Bibcode
Battaglia, G.; Starkenburg, E.
Bibliographical reference
Astronomy and Astrophysics, Volume 539, id.A123, 12 pp.
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3
2012
Journal
Citations
35
Refereed citations
33
Description
Dwarf galaxies provide insight into the processes of star formation and
chemical enrichment at the low end of the galaxy mass function, as well
as into the clustering of dark matter on small scales. In studies of
Local Group dwarf galaxies, spectroscopic samples of individual stars
are used to derive the internal kinematics and abundance properties of
these galaxies. It is therefore important to clean these samples from
Milky Way stars, which are not related to the dwarf galaxy, since they
can contaminate analysis of the properties of these objects. Here we
introduce a new diagnostic for separating Milky Way contaminant stars,
which mainly consist of dwarf stars, and red giant branch stars targeted
in dwarf galaxies. As discriminator we use the trends in the equivalent
width of the nIR Mg I line at 8806.8 Å as a function of the
equivalent width of Ca II triplet lines. This method is particularly
useful for works dealing with multi-object, intermediate-resolution
spectroscopy focusing in the region of the nIR Ca II triplet. We use
synthetic spectra to explore how the equivalent width of these lines
changes for stars with different properties (gravity, effective
temperature, metallicity) and find that a distinction among giants above
the horizontal branch and dwarfs can be made with this method at [Fe/H]
> -2 dex. For -2 ≤ [Fe/H] ≤ -1, this method is also valid for
distinguishing dwarfs and giants down to approximately one magnitude
below the horizontal branch. Using a foreground model we make
predictions on the use of this new discrimination method for nearby
dwarf spheroidal galaxies, including the ultra-faints. We subsequently
use VLT/FLAMES data for the Sextans, Sculptor, and Fornax dwarf
spheroidal galaxies to verify the predicted theoretical trends.
Based on FLAMES observations collected at the ESO, proposals 171.B-0588,
076.B-0391, 079.B-0435.