Add to ORKGThe present study investigates the stability of a family of quasi-steady two-dimensional vortex dipoles resulting from the adaptation to the mutual deformation and viscous diffusion of counter-rotating Lamb-Oseen vortices of equal size and circulation. For sufficiently large Reynolds numbers, the internal structure is set by the dipole aspect ratio a/b (radius versus separation distance), giving rise to a family of smooth quasi-steady solutions. These base flow solutions consist of self-propagating dipoles with a vorticity trail leaking from the dipole during the self-adaptation process and from diffusion across the dipole Kelvin oval. The present work is a generalization of the recent study by Brion et al. (2014), who found that a specific...
Recent investigations have identified a variety of instability modes which may develop to enhance di...
International audienceThe wake, which forms behind an aircraft due to its lift, is a pair of horizon...
The linear stability and numerical analysis of geophysical flow patterns is carried out on the beta-...
We extend the linear stability analysis of the inviscid Lamb-Chaplygin dipole (LCD) carried out by B...
International audienceThe dynamics of the Lamb-Chaplygin dipole in the large-wavelength limit is inv...
Using an iterative algorithm, a family of stationary two-dimensional vortical dipoles is constructed...
The evolution of a dipolar vortex in a quasi-two-dimensional rotating flow of barotropic fluid over ...
In this paper we study the large time and transient linear dynamics of a two-dimensional counter-rot...
International audienceIn this Letter we deal with 2D direct numerical simulations of concentrated vo...
The Lamb-Chaplygin dipole (Lamb1895,Lamb1906,Chaplygin1903) is one of the few closed-form relative e...
This paper investigates the three-dimensional stability of the Lamb-Chaplygin vortex pair. Short-wav...
Le contrôle des tourbillons de sillages d'aéronefs permet de réduire leur dangerosité et d'augmenter...
International audienceThis paper is devoted to the stability analysis of the Lamb-Oseen vortex in th...
Two dimensional turbulence in geophysical fluids and plasma physics tends to be spotty, intermittent...
Recent investigations have identified a variety of instability modes which may develop to enhance di...
International audienceThe wake, which forms behind an aircraft due to its lift, is a pair of horizon...
The linear stability and numerical analysis of geophysical flow patterns is carried out on the beta-...
We extend the linear stability analysis of the inviscid Lamb-Chaplygin dipole (LCD) carried out by B...
International audienceThe dynamics of the Lamb-Chaplygin dipole in the large-wavelength limit is inv...
Using an iterative algorithm, a family of stationary two-dimensional vortical dipoles is constructed...
The evolution of a dipolar vortex in a quasi-two-dimensional rotating flow of barotropic fluid over ...
In this paper we study the large time and transient linear dynamics of a two-dimensional counter-rot...
International audienceIn this Letter we deal with 2D direct numerical simulations of concentrated vo...
The Lamb-Chaplygin dipole (Lamb1895,Lamb1906,Chaplygin1903) is one of the few closed-form relative e...
This paper investigates the three-dimensional stability of the Lamb-Chaplygin vortex pair. Short-wav...
Le contrôle des tourbillons de sillages d'aéronefs permet de réduire leur dangerosité et d'augmenter...
International audienceThis paper is devoted to the stability analysis of the Lamb-Oseen vortex in th...
Two dimensional turbulence in geophysical fluids and plasma physics tends to be spotty, intermittent...
Recent investigations have identified a variety of instability modes which may develop to enhance di...
International audienceThe wake, which forms behind an aircraft due to its lift, is a pair of horizon...
The linear stability and numerical analysis of geophysical flow patterns is carried out on the beta-...