US 708 - An unbound hyper-velocity subluminous O star
Abstract
We report the discovery of an unbound hyper-velocity star, US 708, in the Milky Way halo, with a heliocentric radial velocity of +708+-15km/s. A quantitative NLTE model atmosphere analysis of optical spectra obtained with LRIS at the Keck I telescope shows that US 708 is an extremely helium-rich (N(He)/N(H)=10) subluminous O type star with Teff=44500K, log g=5.23 at a distance of 19kpc. Its Galactic rest frame velocity is at least 751km/s, much higher than the local Galactic escape velocity indicating that the star is unbound to the Galaxy. It has been suggested that such hyper-velocity stars can be formed by the tidal disruption of a binary through interaction with the super-massive black hole (SMBH) at the Galactic centre (GC). Numerical kinematical experiments are carried out to reconstruct the path from the GC.U S 708 needs about 32Myrs to travel from the GC to its present position, less than its evolutionary lifetime. Its predicted proper motion mue(alpha) cos(delta)=-2.3mas/y and mue(delta)=-2.4mas/y should be measurable by future space missions. We conjecture that US 708 is formed by the merger of two helium white dwarfs in a close binary induced by the interaction with the SMBH in the GC and then escaped.
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