Dynamical constraints on the dark matter distribution in the Milky Way

Miguel Pato, Fabio Iocco, Gianfranco Bertone

Published 2015-04-23Version 1

An accurate knowledge of the dark matter distribution in the Milky Way is of crucial importance for galaxy formation studies and current searches for particle dark matter. In this paper we set new dynamical constraints on the Galactic dark matter profile by comparing the observed rotation curve, updated with a comprehensive compilation of kinematic tracers, with that inferred from a wide range of observation-based morphologies of the bulge, disc and gas. The generalised Navarro-Frenk-White (NFW) and Einasto dark matter profiles are fitted to the data in order to determine the favoured ranges of local density, slope and scale radius. For a representative baryonic model, we find a local dark matter density 0.420+0.021-0.018 (2 sigma) +- 0.025 GeV/cm^3 (0.420+0.019-0.021 (2 sigma) +- 0.026 GeV/cm^3) for NFW (Einasto), where the second error is an estimate of the systematic due to baryonic modelling. The main sources of uncertainty inside and outside the solar circle are baryonic modelling and rotation curve measurements, respectively. Astronomical observations over the coming years are expected to reduce uncertainties on both fronts.