Add to ORKGWe analyze the relations between the relative magnesium abundances in stars, [Mg/Fe], and their metallicities, Galactic orbital elements, and ages. The relative magnesium abundances in metal-poor thin-disk stars have been found to systematically decrease with increasing stellar orbital radii. This behavior suggests that, first, the star formation rate decreases with increasing Galactocentric distance and, second, there was no star formation for some time outside the solar circle while this process was continuous within the solar circle. The decrease in the star formation rate with increasing Galactocentric distance is responsible for the existence of a negative radial metallicity gradient (gradR[Fe/H]=(-0.05 ± 0.01) kpc -1) in the disk. At ...
A chromospheric age distribution of 552 late-type dwarfs is transformed into a star formation histor...
Unlike spiral galaxies such as the Milky Way, the majority of the stars in massive elliptical galaxi...
The accurate O, Mg and Fe abundances derived in previous papers of this series from a homogeneous re...
We analyze the relations between the relative magnesium abundances in stars and their metallicities,...
The space velocities and Galactic orbital elements of stars calculated from the currently available ...
International audienceContext. The abundance of α-elements relative to iron ([α/Fe]) is an important...
We analyze a sample of solar neighborhood stars that have high-quality abundance determinations and ...
We have studied 23 long-lived G dwarfs that belong to the thin disk and thick disk stellar populatio...
Context.The formation scenario of the Galactic thick disk is an unresolved problem. Chemical abunda...
Context. The radial metallicity distribution in the Galactic thin disc represents a crucial constrai...
International audienceThe analysis of the kinematics of solar neighbourhood stars shows that the low...
We have compiled a large catalogue of metallicities and abundance ratios from the literature in ord...
Context. The formation of the Galactic disc is an enthusiastically debated issue. Numerous studies a...
Using the DR12 public release of APOGEE data, we show that the thin and thick discs separate very we...
A chromospheric age distribution of 552 late-type dwarfs is transformed into a star formation histor...
Unlike spiral galaxies such as the Milky Way, the majority of the stars in massive elliptical galaxi...
The accurate O, Mg and Fe abundances derived in previous papers of this series from a homogeneous re...
We analyze the relations between the relative magnesium abundances in stars and their metallicities,...
The space velocities and Galactic orbital elements of stars calculated from the currently available ...
International audienceContext. The abundance of α-elements relative to iron ([α/Fe]) is an important...
We analyze a sample of solar neighborhood stars that have high-quality abundance determinations and ...
We have studied 23 long-lived G dwarfs that belong to the thin disk and thick disk stellar populatio...
Context.The formation scenario of the Galactic thick disk is an unresolved problem. Chemical abunda...
Context. The radial metallicity distribution in the Galactic thin disc represents a crucial constrai...
International audienceThe analysis of the kinematics of solar neighbourhood stars shows that the low...
We have compiled a large catalogue of metallicities and abundance ratios from the literature in ord...
Context. The formation of the Galactic disc is an enthusiastically debated issue. Numerous studies a...
Using the DR12 public release of APOGEE data, we show that the thin and thick discs separate very we...
A chromospheric age distribution of 552 late-type dwarfs is transformed into a star formation histor...
Unlike spiral galaxies such as the Milky Way, the majority of the stars in massive elliptical galaxi...
The accurate O, Mg and Fe abundances derived in previous papers of this series from a homogeneous re...