Astronomical Cardiology: A Search For Heartbeat Stars Using Gaia and TESS

Abstract

Heartbeat stars are a subclass of binary stars with short periods, high eccentricities, and phase-folded light curves that resemble an electrocardiogram. We start from the Gaia catalogs of spectroscopic binaries and use TESS photometry to identify 112 new heartbeat star systems. We fit their phase-folded light curves with an analytic model to measure their orbital periods, eccentricities, inclinations, and arguments of periastron. We then compare these orbital parameters to the Gaia spectroscopic orbital solution. Our periods and eccentricities are consistent with the Gaia solutions for 85\% of the single-line spectroscopic binaries but only 20\% of the double-line spectroscopic binaries. For the two double-line spectroscopic binary heartbeat stars with consistent orbits, we combine the TESS phase-folded light curve and the Gaia velocity semi-amplitudes to measure the stellar masses and radii with PHOEBE. In a statistical analysis of the heartbeat star population, we find that non-giant heartbeat stars have evolved off the main sequence and that the fraction of the systems that are heartbeat stars rises rapidly with effective temperature.