The metal-poor end of the Spite plateau. 1: Stellar parameters,   metallicities and lithium abundances

L. Sbordone (1; 2; 3); P. Bonifacio (1; 2; 4); E. Caffau; (2); H.-G. Ludwig (1; 2; 5); N. T. Behara (1; 2; 6); J. I.; Gonzalez Hernandez (1; 2; 7); M. Steffen (8); R. Cayrel (9); B. Freytag; (9); C. Van't Veer (2); P. Molaro (4); B. Plez (10); T. Sivarani (11); M.; Spite (2); F. Spite (2); T. C. Beers (12); N. Christlieb (5); P. Francois; (2); V. Hill (2; 13) ((1) CIFIST Marie Curie Excellence Team; (2) GEPI -; Observatoire de Paris France; (3) Max Planck Institute for Astrophysics; Garching Germany; (4) INAF - Oss. Trieste Italy; (5) Landessternwarte; Heidelberg Germany; (6) Universite' Libre de Bruxelles Belgium; (7); Universidad Complutense de Madrid Spain; (8) Astrophysikalische Institut; Pottsdam Germany; (9) Ecole Normale Superieure de Lyon France; (10); Universite' Montpellier France; (11) Indian Institute for Astrophysiscs; Bangalore India; (12) Michigan State University USA; (13) Observatoire de la; Cote d'Azur Nice France)

arXiv:1003.4510·astro-ph.GA·May 18, 2015·231 cites

The metal-poor end of the Spite plateau. 1: Stellar parameters, metallicities and lithium abundances

L. Sbordone (1, 2, 3), P. Bonifacio (1, 2, 4), E. Caffau, (2), H.-G. Ludwig (1, 2, 5), N. T. Behara (1, 2, 6), J. I., Gonzalez Hernandez (1, 2, 7), M. Steffen (8), R. Cayrel (9), B. Freytag, (9), C. Van't Veer (2), P. Molaro (4), B. Plez (10), T. Sivarani (11), M., Spite (2)

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TL;DR

This study analyzes lithium abundances in extremely metal-poor halo dwarf stars, revealing a decline below [Fe/H]=-3 and challenging the idea of a uniform primordial lithium plateau.

Contribution

It provides a detailed analysis of lithium abundances using multiple temperature scales and advanced models, establishing the meltdown of the Spite plateau at very low metallicities.

Findings

01

Li abundance correlates positively with [Fe/H]

02

Li plateau is thin above [Fe/H]=-2.8

03

Li abundance scatter increases at lower metallicities

Abstract

We present VLT-UVES Li abundances for 28 halo dwarf stars between [Fe/H]=-2.5 and -3.5, 10 of which have [Fe/H]<-3. Four different T_eff scales have been used. Direct Infrared Flux Method (IRFM) has been used on the basis of 2MASS infrared photometry. H_alpha wings have been fitted against synthetic grids computed by means of 1D LTE atmosphere models, assuming different self-broadening theories. Finally, a grid of H_alpha profiles has been computed by means of 3D hydrodynamical atmosphere models. The Li I doublet at 670.8 nm has been used to measure A(Li) by means of 3D hydrodynamical NLTE spectral syntheses. An analytical fit of A(Li)(3D, NLTE) as a function of equivalent width, T_eff, log g, and [Fe/H] has been derived and is made available. A(Li) does not exhibit a plateau below [Fe/H]=-3. A strong positive correlation with [Fe/H] appears, not influenced by the choice of the T_eff…

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Taxonomy

TopicsStellar, planetary, and galactic studies · Astronomy and Astrophysical Research · Adaptive optics and wavefront sensing