On the contradictory case of the binary system HD 81809 hosting two pulsating solar-like stars observed by TESS

Abstract

We present a new comprehensive study of HD81809, a nearby binary system of two solar-like stars showing high-amplitude X-ray emission and a well-defined 8-year solar-like magnetic cycle. By analyzing high-resolution spectroscopy, alongside DR3 Gaia astrometry, and bolometric fluxes, we derive updated fundamental parameters for both components. In particular, we uncover a significant chemical difference: the primary is metal-poor ([Fe/H] - 0.57), while the secondary shows solar-like metallicity ([Fe/H]=0.00). This suggests that the system originated in a mildly metal-poor environment, consistent with the Galactic thick disk population, and that the secondary's surface composition has been altered by a recent accretion event. Using multi-sector TESS photometry, we detected solar-like oscillations in both components, deriving global asteroseismic parameters = 43.32 3.91 μHz, max = 708.74+3.23-3.74 μHz for HD81809 A, and = 97.75 4.49~μHz, max = 2098.07+3.07-2.83 μHz for HD81809 B. By combining all the observational constraints with stellar evolutionary models computed using CLES and MESA codes, we reconstructed the evolutionary scenario of the system. Our results indicate that HD 81809 is an old system with an age of 10 Gyr, composed of a subgiant primary with mass 0.87M and radius 1.96R - likely responsible for the reactivated dynamo cycle - and a main sequence secondary with mass M=0.85M and radius R=1.10R. This system represents a benchmark for studying stellar evolution, magnetic activity, and the physics of old, metal-poor stars in the Galactic thick disk.