Bibcode
DOI
Carrera, Ricardo; Aparicio, Antonio; Martínez-Delgado, David; Alonso-García, Javier
Referencia bibliográfica
The Astronomical Journal, Volume 123, Issue 6, pp. 3199-3209.
Fecha de publicación:
6
2002
Número de citas
132
Número de citas referidas
114
Descripción
As a part of a project devoted to the study of the Ursa Minor dwarf
spheroidal (dSph) galaxy, the star formation history of the galaxy is
presented. The analysis uses wide-field photometry, encompassing about
1°×1° (the total covered area being 0.75 deg2),
which samples the galaxy out to its tidal radius. Derivation of the star
formation history (SFH) has been performed using the synthetic
partial-model technique. The resulting SFH shows that Ursa Minor hosts a
predominantly old stellar population, with virtually all the stars
having formed earlier than 10 Gyr ago and 90% having formed more than 13
Gyr ago. Nevertheless, the Ursa Minor color-magnitude diagram shows
several stars above the main, old turnoff forming a blue plume (BP). If
these stars were genuine main-sequence stars, Ursa Minor would have
maintained a low star formation rate extending up to ~2 Gyr ago.
However, several indications (relative amount and spatial distribution
of BP stars and difficulty of retaining processed gas) argue against
this possibility. In such a context, the most reliable hypothesis is
that BP stars are blue stragglers originating in the old population,
with Ursa Minor hence remaining the only Milky Way dSph satellite to
host a pure old stellar population. A marginally significant age
gradient is detected, in the sense that stars in outer regions are
slightly younger on average. The distance of Ursa Minor has been
calculated using the magnitude of the horizontal branch and a
calibration based on Hipparcos data for main-sequence subdwarfs. We
estimate a distance of 76+/-4 kpc, which is slightly higher than
previous estimates. From the red giant branch color, we estimate a
metallicity [Fe/H]=-1.9+/-0.2, in agreement with a previous
spectroscopic determination. No metallicity gradients have been detected
across the galaxy.