Add to ORKGWe conducted an analysis of the process of GW breaking from an energy perspective using the output from a high-resolution compressible atmospheric model. The investigation focused on the energy conversion and transfer that occur during the GW breaking. The total change in kinetic energy and the amount of energy converted to internal energy and potential energy within a selected region were calculated.Prior to GW breaking, part of the potential energy is converted into kinetic energy, most of which is transported out of the chosen region. After the GW breaks and turbulence develops, part of the potential energy is converted into kinetic energy, most of which is converted into internal energy.The calculations for the transfer of kinetic energ...
International audienceAn important characteristic of geophysically turbulent flows is the transfer o...
Internal gravity waves (GWs) are an important component of the atmospheric dynamics, significantly a...
Abstract We advance our prior energy- and flux-budget (EFB) turbulence closure model for stably stra...
We conducted an analysis of the process of GW breaking from an energy perspective using the output f...
We conducted an analysis of the process of GW breaking from an energy perspective using the output f...
An atmospheric internal gravity wave is an important dynamical process that transports momentum from...
Turbulence in the atmosphere is generally affected by rotation and stratification. The combination o...
We present direct numerical simulations of inertia-gravity waves breaking in the middle-upper mesosp...
This book describes a recent effort combining interdisciplinary expertise within the Collaborative R...
Gravity waves (GWs) are internal atmospheric waves that exist on all planetary atmospheres and play ...
A compressible numerical model is applied for three-dimensional (3-D) gravity wave (GW) packets unde...
Long term goals are to observe and model turbulent transfer of momentum between the atmosphere and o...
Motivated by the need to understand the experimental data from remote sensing systems measuring uppe...
This study investigates the charactericstics of turbulence caused by three-dimensional breaking of i...
The mechanism of generation of internal gravity waves (IGW) by mesoscale turbulence in the troposph...
International audienceAn important characteristic of geophysically turbulent flows is the transfer o...
Internal gravity waves (GWs) are an important component of the atmospheric dynamics, significantly a...
Abstract We advance our prior energy- and flux-budget (EFB) turbulence closure model for stably stra...
We conducted an analysis of the process of GW breaking from an energy perspective using the output f...
We conducted an analysis of the process of GW breaking from an energy perspective using the output f...
An atmospheric internal gravity wave is an important dynamical process that transports momentum from...
Turbulence in the atmosphere is generally affected by rotation and stratification. The combination o...
We present direct numerical simulations of inertia-gravity waves breaking in the middle-upper mesosp...
This book describes a recent effort combining interdisciplinary expertise within the Collaborative R...
Gravity waves (GWs) are internal atmospheric waves that exist on all planetary atmospheres and play ...
A compressible numerical model is applied for three-dimensional (3-D) gravity wave (GW) packets unde...
Long term goals are to observe and model turbulent transfer of momentum between the atmosphere and o...
Motivated by the need to understand the experimental data from remote sensing systems measuring uppe...
This study investigates the charactericstics of turbulence caused by three-dimensional breaking of i...
The mechanism of generation of internal gravity waves (IGW) by mesoscale turbulence in the troposph...
International audienceAn important characteristic of geophysically turbulent flows is the transfer o...
Internal gravity waves (GWs) are an important component of the atmospheric dynamics, significantly a...
Abstract We advance our prior energy- and flux-budget (EFB) turbulence closure model for stably stra...