Title Mapping radial abundance gradients with Gaia -ESO open clusters :
Authors Palla, M ; Magrini, L ; Spitoni, E ; Matteucci, F ; Viscasillas Vazquez, Carlos ; Franchini, M ; Molero, M ; Randich, S
DOI 10.1051/0004-6361/202451395
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Is Part of Astronomy & astrophysics.. Paris : EDP Sciences. 2024, vol. 690, art. no. A334, p. [1-18].. ISSN 0004-6361. eISSN 1432-0746
Keywords [eng] stars: abundances ; Galaxy: abundances ; Galaxy: disk ; Galaxy: evolution ; open clusters and associations: general
Abstract [eng] Context . Recent evidence from spectroscopic surveys points towards the presence of a metal-poor, young stellar population in the low- α, chemically thin disk. In this context, the investigation of the spatial distribution and time evolution of precise, unbiased abundances is fundamental to disentangle the scenarios of formation and evolution of the Galaxy. Aims. We study the evolution of abundance gradients in the Milky Way by taking advantage of a large sample of open star clusters, which are among the best tracers for this purpose. In particular, we used data from the last release of the Gaia-ESO survey. Methods. We performed a careful selection of open cluster member stars, excluding those members that may be affected by biases in spectral analysis. We compared the cleaned open cluster sample with detailed chemical evolution models for the Milky Way, using well-tested stellar yields and prescription for radial migration. We tested different scenarios of Galaxy evolution to explain the data, namely, the two-infall and the three-infall frameworks, which suggest the chemical thin disk is formed by one or two subsequent gas accretion episodes, respectively. Results. With the performed selection in cluster member stars, we still find a metallicity decrease between intermediate-age (1 < Age/Gyr < 3) and young (Age < 1 Gyr) open clusters. This decrease cannot be explained in the context of the two-infall scenario, even by accounting for the effect of migration and yield prescriptions. The three-infall framework, with its late gas accretion in the last 3 Gyr, is able to explain the low metallic content in young clusters. However, we have invoked a milder metal dilution for this gas infall episode relative to previous findings. Conclusions. To explain the observed low metallic content in young clusters, we propose that a late gas accretion episode triggering a metal dilution would have taken place, extending the framework of the three-infall model for the first time to the entire Galactic disk.
Published Paris : EDP Sciences
Type Journal article
Language English
Publication date 2024
CC license CC license description