Identification of the Long Stellar Stream of the Prototypical Massive Globular Cluster $\omega$ Centauri.
2019
Omega Centauri is the most massive globular cluster of the Milky Way, and possesses many peculiar properties. In particular, the cluster contains distinct multiple stellar populations, with a large spread in metallicity and different kinematics as a function of light elements abundance, implying that it formed over an extended period of time. This has lead to the suggestion that $\omega$ Cen is the remnant core of an accreted dwarf galaxy. If this scenario is correct, $\omega$ Cen should be tidally limited, and one should expect to find tidal debris spread along its orbit. Here we use N-body simulations to show that the recently-discovered `Fimbulthul' structure, identified in the second data release (DR2) of the Gaia mission, is the long sought-for tidal stream of $\omega$ Cen, extending up to $28\deg$ from the cluster. Follow-up high-resolution spectroscopy of 5 stars in the stream show that they are closely-grouped in velocity, and have metallicities consistent with having originated in that cluster. Guided by our N-body simulations, we devise a selection filter that we apply to Gaia data to also uncover the portion of the stream in the highly-contaminated and crowded field within $10\deg$ of $\omega$ Cen. Further modelling of the stream may help to constrain the dynamical history of the dwarf galaxy progenitor of this disrupting system and guide future searches for its remnant stars in the Milky Way.
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