Add to ORKGInternational audienceWe present a laboratory study on the instability of internal wave attractors in a trapezoidal fluid domain filled with uniformly stratified fluid. Energy is injected into the system via standing-wave-type motion of a vertical wall. Attractors are found to be destroyed by parametric subharmonic instability (PSI) via a triadic resonance which is shown to provide a very efficient energy pathway from long to short length scales. This study provides an explanation why attractors may be difficult or impossible to observe in natural systems subject to large amplitude forcing
Internal gravity waves play a primary role in geophysical fluids : they contribute significantly to ...
In the present paper, we combine numerical and experimental approaches to study the dynamics of stab...
In the present paper, we combine numerical and experimental approaches to study the dynamics of stab...
International audienceIn the present paper, we combine numerical and experimental approaches to stud...
International audienceThis paper presents an experimental study of different instability scenarios i...
International audienceThis paper presents an experimental study of different instability scenarios i...
This paper gives background information for the fluid dynamics video on internal wave motion in a tr...
Continuously stratified fluids support internal waves. The energy of these waves propagates under an...
International audienceOne of the pivotal questions in the dynamics of the oceans is related to the c...
International audienceOne of the pivotal questions in the dynamics of the oceans is related to the c...
A question of paramount importance in the dynamics of oceans is related to the energy cascade from l...
A question of paramount importance in the dynamics of oceans is related to the energy cascade from l...
A question of paramount importance in the dynamics of oceans is related to the energy cascade from l...
International audienceWe present an experimental analysis of the linear and nonlinear regimes of an ...
Stratified fluids support internal waves, which propagate obliquely through the fluid. The angle w...
Internal gravity waves play a primary role in geophysical fluids : they contribute significantly to ...
In the present paper, we combine numerical and experimental approaches to study the dynamics of stab...
In the present paper, we combine numerical and experimental approaches to study the dynamics of stab...
International audienceIn the present paper, we combine numerical and experimental approaches to stud...
International audienceThis paper presents an experimental study of different instability scenarios i...
International audienceThis paper presents an experimental study of different instability scenarios i...
This paper gives background information for the fluid dynamics video on internal wave motion in a tr...
Continuously stratified fluids support internal waves. The energy of these waves propagates under an...
International audienceOne of the pivotal questions in the dynamics of the oceans is related to the c...
International audienceOne of the pivotal questions in the dynamics of the oceans is related to the c...
A question of paramount importance in the dynamics of oceans is related to the energy cascade from l...
A question of paramount importance in the dynamics of oceans is related to the energy cascade from l...
A question of paramount importance in the dynamics of oceans is related to the energy cascade from l...
International audienceWe present an experimental analysis of the linear and nonlinear regimes of an ...
Stratified fluids support internal waves, which propagate obliquely through the fluid. The angle w...
Internal gravity waves play a primary role in geophysical fluids : they contribute significantly to ...
In the present paper, we combine numerical and experimental approaches to study the dynamics of stab...
In the present paper, we combine numerical and experimental approaches to study the dynamics of stab...