2014
DOI: 10.1088/0004-6256/147/5/116
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Chemical Cartography With Apogee: Large-Scale Mean Metallicity Maps of the Milky Way Disk

Abstract: We present Galactic mean metallicity maps derived from the first year of the SDSS-III APOGEE experiment. Mean abundances in different zones of projected Galactocentric radius (0 < R < 15 kpc) at a range of heights above the plane (0 < |z| < 3 kpc), are derived from a sample of nearly 20,000 giant stars with unprecedented coverage, including stars in the Galactic mid-plane at large distances. We also split the sample into subsamples of stars with low-and high-[α/M] abundance ratios. We assess possible biases in… Show more

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Cited by 181 publications
(240 citation statements)
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“…Again the sample of Cepheids used in measuring the radial abundance gradients is concentrated close to the Galactic plane within | z| < 0.5 kpc (Luck & Lambert 2011). At R gc > 12 kpc and away from the midplane, the mean metallicity of about −0.3 dex and the flat radial gradient observed for the present sample of OCs is consistent with very similar values reported for field dwarfs (Cheng et al 2012) and field giants (Hayden et al 2014). These results suggest that the OCs and field stars yield consistent radial gradients if the comparison samples are drawn from the similar vertical slices.…”
Section: Radial Abundance Distribution Of Ocs and The Field Starssupporting
confidence: 89%
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“…Again the sample of Cepheids used in measuring the radial abundance gradients is concentrated close to the Galactic plane within | z| < 0.5 kpc (Luck & Lambert 2011). At R gc > 12 kpc and away from the midplane, the mean metallicity of about −0.3 dex and the flat radial gradient observed for the present sample of OCs is consistent with very similar values reported for field dwarfs (Cheng et al 2012) and field giants (Hayden et al 2014). These results suggest that the OCs and field stars yield consistent radial gradients if the comparison samples are drawn from the similar vertical slices.…”
Section: Radial Abundance Distribution Of Ocs and The Field Starssupporting
confidence: 89%
“…As a result, the initial and the present-day gradient derived for the younger populations are very similar out to 12 kpc. This fairly explains the similarity in the radial gradients observed for the younger tracers such as OCs of age less than 2 Gyr ( Figure 4 and figure 5), field stars (Cheng et al 2012;Hayden et al 2014) and Cepheids (Luck & Lambert 2011;Genovali et al 2014) for Rgc < 12 kpc. The steep gradient of slope −0.058 dex kpc −1 for stars younger than 2 Gyr in the radial range 6−11 kpc and a shallow gradient of old stellar populations predicted after taking the radial migration into account is in fair agreement with our values of gradient measured for respective age groups.…”
Section: Comparison With Chemodynamical Modelssupporting
confidence: 72%
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