Evidence of a Black Hole in the X-Ray Transient GS 1354-64 (=BW Circini)

Abstract

We present the first radial velocity curve of the companion star to BW Cir which demonstrates the presence of a black hole in this X-ray transient which recorded outbursts in 1987 and 1997 (and possibly 1971-2). We identify weak absorption features corresponding to a G0-5III donor star, strongly veiled by a residual accretion disc which contributes 61-65 % of the total light at lambda 6300. The Doppler motions of these features trace an orbit of P=2.54448 days (or its 1-yr alias of P=2.56358 days) and velocity semi-amplitude K2=279 +- 5 km/s (or K2=292 +- 5 km/s). Both solutions are equally possible. The mass function implied by the shorter period solution is f(M)= 5.75 +- 0.30 Msun which, combined with the rotational broadening of the tidally locked companion (V sin i =71 +- 4 km/s), yields a compact object mass of M1 sin3 i = 7.34 +- 0.46 Msun. This is substantially above the mass of a neutron star under any standard equation of state of nuclear matter. The companion star is probably a G subgiant which has evolved off the main sequence in order to fill its Roche lobe. Remarkably, a distance of > 27 kpc is inferred by the companion's luminosity and this is supported by the large observed systemic velocity (gamma = 103 +- 4 km/s) which requires such a distance in order to be consistent with the Galactic rotation curve.Comment: 5 pages, 4 figures; accepted for publication in the Astrophysical Journal Letter