Bibcode
Recio-Blanco, A.; de Laverny, P.; Allende Prieto, C.; Fustes, D.; Manteiga, M.; Arcay, B.; Bijaoui, A.; Dafonte, C.; Ordenovic, C.; Ordoñez Blanco, D.
Referencia bibliográfica
Astronomy and Astrophysics, Volume 585, id.A93, 22 pp.
Fecha de publicación:
1
2016
Revista
Número de citas
70
Número de citas referidas
63
Descripción
Context. Among the myriad of data collected by the ESA Gaia satellite,
about 150 million spectra will be delivered by the Radial Velocity
Spectrometer (RVS) for stars as faint as GRVS~ 16. A specific
stellar parametrization will be performed on most of these RVS spectra,
i.e. those with enough high signal-to-noise ratio (S/N), which should
correspond to single stars that have a magnitude in the RVS band
brighter than ~14.5. Some individual chemical abundances will also be
estimated for the brightest targets. Aims: We describe the
different parametrization codes that have been specifically developed or
adapted for RVS spectra within the GSP-Spec working group of the
analysis consortium. The tested codes are based on optimisation (FERRE
and GAUGUIN), projection (MATISSE), or pattern-recognition methods
(Artificial Neural Networks). We present and discuss each of their
expected performances in the recovered stellar atmospheric parameters
(effective temperature, surface gravity, overall metallicity) for B- to
K-type stars. The performances for determining of [α/Fe] ratios
are also presented for cool stars. Methods: Each code has been
homogeneously tested with a large grid of RVS simulated synthetic
spectra of BAFGK-spectral types (dwarfs and giants), with metallicities
varying from 10-2.5 to 10+ 0.5 the solar
metallicity, and taking variations of ±0.4 dex in the composition
of the α-elements into consideration. The tests were performed for
S/N ranging from ten to 350. Results: For all the stellar types
we considered, stars brighter than GRVS~ 12.5 are very
efficiently parametrized by the GSP-Spec pipeline, including reliable
estimations of [α/Fe]. Typical internal errors for FGK metal-rich
and metal-intermediate stars are around 40 K in Teff, 0.10
dex in log(g), 0.04 dex in [M/H], and 0.03 dex in [α/Fe] at
GRVS = 10.3. They degrade to 155 K in Teff, 0.15
dex in log(g), 0.10 dex in [M/H], and 0.1 dex in [α/Fe] at
GRVS~ 12. Similar accuracies in Teff and [M/H] are
found for A-type stars, while the log(g) derivation is more accurate
(errors of 0.07 and 0.12 dex at GRVS = 12.6 and 13.4,
respectively). For the faintest stars, with GRVS≳ 13-14,
a Teff input from the spectrophotometric-derived parameters
will allow the final GSP-Spec parametrization to be improved.
Conclusions: The reported results, while neglecting possible mismatches
between synthetic and real spectra, show that the contribution of the
RVS-based stellar parameters will be unique in the brighter part of the
Gaia survey, which allows for crucial age estimations and accurate
chemical abundances. This will constitute a unique and precious sample,
providing many pieces of the Milky Way history puzzle with unprecedented
precision and statistical relevance.