A new way to measure the distance to NGC1052-DF2

Abstract

We employ a new way to measure the distance to NGC1052-DF2 via internal stellar velocity dispersions (σ) of its globular clusters (GCs). We obtained deep (15.1h), R=18,200, Ca Triplet integrated-light spectra for 10 GCs in NGC1052-DF2 using FLAMES GIRAFFE on VLT. For five GCs we measure σ, along with precision velocities for the whole sample. We also present a new photometric analysis based on 40 orbits of archival Hubble Space Telescope imaging for 16 spectroscopically confirmed GCs. Assuming that the NGC1052-DF2 GCs obey the MV -- log(σ) relation followed by the Milky Way and M31 GCs, the NGC1052-DF2 GCs give a distance, d=16.21.3 (stat.) 1.7 (sys.) Mpc. By contrast, using a literature distance of d=21.7 Mpc from forward modelling of the TRGB, the GCs lie above the Milky Way + M31 relation by 0.6 magnitudes. For a shorter literature distance of 13 Mpc, the GCs fall below the relation by 0.4 mag. At d = 16.2 Mpc, we obtain mean dynamical M/LV = 1.610.44 M/L, and median half-light radii, rh =3.00.5 pc. This is entirely consistent with Milky Way GCs, with mean M/LV = 1.770.10 M/L, median rh =3.20.6 pc. For the further distance of 21.7 Mpc, we obtain low M/LV ratios (M/LV = 1.190.33 M/L) which could suggest ages of 6 Gyr.. Such young ages are inconsistent with our MUSE stellar population (companion paper, Fahrion et al.) analysis of the NGC1052-DF2 GCs which indicates they are 10 Gyr old. For d = 16.2 Mpc, coupled with our new photometry, we find that the properties of the GCs in NGC1052-DF2 appear entirely consistent with those in the Milky Way and other Local Group galaxies. In order to reconcile the further distance with our results, a mass function more dwarf-depleted than the Milky Way GCs must be invoked for the GCs of NGC1052-DF2.

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