Litcius/Paper detail

Numerical Simulations of Convective Three-dimensional Red Supergiant Envelopes

Jared A. Goldberg, Yan-Fei Jiang, Lars Bildsten

2022The Astrophysical Journal65 citationsDOIOpen Access PDF

Abstract

Abstract We explore the three-dimensional properties of convective, luminous ( L ≈ 10 4.5 –10 5 L ⊙ ), hydrogen-rich envelopes of red supergiants (RSGs) based on radiation hydrodynamic simulations in spherical geometry using Athena ++. These computations comprise ≈30% of the stellar volume, include gas and radiation pressure, and self-consistently track the gravitational potential for the outer ≈3 M ⊙ of the simulated M ≈ 15 M ⊙ stars. This work reveals a radius, R corr , around which the nature of the convection changes. For r > R corr , though still optically thick, diffusion of photons dominates the energy transport. Such a regime is well studied in less luminous stars, but in RSGs, the near- (or above-)Eddington luminosity (due to opacity enhancements at ionization transitions) leads to the unusual outcome of denser regions moving outward rather than inward. This region of the star also has a large amount of turbulent pressure, yielding a density structure much more extended than 1D stellar evolution predicts. This “halo” of material will impact predictions for both shock breakout and early lightcurves of Type IIP supernovae. Inside of R corr , we find a nearly flat entropy profile as expected in the efficient regime of mixing-length theory (MLT). Radiation pressure provides ≈1/3 of the support against gravity in this region. Our comparisons to MLT suggest a mixing length of α = 3–4, consistent with the sizes of convective plumes seen in the simulations. The temporal variability of these 3D models is mostly on the timescale of the convective plume lifetimes (≈300 days), with amplitudes consistent with those observed photometrically.

Topics & Concepts

PhysicsAstrophysicsSupergiantRed supergiantRadiation pressureStarsConvectionSupernovaEddington luminosityOpacityStellar evolutionLuminosityGalaxyMechanicsOpticsStellar, planetary, and galactic studiesAstrophysics and Star Formation StudiesGamma-ray bursts and supernovae