Ancient, eclipsing, tidally-locked: A blue lurker progenitor in the population of extreme-velocity star candidates

Abstract

Many extreme velocity candidate stars have been found based on Gaia astrometry, but need spectroscopic confirmation. We select late-type hypervelocity star (HVS) candidates from the Gaia DR3 catalog with a 1σ lower limit of the tangential velocity of 800 km\,s-1. J1903-0023, one of the brightest targets, stands out as high priority candidate for follow-up spectroscopy using the X-shooter instrument at ESO-VLT. We determine its atmospheric parameters and abundances utilizing synthetic spectral grids and a global 2-minimization procedure, and its stellar parameters with the help of evolutionary tracks and the spectral energy distribution. The star shows variability in its light curve and follow-up spectroscopy confirms that the star is radial-velocity variable. The spectroscopic distance of J1903-0023 is lower than that based on the parallax, indicating that the star is not a hypervelocity binary star but bound to the Galaxy. The star turned out to be of spectral type F, very similar to the extreme-velocity star J0725-2351, which we analyse in the same way as the target. Apparently, both stars are very metal poor and old halo main-sequence (sdF) stars with masses slightly below the halo turn-off mass, and share the low metallicity ([Fe/H]=-2.3,-2.6) and strong alpha enhancement ([α/Fe]0.44). While J0725-2351 is non-rotating (v\,i<3\,km\,s-1), J1903-0023 is a fast rotator (v i=42.32.0 km\,s-1). The Gaia, and ZTF light curves show an eclipse at a 1.179 day period, similar to the rotation period of J1903-0023. We therefore conclude that J1903-0023 is a high-velocity tidally-synchronised binary most likely with a metal-poor M dwarf companion.