Add to ORKGFingering convection (otherwise known as thermohaline convection) is an instability that occurs in stellar radiative interiors in the presence of unstable compositional gradients. Numerical simulations have been used in order to estimate the efficiency of mixing induced by this instability. However, fully three-dimensional (3D) computations in the parameter regime appropriate for stellar astrophysics (i.e., low Prandtl number) are prohibitively expensive. This raises the question of whether two-dimensional (2D) simulations could be used instead to achieve the same goals. In this work, we address this issue by comparing the outcome of 2D and 3D simulations of fingering convection at low Prandtl number. We find that 2D simulations are never a...
Context. Studies of stellar convection typically use a spherical-shell geometry. The radial extent o...
We performed two-dimensional, fully compressible, time-implicit simulations of convection in a solar...
. Numerical simulations can lead to new insights into astrophysical processes that would be difficu...
Fingering convection (otherwise known as thermohaline convection) is an instability that occurs in s...
Context. A 1D description of stellar dynamics is at the basis of stellar evolution modeling. Designe...
This is the final version. Available from EDP Sciences via the DOI in this recordContext. A 1D descr...
We present the first three-dimensional simulations of fingering convection performed in a parameter ...
Direct numerical simulations of two-dimensional fingering convection are presented. They show the gr...
Context. Fingering (thermohaline) convection has been invoked for several years as a possible extra-...
Aims. We investigate the impact of dimensionality, resolution, and long timescales on convective num...
International audienceAims. We investigate the impact of dimensionality, resolution, and long timesc...
Publisher's version/PDFThree-dimensional hydrodynamic simulations of full amplitude RR Lyrae stars h...
Cloud-resolving model simulations of radiative–convective equilibrium are conducted in both two and ...
Context. Studies of stellar convection typically use a spherical-shell geometry. The radial extent o...
We performed two-dimensional, fully compressible, time-implicit simulations of convection in a solar...
. Numerical simulations can lead to new insights into astrophysical processes that would be difficu...
Fingering convection (otherwise known as thermohaline convection) is an instability that occurs in s...
Context. A 1D description of stellar dynamics is at the basis of stellar evolution modeling. Designe...
This is the final version. Available from EDP Sciences via the DOI in this recordContext. A 1D descr...
We present the first three-dimensional simulations of fingering convection performed in a parameter ...
Direct numerical simulations of two-dimensional fingering convection are presented. They show the gr...
Context. Fingering (thermohaline) convection has been invoked for several years as a possible extra-...
Aims. We investigate the impact of dimensionality, resolution, and long timescales on convective num...
International audienceAims. We investigate the impact of dimensionality, resolution, and long timesc...
Publisher's version/PDFThree-dimensional hydrodynamic simulations of full amplitude RR Lyrae stars h...
Cloud-resolving model simulations of radiative–convective equilibrium are conducted in both two and ...
Context. Studies of stellar convection typically use a spherical-shell geometry. The radial extent o...
We performed two-dimensional, fully compressible, time-implicit simulations of convection in a solar...
. Numerical simulations can lead to new insights into astrophysical processes that would be difficu...