http://arxiv.org/abs/1604.01279
We report on the direct detection from observations obtained with the APOGEE survey of a metal-poor ([Fe/H]$=-1.3$) field giant star in the Milky Way, with an extreme Mg-Al abundance ([Mg/Fe]$=$-0.31; [Al/Fe]$=$1.49) seen only among the secondary population of globular clusters. This star, 2M16011638-1201525 found using SDSSIII/APOGEE data also shows particularly atypical light-element patterns not seen among Galactic disk field stars, indicating that it could have been born in a globular cluster. We explore several explanations, in particular studying the orbit of the star to check the probability of it being related to known globular clusters. With the use of a Monte Carlo scheme, we performed simple orbital integrations assuming the estimated distance of 2M16011638-1201525 and the available six-dimensional phase-space coordinates of 63 globular clusters, looking for close encounters in the past with a minimum distance approach within the tidal radius for each cluster. We found a very low probability that 2M16011638-1201525 was ejected from most globular clusters; but, we note that the best progenitor candidate to host this star is globular cluster $\omega$ Centauri (also known as NGC 5139). However, our dynamical studies demonstrate that 2M16011638-1201525 reaches a distance $|Z_{max}| < 3 $ kpc from the Galactic plane and a minimum approach to the Galactic center of $R_{min}<0.62$ kpc in an eccentric ($e\sim0.53$) and retrograde orbit, raising the possibility that this star has been dynamically ejected into the Milky Way disk from the halo.
J. Fernandez-Trincado, A. Robin, E. Moreno, et. al.
Wed, 6 Apr 16
27/63
Comments: Submitted to ApJL, Manuscript # LET33794, Submission Date 2016-04-05 07:46:07. 8 pages, 3 figures, 2 tables. To facilitate the reproducibility and reuse of our results, we have made all the simulations available in a public repository at this https URL
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