A Deep Chandra X-ray Limit on the Putative IMBH in Omega Centauri

Abstract

We report a sensitive X-ray search for the proposed intermediate mass black hole (IMBH) in the massive Galactic cluster, Omega Centauri (NGC 5139). Combining Chandra X-ray Observatory data from Cycles 1 and 13, we obtain a deep (~291 ks) exposure of the central regions of the cluster. We find no evidence for an X-ray point source near any of the cluster's proposed dynamical centers, and place an upper limit on the X-ray flux from a central source of fX(0.5-7.0 keV) <= 5.0x10-16 erg cm-2 s-1, after correcting for absorption. This corresponds to an unabsorbed X-ray luminosity of LX(0.5-7.0 keV) <= 1.6x1030 erg s-1, for a cluster distance of 5.2 kpc, Galactic column density NH = 1.2x1021 cm-2, and powerlaw spectrum with Gamma = 2.3. If a ~104 Msun IMBH resides in the cluster's core, as suggested by some stellar dynamical studies, its Eddington luminosity would be LEdd ~1042 erg s-1. The new X-ray limit would then establish an Eddington ratio of LX/LEdd <~ 10-12, a factor of ~10 lower than even the quiescent state of our Galaxy's notoriously inefficient supermassive black hole Sgr A*, and imply accretion efficiencies as low as eta <~ 10-6 - 10-8. This study leaves open three possibilities: either Omega Cen does not harbor an IMBH or, if an IMBH does exist, it must experience very little or very inefficient accretion.