A new class of Roche lobe-filling hot subdwarf binaries

Abstract

We present the discovery of the second binary with a Roche lobe-filling hot subdwarf transferring mass to a white dwarf (WD) companion. This 56 minute binary was discovered using data from the Zwicky Transient Facility. Spectroscopic observations reveal an He-sdOB star with an effective temperature of T eff=33,7001000 K and a surface gravity of log(g)=5.540.11. The GTC+HiPERCAM light curve is dominated by the ellipsoidal deformation of the He-sdOB star and shows an eclipse of the He-sdOB by an accretion disk as well as a weak eclipse of the WD. We infer a He-sdOB mass of M sdOB=0.410.04 M and a WD mass of M WD=0.680.05 M. The weak eclipses imply a WD black-body temperature of 63,00010,000 K and a radius R WD=0.01480.0020 M as expected for a WD of such high temperature. The He-sdOB star is likely undergoing hydrogen shell burning and will continue transferring mass for ≈1 Myrs at a rate of 10-9 M yr-1 which is consistent with the high WD temperature. The hot subdwarf will then turn into a WD and the system will merge in ≈30 Myrs. We suggest that Galactic reddening could bias discoveries towards preferentially finding Roche lobe-filling systems during the short-lived shell burning phase. Studies using reddening corrected samples should reveal a large population of helium core-burning hot subdwarfs with T eff≈25,000 K in binaries of 60-90 minutes with WDs. Though not yet in contact, these binaries would eventually come into contact through gravitational wave emission and explode as a sub-luminous thermonuclear supernova or evolve into a massive single WD.