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Segue 3: An Old, Extremely Low Luminosity Star Cluster in the Milky Way's Halo

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Authors

Fadely, Ross
Willman, Beth
Geha, Marla
Walsh, Shance
Munoz, Ricardo
Jerjen, Helmut
Vargas, Luis
Da Costa, Gary

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University of Chicago Press

Abstract

We investigate the kinematic and photometric properties of the Segue 3 Milky Way companion using Keck/DEIMOS spectroscopy and Magellan/IMACS g- and r-band imaging. Using maximum likelihood methods to analyze the photometry, we study the structure and stellar population of Segue 3. We find that the half-light radius of Segue 3 is 26″ ±5″ (2.1 ±0.4pc, for a distance of 17kpc) and the absolute magnitude is a mere MV = 0.0 ± 0.8 mag, making Segue 3 the least luminous old stellar system known. We find Segue 3 to be consistent with a single stellar population, with an age of 12.0+1.5- 0.4 Gyr and an [Fe/H] of -1.7 +0.07- 0.27. Line-of-sight velocities from the spectra are combined with the photometry to determine a sample of 32 stars which are likely associated with Segue 3. The member stars within three half-light radii have a velocity dispersion of 1.2 ± 2.6kms-1. Photometry of the members indicates that the stellar population has a spread in [Fe/H] of ≲ 0.3 dex. These facts, together with the small physical size of Segue 3, imply the object is likely an old, faint stellar cluster which contains no significant dark matter. We find tentative evidence for stellar mass loss in Segue 3 through the 11 candidate member stars outside of three half-light radii, as expected from dynamical arguments. Interpretation of the data outside of three half-light radii is complicated by the object's spatial coincidence with a previously known halo substructure, which may enhance contamination of our member sample.

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Astronomical Journal

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Open Access

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