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Chaos and Turbulent Nucleosynthesis Prior to a Supernova Explosion

Authors :
Arnett, W. David
Meakin, Casey
Viallet, Maxime
Publication Year :
2013

Abstract

Three-dimensional (3D), time dependent numerical simulations, of flow of matter in stars, now have sufficient resolution to be fully turbulent. The late stages of the evolution of massive stars, leading up to core collapse to a neutron star (or black hole), and often to supernova explosion and nucleosynthesis, are strongly convective because of vigorous neutrino cooling and nuclear heating. Unlike models based on current stellar evolutionary practice, these simulations show a chaotic dynamics characteristic of highly turbulent flow. Theoretical analysis of this flow, both in the Reynolds-averaged Navier-Stokes (RANS) framework and by simple dynamic models, show an encouraging consistency with the numerical results. It may now be possible to develop physically realistic and robust procedures for convection and mixing which (unlike 3D numerical simulation) may be applied throughout the long life times of stars. In addition, a new picture of the presupernova stages is emerging which is more dynamic and interesting (i.e., predictive of new and newly observed phenomena) than our previous one.<br />Comment: 11 pages, 2 figures, Submitted to AIP Advances: Stardust, added figures and modest rewriting

Details

Database :
arXiv
Publication Type :
Report
Accession number :
edsarx.1312.3279
Document Type :
Working Paper