Add to ORKGTwo-dimensional axisymmetric simulations have shown that the post-bounce accretion shock in core collapse supernovae is subject to the Spherical Accretion Shock Instability, or SASI. Recent three-dimensional simulations have revealed the existence of a non-axisymmetric mode of the SASI as well, where the postshock flow displays a spiral pattern. Here we investigate the growth of these spiral modes using two-dimensional simulations of the post-bounce accretion flow in the equatorial plane of a core-collapse supernova. By perturbing a steady-state model we are able to excite both one, two and three-armed spiral modes that grow exponentially with time, demonstrating that these are linearly unstable modes closely related to the original axisymm...
In the context of 2D, axisymmetric, multi-group, radiation/hydrodynamic simulations of core-collapse...
We investigate the structure of the stalled supernova shock in both two and three dimensions (2D and...
Accepted for publication in the Astrophysical Journal We extend our investigation of magnetic field ...
Hydrodynamical instabilities, such as the standing accretion-shock instability (SASI), play an essen...
International audiencePulsars may either be spun up or down by hydrodynamic instabilities during the...
A three-dimensional, Newtonian hydrodynamical technique is used to follow the post-bounce phase of a...
Performing two-dimensional hydrodynamic simulations including a detailed treatment of the equation o...
Bearing in mind the application to the theory of core-collapse supernovae, we performed a global lin...
We present results from fully relativistic three-dimensional core-collapse supernova simulations of ...
Multi-dimensional simulations of advanced nuclear burning stages of massive stars suggest that the S...
Aims. We study the hydrodynamic evolution of a non-spherical core-collapse supernova in two spatial...
International audienceThe growth of instabilities is key to trigger a supernova explosion during the...
The effect of rotation on the explosion of core-collapse supernovae is investigated systematically i...
We present predictions for the gravitational-wave (GW) emission of three-dimensional supernova (SN) ...
The so-called "acoustic revival mechanism" of core-collapse supernova proposed recently by the Arizo...
In the context of 2D, axisymmetric, multi-group, radiation/hydrodynamic simulations of core-collapse...
We investigate the structure of the stalled supernova shock in both two and three dimensions (2D and...
Accepted for publication in the Astrophysical Journal We extend our investigation of magnetic field ...
Hydrodynamical instabilities, such as the standing accretion-shock instability (SASI), play an essen...
International audiencePulsars may either be spun up or down by hydrodynamic instabilities during the...
A three-dimensional, Newtonian hydrodynamical technique is used to follow the post-bounce phase of a...
Performing two-dimensional hydrodynamic simulations including a detailed treatment of the equation o...
Bearing in mind the application to the theory of core-collapse supernovae, we performed a global lin...
We present results from fully relativistic three-dimensional core-collapse supernova simulations of ...
Multi-dimensional simulations of advanced nuclear burning stages of massive stars suggest that the S...
Aims. We study the hydrodynamic evolution of a non-spherical core-collapse supernova in two spatial...
International audienceThe growth of instabilities is key to trigger a supernova explosion during the...
The effect of rotation on the explosion of core-collapse supernovae is investigated systematically i...
We present predictions for the gravitational-wave (GW) emission of three-dimensional supernova (SN) ...
The so-called "acoustic revival mechanism" of core-collapse supernova proposed recently by the Arizo...
In the context of 2D, axisymmetric, multi-group, radiation/hydrodynamic simulations of core-collapse...
We investigate the structure of the stalled supernova shock in both two and three dimensions (2D and...
Accepted for publication in the Astrophysical Journal We extend our investigation of magnetic field ...