Andrea Cristini, Casey Meakin, Raphael Hirschi, David Arnett, Cyril Georgy, Maxime Viallet
Published 2017-12-19Version 1
We present the first detailed three-dimensional hydrodynamic implicit large eddy simulations of turbulent convection for carbon burning. The simulations start with an initial radial profile mapped from a carbon burning shell within a 15 solar mass stellar evolution model. We considered 4 resolutions from 128^3 to 1024^3 zones. These simulations confirm that convective boundary mixing (CBM) occurs via turbulent entrainment as in the case of oxygen burning. The expansion of the boundary into the surrounding stable region and the entrainment rate are smaller at the bottom boundary because it is stiffer than the upper boundary. The results of this and similar studies call for improved CBM prescriptions in 1D stellar evolution models.
Comments: 5 pages, 3 figures. Published in IAUS 329 on 28/07/17
Journal: Proceedings of the International Astronomical Union, 12(S329), 237-241 (2017)
Implicit large eddy simulations of global solar convection: effects of numerical resolution in non-rotating and rotating cases
On Carbon Burning in Super Asymptotic Giant Branch Stars
3D Hydrodynamic Simulations of Carbon Burning in Massive Stars
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