus...
Atmospheric models are strongly dependent on the turbulent exchange of momentum, sensible heat and m...
Abstract. Recent field observations and large-eddy simulations have shown that the impact of fast ru...
A quantitative description of wind-wave and wind-current momentum transfer in high wind conditions i...
The turbulent fluxes of momentum, mass, and energy across the ocean-atmosphere boundary are fundamen...
International audienceFollowing a 2005 field campaign to study the possible influence of swell on wi...
The main goal of the proposed research is to study theoretically the role of the breaking wind waves...
A revised wind-over-wave-coupling model is developed to provide a consistent description of the sea ...
Winds and waves in marine boundary layers are often in an unsettled state when fast-running swell ge...
The interaction between ocean surface waves and the overlying wind leads to a transfer of momentum a...
In the paper, we will discuss two separate, but connected issues: wave-turbulence interactions, and ...
Abstract A simple model of the atmospheric boundary layer over the ocean where the swell impact on t...
Current models cannot capture well the impacts of wind waves on the atmospheric boundary layer. Here...
The gas flux at the water surface is affected by physical processes including turbulence from wind s...
The goal is to investigate, through theory and by analyzing existing data, sea surface physics and a...