Ships Passing in the Night: Spectroscopic Analysis of Two Ultra-Faint Satellites in the Constellation Carina

Abstract

We present Magellan/IMACS, Anglo-Australian Telescope/AAOmega+2dF, and Very Large Telescope/GIRAFFE+FLAMES spectroscopy of the CarinaII (Car II) & Carina III (Car III) dwarf galaxy candidates, recently discovered in the Magellanic Satellites Survey (MagLiteS). We identify 18 member stars in Car II, including 2 binaries with variable radial velocities and 2 RR Lyrae stars. The other 14 members have a mean heliocentric velocity v hel = 477.2 1.2 km/s and a velocity dispersion of σv = 3.4+1.2-0.8 km/s. Assuming Car II is in dynamical equilibrium, we derive a total mass within the half-light radius of 1.0+0.8-0.4 × 106 M, indicating a mass-to-light ratio of 369+309-161 M/L. From equivalent width measurements of the calcium triplet lines of 9 RGB stars, we derive a mean metallicity of [Fe/H] = -2.44 0.09 with dispersion σ [Fe/H] = 0.22 +0.10-0.07. Considering both the kinematic and chemical properties, we conclude that Car II is a dark-matter-dominated dwarf galaxy. For Car III, we identify 4 member stars, from which we calculate a systemic velocity of v hel = 284.6+3.4-3.1 km/s. The brightest RGB member of Car III has a metallicity of [Fe/H] = -1.97 0.12. Due to the small size of the Car III spectroscopic sample, we cannot conclusively determine its nature. Although these two systems have the smallest known physical separation ( d10~kpc) among Local Group satellites, the large difference in their systemic velocities, 200 km/s, indicates that they are unlikely to be a bound pair. One or both systems are likely associated with the Large Magellanic Cloud (LMC), and may remain LMC satellites today. No statistically significant excess of γ-rays emission is found at the locations of Car II and Car III in eight years of Fermi-LAT data.