Pulsating hydrogen-deficient white dwarfs and pre-white dwarfs observed with TESS: III. Asteroseismology of the DBV star GD 358

Abstract

The collection of high-quality photometric data by space telescopes is revolutionizing the area of white-dwarf asteroseismology. Among the different kinds of pulsating white dwarfs, there are those that have He-rich atmospheres, and they are called DBVs or V777 Her variable stars. The archetype of these pulsating white dwarfs, GD~358, is the focus of the present paper. We report a thorough asteroseismological analysis of the DBV star GD~358 (TIC~219074038) based on new high-precision photometric data gathered by the TESS space mission combined with data taken from the Earth. In total, we detected 26 periodicities from the TESS light curve of this DBV star using a standard pre-whitening. The oscillation frequencies are associated with nonradial g(gravity)-mode pulsations with periods from 422 s to 1087 s. Moreover, we detected 8 combination frequencies between 543 s and 295 s. We combined these data with a huge amount of observations from the ground. We found a constant period spacing of 39.250.17 s, which helped us to infer its mass (M= 0.5880.024 M) and constrain the harmonic degree of the modes. We carried out a period-fit analysis on GD~358, and we were successful in finding an asteroseismological model with a stellar mass (M= 0.584+0.025-0.019 M), in line with the spectroscopic mass (M= 0.5600.028 M). We found that the frequency splittings vary according to the radial order of the modes, suggesting differential rotation. Obtaining a seismological made it possible to estimate the seismological distance (d seis= 42.85 0.73 pc) of GD~358, which is in very good accordance with the precise astrometric distance measured by GAIA EDR3 (π= 23.244 0.024, d GAIA= 43.02 0.04~pc).