Lithium in stellar atmospheres: observations and theory
L. S. Lyubimkov

TL;DR
This review examines lithium abundance in various stellar atmospheres, comparing observational data with theoretical models, highlighting discrepancies, and discussing possible sources and processes affecting lithium in stars at different evolutionary stages.
Contribution
It provides a comprehensive synthesis of observational data on stellar lithium abundances and evaluates their consistency with current theoretical models, identifying key discrepancies and potential explanations.
Findings
Old halo stars have a lithium abundance of log e(Li)=2.2, lower than primordial predictions.
Young disk stars show an initial lithium abundance of log e(Li)=3.2.
Most giants and supergiants lack lithium, consistent with rotation models.
Abstract
Of all the light elements, lithium is the most sensitive indicator of stellar evolution. This review discusses current data on the abundance of lithium in the atmospheres of A-, F-, G-, and K-stars of different types, as well as the consistency of these data with theoretical predictions. The variety of observed Li abundances is illustrated by the following objects in different stages of evolution: 1) Old stars in the galactic halo, which have a lithium abundance log e(Li)=2.2 (the "lithium plateau") that appears to be 0.5 dex lower than the primordial abundance predicted by cosmological models. 2) Young stars in the galactic disk, which have been used to estimate the contemporary initial lithium abundance log e(Li)=3.2 +/- 0.1 for stars in the Main sequence. Possible sources of lithium enrichment in the interstellar medium during evolution of the galaxy are discussed. 3) Evolving FGK…
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