Astron. J., 124, 3222-3240 (2002/December-0)
The Draco and Ursa Minor dwarf spheroidal galaxies: a comparative study.
BELLAZZINI M., FERRARO F.R., ORIGLIA L., PANCINO E., MONACO L. and OLIVA E.
Abstract (from CDS):
We present (V, I) photometry of two wide (≃25x25 arcmin2) fields centered on the low surface brightness dwarf spheroidal galaxies Draco and Ursa Minor. New estimates of the distance to these galaxies are provided [(m-M)0(UMi)=19.41±0.12 and (m-M)0(Dra)=19.84±0.14], and a comparative study of their evolved stellar population is presented. We detect for the first time the red giant branch (RGB) bump in the luminosity function of UMi (VbumpRGB=19.40±0.06), while the feature is not detected in Draco. Photometric metallicity distributions are obtained for the two galaxies, and an accurate analysis to determine the intrinsic metallicity spread is performed by means of artificial star experiments. The adopted method is insensitive to stars more metal poor than [Fe/H]~-2.5, and it rests on the assumption that the age spread in the considered populations is small (i.e., the impact of the actual age spread on the colors of the RGB stars is negligible). We find that while the average metallicity of the two galaxies is similar (<[Fe/H]>UMi=-1.8 and <Fe/H]>Dra=-1.7), the metallicity distributions are significantly different, having different peak values ([Fe/H]modUMi=-1.9 and [Fe/H]modDra=-1.6) and different maximum metallicities. We suggest that such differences may be partly responsible for the difference in horizontal-branch morphology between the two galaxies. The intrinsic metallicity 1 σ spread is σi=0.10 in UMi and σi=0.13 in Draco. We demonstrate that the inner region of UMi is significantly structured, at odds with what is expected for a system in dynamical equilibrium. In particular, we show that the main density peak of UMi is off-center with respect to the center of symmetry of the whole galaxy and shows a much lower ellipticity with respect to the rest of the galaxy. Moreover, UMi stars are shown to be clustered according to two different characteristic clustering scales, as opposed to Draco, which instead has a very symmetric and smooth density profile. The possible consequences of this striking structural difference on our ideas about galaxy formation are briefly discussed. Combining our distance modulus with the more recent estimates of the total luminosity of UMi, we find that the mass-to-light ratio (M/L) of this galaxy may be as low as M/L∼7, a factor of 5-10 lower than current estimates.
Cosmology: Dark Matter - Galaxies: Dwarf - Galaxies: Fundamental Parameters - Galaxies: Individual: Name: Draco - Galaxies: Individual: Name: Ursa Minor - Galaxies: Stellar Content - Galaxies: Structure - Galaxies: Local Group
VizieR on-line data:
<Available at CDS (J/AJ/124/3222): table1.dat table2.dat>
Table 1: [BFO2002] UMi NNNNN N=4439 among (Nos 10018 to 92168). Table 2: [BFO2002] Dra NNNNN N=4586 among (Nos 10069 to 91882).
View the references in ADS