Skip to content

MSI

Seminar

Simulations of core convection and resulting dynamo action rotating A-type stars (Chair: MRE Proctor)

Browning, M (JILA, Boulder)
Tuesday 12 October 2004, 16:40-17:05

Seminar Room 1, Newton Institute

Abstract

We present the results of 3--D nonlinear simulations of magnetic dynamo action by core convection within A-type stars of 2 solar masses, at a range of rotation rates. We consider the inner 30% by radius of such stars, with the spherical domain thereby encompassing the convective core and a portion of the surrounding radiative envelope. The compressible Navier-Stokes equations, subject to the anelastic approximation, are solved to examine highly nonlinear flows that span multiple scale heights, exhibit intricate time dependence, and admit magnetic dynamo action. Small initial seed magnetic fields are found to be amplified greatly by the convective and zonal flows, ultimately yielding fields that possess structure on many scales, are strong enough to modify the flows themselves, and persist for as long as we have continued our calculations. The central columns of strikingly slow rotation found in some of our progenitor hydrodynamic simulations continue to be realized in some simulations to a lesser degree, with such differential rotation arising from the redistribution of angular momentum by the nonlinear convection and magnetic fields. We assess the properties of the magnetic fields thus generated, the extent of convective penetration, and the excitation of gravity waves within the radiative envelope, as a number of simulation parameters are varied.

Audio

MP3MP3 Real AudioReal Audio

Back to top ∧