The Orbit and Origin of the Ultra-faint Dwarf Galaxy Segue 1

Abstract

We present the first proper motion measurement for an ultra-faint dwarf spheroidal galaxy, Segue 1, using SDSS and LBC data as the first and second epochs separated by a baseline of 10 years. We obtain a motion of μα\,(δ) = -0.370.57 mas yr-1 and μδ =-3.390.58 mas yr-1. Combining this with the known line-of-sight velocity, this corresponds to a Galactocentric Vrad=849 and Vtan=164+66-55 km s-1. Applying Milky Way halo masses between 0.8 to 1.6× 1012 M results in an apocenter at 33.9+21.7-7.4 kpc and pericenter at 15.4+10.1-9.0 kpc from the Galactic center, indicating Segue~1 is rather tightly bound to the Milky Way. Since neither the orbital pole of Segue 1 nor its distance to the Milky Way is similar to the more massive classical dwarfs, it is very unlikely that Segue 1 was once a satellite of a massive known galaxy. Using cosmological zoom-in simulations of Milky Way-mass galaxies, we identify subhalos on similar orbits as Segue~1, which imply the following orbital properties: a median first infall 8.1+3.6-4.3 Gyrs ago, a median of 4 pericentric passages since then and a pericenter of 22.8+4.7-4.8 kpc. This is slightly larger than the pericenter derived directly from Segue 1 and Milky Way parameters, because galaxies with a small pericenter are more likely to be destroyed. Of the surviving subhalo analogs only 27\% were previously a satellite of a more massive dwarf galaxy (that is now destroyed), thus Segue 1 is more likely to have been accreted on its own.