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Tracking the Evolution of Lithium in Giants Using Asteroseismology: Super-Li-rich Stars Are Almost Exclusively Young Red-clump Stars

Raghubar Singh, Bacham E. Reddy, S. W. Campbell, Yerra Bharat Kumar, Mathieu Vrard

2021The Astrophysical Journal Letters30 citationsDOIOpen Access PDF

Abstract

Abstract We report novel observational evidence on the evolutionary status of lithium-rich giant stars by combining asteroseismic and lithium abundance data. Comparing observations and models of the asteroseismic gravity-mode period spacing ΔΠ 1 , we find that super-Li-rich giants (SLRs, A (Li) > 3.2 dex) are almost exclusively young red-clump (RC) stars. Depending on the exact phase of evolution, which requires more data to refine, SLR stars are either (i) less than ∼2 Myr or (ii) less than ∼40 Myr past the main core helium flash (CHeF). Our observations set a strong upper limit for the time of the inferred Li-enrichment phase of <40 Myr post-CHeF, lending support to the idea that lithium is produced around the time of the CHeF. In contrast, the more evolved RC stars (>40 Myr post-CHeF) generally have low lithium abundances ( A (Li) <1.0 dex). Between the young, super-Li-rich phase, and the mostly old, Li-poor RC phase, there is an average reduction of lithium by about 3 orders of magnitude. This Li destruction may occur rapidly. We find the situation to be less clear with stars having Li abundances between the two extremes of super-Li-rich and Li-poor. This group, the “Li-rich” stars (3.2 > A (Li) > 1.0 dex), shows a wide range of evolutionary states.

Topics & Concepts

StarsAstrophysicsPhysicsLithium (medication)AsteroseismologyAstronomyRed clumpGiant starRed giantAbundance (ecology)MetallicityBiologyFisheryEndocrinologyStellar, planetary, and galactic studiesAstrophysics and Star Formation StudiesAstronomy and Astrophysical Research
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