Chemical gradients in the Milky Way from the RAVE data. I. Dwarf stars

Chemical gradients in the Milky Way from the RAVE data. I. Dwarf stars

Aim: We aim at measuring the chemical gradients of the elements Mg, Al, Si, and Fe along the Galactic radius to provide new constraints on the chemical evolution models of the Galaxy and Galaxy models such as the Besancon model. Methods: We analysed three different samples selected from three inde...

Full description

Bibliographic Details
Main Authors: Boeche, C, Siebert, A, Piffl, T, Just, A, Steinmetz, M, Sharma, S, Kordopatis, G, Gilmore, G, Chiappini, C, Williams, M, Grebel, E, Bland-Hawthorn, J, Gibson, B, Munari, U, Siviero, A, Bienaymé, O, Navarro, J, Parker, Q, Reid, W, Seabroke, G, Watson, F, Wyse, R, Zwitter, T
Format: Journal article
Language:English
Published: 2013
Description
Summary:Aim: We aim at measuring the chemical gradients of the elements Mg, Al, Si, and Fe along the Galactic radius to provide new constraints on the chemical evolution models of the Galaxy and Galaxy models such as the Besancon model. Methods: We analysed three different samples selected from three independent datasets: a sample of 19,962 dwarf stars selected from the RAVE database, a sample of 10,616 dwarf stars selected from the Geneva-Copenhagen Survey (GCS) dataset, and a mock sample (equivalent to the RAVE sample) created by using the GALAXIA code, which is based on the Besancon model. We measured the chemical gradients as functions of the guiding radius (Rg) at different distances from the Galactic plane reached by the stars along their orbit (Zmax). Results: The chemical gradients of the RAVE and GCS samples are negative and show consistent trends, although they are not equal: at Zmax<0.4 kpc and 4.5

Similar Items