Omega Centauri: Nucleus of a Milky Way Dwarf Spheroidal?

Abstract

We focus on two aspects of Omega Cen that are rather uncharacteristic of globular clusters: its metallicity distribution and its orbit. We use (1) a Washington (M-T2,M)o color-magnitude diagram containing 130,000 stars, (2) DDO51 photometry to separate out giants from field dwarfs, and (3) a mapping of (M-T2,M-DDO51)o colors to [Fe/H] to derive a metallicity distribution function (MDF) for Omega Cen. The MDF is corrected for field giant contamination by a radial velocity membership study of a subsample of stars spanning all abundances. As with previous studies, the MDF is very wide with a peak near [Fe/H]=-1.7 and extending to both higher and lower abundance, but with few stars having [Fe/H] >~ -1.2. The orbit of Omega Cen is strongly retrograde, has small apogalacticon and is almost coplanar with the Milky Way disk -- i.e., an orbit unlike any known for almost all Galactic globular clusters, and unique among clusters with its horizontal branch type and [Fe/H]. We propose that the MDF and orbit of Omega Cen, when considered in light of other unusual Omega Cen properties are consistent with a picture wherein this object is the remains (nucleus) of a once larger satellite dwarf galaxy that has been substantially reduced by tidal stripping. A model wherein Omega Cen faced considerable stripping by the Galactic disk can account for the cluster's current state. A present-day counterpart of this process may be the Sagittarius dSph system, for which the globular cluster M54 (which has a mass similar to Omega Cen) has been purported to be the nucleus. A larger proto-Omega Cen on a retrograde orbit plowing through the Milky Way disk may have aided thick disk formation both through the contribution of tidally stripped stars and through substantial thin disk heating.

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