Magellan/M2FS Spectroscopy of the Reticulum 2 Dwarf Spheroidal Galaxy

Abstract

We present results from spectroscopic observations with the Michigan/Magellan Fiber System (M2FS) of 182 stellar targets along the line of sight to the newly-discovered `ultrafaint' object Reticulum 2 (Ret 2). For 38 of these targets, the spectra are sufficient to provide simultaneous estimates of line-of-sight velocity (v los, median random error δv los=1.3 km s-1), effective temperature (T eff, δT eff=464 K), surface gravity ( g, δ logg=0.54 dex) and iron abundance ([Fe/H], δ[Fe/H]=0.45 dex). We use these results to confirm 18 stars as members of Ret 2. From the member sample we estimate a velocity dispersion of σv los=3.6-0.6+0.9 km s-1 about a mean of v los =64.8-1.0+1.1 km s-1 in the solar rest frame ( -90.9 km s-1 in the Galactic rest frame), and a metallicity dispersion of σ [Fe/H]=0.50-0.13+0.17 dex about a mean of [Fe/H] =-2.67-0.34+0.34. These estimates marginalize over possible velocity and metallicity gradients, which are consistent with zero. Our results place Ret 2 on chemodynamical scaling relations followed by the Milky Way's dwarf-galactic satellites. Under assumptions of dynamic equilibrium and negligible contamination from binary stars---both of which must be checked with deeper imaging and repeat spectroscopic observations---the estimated velocity dispersion suggests a dynamical mass of M(R h)≈ 5R hσv los2/(2G)=2.4-0.8+1.3× 105 M enclosed within projected halflight radius R h 32 pc, with mass-to-light ratio ≈ 2M(R h)/L V=462-157+264 in solar units.