Multiple chemodynamic stellar populations of the Ursa Minor dwarf spheroidal galaxy

Pace, Andrew B.; Kaplinghat, Manoj; Kirby, Evan; Simon, Joshua D.; Tollerud, Erik; Munoz, Ricardo R.; Cote, Patrick; Djorgovski, George; Geha, Marla

Abstract

We present a Bayesian method to identify multiple (chemodynamic) stellar populations in dwarf spheroidal galaxies (dSphs) using velocity, metallicity, and positional stellar data without the assumption of spherical symmetry. We apply this method to a new Keck/Deep Imaging Multi-Object Spectrograph (DEIMOS) spectroscopic survey of the Ursa Minor (UMi) dSph. We identify 892 likely members, making this the largest UMi sample with line-of-sight velocity and metallicity measurements. Our Bayesian method detects two distinct chemodynamic populations with high significance (in logarithmic Bayes factor, ln B similar to 33). The metal-rich ([Fe/H] = -2.05 +/- 0.03) population is kinematically colder (radial velocity dispersion of sigma(v) =4.9(-1.0)(+0.8)km s(-1)) and more centrally concentrated than the metal-poor ([Fe/H]=-2.29(-0.06)(+0.05)) and kinematically hotter population (sigma(v)=11.5(-0.8)(+0.9)km s(-1)). Furthermore, we apply the same analysis to an independent Multiple Mirror Telescope (MMT)/Hectochelle data set and confirm the existence of two chemodynamic populations in UMi. In both data sets, the metal-rich population is significantly flattened (epsilon = 0.75 +/- 0.03) and the metal-poor population is closer to spherical (epsilon=0.33(-0.09)(+0.12)). Despite the presence of two populations, we are able to robustly estimate the slope of the dynamical mass profile. We found hints for prolate rotation of order similar to 2 km s(-1) in the MMT data set, but further observations are required to verify this. The flattened metal-rich population invalidates assumptions built into simple dynamical mass estimators, so we computed new astrophysical dark matter annihilation (J) and decay profiles based on the rounder, hotter metal-poor population and inferred log(10)(J(0 degrees.5)/GeV(2)cm(-5))approximate to 19.1 for the Keck data set. Our results paint a more complex picture of the evolution of UMi than previously discussed.

Más información

Título según WOS: Multiple chemodynamic stellar populations of the Ursa Minor dwarf spheroidal galaxy
Título de la Revista: MONTHLY NOTICES OF THE ROYAL ASTRONOMICAL SOCIETY
Volumen: 495
Número: 3
Editorial: OXFORD UNIV PRESS
Fecha de publicación: 2020
Página de inicio: 3022
Página final: 3040
DOI:

10.1093/MNRAS/STAA1419

Notas: ISI