Segue 2: The Least Massive Galaxy
Evan N. Kirby (1), Michael Boylan-Kolchin (1), Judith G. Cohen (2),, Marla Geha (3), James S. Bullock (1), and Manoj Kaplinghat (1) ((1) UC, Irvine, (2) Caltech, (3) Yale)
TL;DR
Segue 2 is the least massive galaxy known, with detailed spectroscopic analysis revealing its properties, metallicity, and possible origins, challenging previous notions of galaxy formation and evolution.
Contribution
This study provides the most stringent velocity dispersion limits for Segue 2 and identifies it as a galaxy rather than a star cluster, offering insights into ultra-faint dwarf galaxy origins.
Findings
Velocity dispersion upper limit < 2.2 km/s
Metallicity range from -2.85 to -1.33
Possible tidal stripping or low-mass dark matter halo origin
Abstract
Segue 2, discovered by Belokurov et al. (2009), is a galaxy with a luminosity of only 900 L_sun. We present Keck/DEIMOS spectroscopy of 25 members of Segue 2--a threefold increase in spectroscopic sample size. The velocity dispersion is too small to be measured with our data. The upper limit with 90% (95%) confidence is sigma_v < 2.2 (2.6) km/s, the most stringent limit for any galaxy. The corresponding limit on the mass within the 3-D half-light radius (46 pc) is M_1/2 < 1.5 (2.1) x 10^5 M_sun. Segue 2 is the least massive galaxy known. We identify Segue 2 as a galaxy rather than a star cluster based the wide dispersion in [Fe/H] (from -2.85 to -1.33) among the member stars. The stars' [alpha/Fe] ratios decline with increasing [Fe/H], indicating that Segue 2 retained Type Ia supernova ejecta despite its presently small mass and that star formation lasted for at least 100 Myr. The mean…
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