Based on a physical treatment of the star formation law similar to that given by Efstathiou, we have improved our two-component chemical evolution model for the Milky Way disk. Two gas infall rates are compared, one exponential, one Gaussian. It is shown that the star formation law adopted in this paper depends more strongly on the gas surface density than that in Chang et al. It has large effects on the history of star formation and gas evolution of the whole disk. In the solar neighborhood, the history of chemical evolution and star formation is not sensitive to whether the infall rate is Gaussian or exponential. For the same infall time scale, both forms predict the same behavior for the current properties of the Galactic disk. The model...
The abundance gradients and the radial gas profile of the Galactic disc are analysed by means of a m...
Aims. We aim to find a cosmologically motivated infall law to understand if the ΛCDM cosmology can r...
5noWe study the evolution of Milky Way thick and thin discs in the light of the most recent observat...
Based on a physical treatment of the star formation law similar to that given by Efstathiou, we have...
Aims. We aim to study the abundance gradients along the Galactic disk and their dependence upon seve...
Based on a simple model of the chemical evolution of the Milky Way disk, we investigate the disk oxy...
We present a new chemical evolution model for the Galaxy that assumes two main infall episodes, for ...
We present a new chemical evolution model for the Galaxy that assumes three main infall episodes of ...
Context. The distribution of chemical abundances and their variation with time are important tools ...
We develop a chemical evolution model in order to study the star formation history of the Milky Way....
We analyze the chemical properties of a set of solar vicinity stars, and show that the small dispers...
Context. The distribution of chemical abundances and their variation with time are important tools f...
The majority of chemical evolution models assume that the Galactic disk forms by means of infall of ...
Context. The majority of chemical evolution models assume that the Galactic disk forms by means of i...
We discuss the main ingredients necessary to build models of chemical evolution of spiral galaxies a...
The abundance gradients and the radial gas profile of the Galactic disc are analysed by means of a m...
Aims. We aim to find a cosmologically motivated infall law to understand if the ΛCDM cosmology can r...
5noWe study the evolution of Milky Way thick and thin discs in the light of the most recent observat...
Based on a physical treatment of the star formation law similar to that given by Efstathiou, we have...
Aims. We aim to study the abundance gradients along the Galactic disk and their dependence upon seve...
Based on a simple model of the chemical evolution of the Milky Way disk, we investigate the disk oxy...
We present a new chemical evolution model for the Galaxy that assumes two main infall episodes, for ...
We present a new chemical evolution model for the Galaxy that assumes three main infall episodes of ...
Context. The distribution of chemical abundances and their variation with time are important tools ...
We develop a chemical evolution model in order to study the star formation history of the Milky Way....
We analyze the chemical properties of a set of solar vicinity stars, and show that the small dispers...
Context. The distribution of chemical abundances and their variation with time are important tools f...
The majority of chemical evolution models assume that the Galactic disk forms by means of infall of ...
Context. The majority of chemical evolution models assume that the Galactic disk forms by means of i...
We discuss the main ingredients necessary to build models of chemical evolution of spiral galaxies a...
The abundance gradients and the radial gas profile of the Galactic disc are analysed by means of a m...
Aims. We aim to find a cosmologically motivated infall law to understand if the ΛCDM cosmology can r...
5noWe study the evolution of Milky Way thick and thin discs in the light of the most recent observat...