Two distinct halo populations in the solar neighborhood. IV. Lithium abundances

TL;DR

This study examines lithium abundances in two halo star populations, finding no significant difference and suggesting lithium depletion over time is influenced by stellar mass and metallicity, aligning with primordial predictions.

Contribution

It provides the first detailed comparison of lithium abundances between high- and low-alpha halo stars, revealing no systematic difference and proposing a model for lithium depletion.

Findings

No significant lithium abundance difference between halo populations.

Lithium abundance correlates with stellar mass and metallicity.

Extrapolated lithium abundance aligns with Big Bang nucleosynthesis predictions.

Abstract

We investigate if there is a difference in the lithium abundances of stars belonging to two halo populations of F and G main-sequence stars previously found to differ in [alpha/Fe] for the metallicity range -1.4 < [Fe/H] < -0.7. Li abundances are derived from the LiI 6707.8 A line measured in high-resolution spectra using MARCS model atmospheres. Furthermore, masses of the stars are determined from the logTeff - logg diagram by interpolating between Yonsei-Yale evolutionary tracks. There is no significant systematic difference in the lithium abundances of high- and low-alpha halo stars. For the large majority of stars with masses 0.7 < M/M_sun < 0.9 and heavy-element mass fractions 0.001 < Z < 0.006, the Li abundance is well fitted by a relation A(Li) = a0 + a1 M + a2 Z + a3 M Z, where a0, a1, a2, and a3 are constants. Extrapolating this relation to Z = 0 leads to a Li abundance close to the primordial value predicted from standard Big Bang nucleosynthesis calculations and the WMAP baryon density. The relation, however, does not apply to stars with [Fe/H] < -1.5. We suggest that metal-rich halo stars were formed with a Li abundance close to the primordial value, and that lithium in their atmospheres has been depleted in time with an approximately linear dependence on stellar mass and Z. The lack of a systematic difference in the Li abundances of high- and low-alpha stars indicates that an environmental effect is not important for the destruction of lithium.