The role of radiation pressure in lithium deficit for stars in the stage of late accretion: failure of lithium test for young stellar clusters

Shestakova L.I. Serebryanskiy A.
1 March 2024 Oxford University Press

Monthly Notices of the Royal Astronomical Society
2024 #528 Issue 4 7194 - 7201 pp.

We study the behaviour of lithium atoms in the radiation field of main-sequence (MS) stars. The radiation pressure on atoms in the resonant lines of the Li I 6708 Å doublet exceeds the gravity at T_eff > 3000 K. The lifetime of Li atoms before their ionization is sufficient to achieve the escape velocity. Free Li atoms cannot approach the pre-main sequence (PMS) and MS stars if the surrounding gas is sufficiently transparent. Accretion of small bodies (SBs) can partially restore the lithium abundance when SB directly falls on to the star in elongated orbits. In the case of accretion from discs consisting of SB fragments, when the parent bodies move in quasi-circular orbits, the boundary of the SB sublimation region plays a decisive role. Near hot stars, the free Li atom is rapidly ionized and participates in accretion on to the star in the form of ions, contributing to an increase in the Li abundance. Low-mass stars with low temperatures cannot hold lithium atoms. Near stars with Planck energy distribution in the radiation field, lithium deficiency occurs if 3000 K < T_eff < 3400 K. New stars with [Fe/H] = 0.0 may indicate a lithium deficiency at T_eff < 5000 K. Failure of the lithium test to estimate the age of a stellar cluster may indicate a significant contribution of accretion in the form of debris discs consisting of SBs.

accretion, accretion discs , stars: abundances , stars: evolution

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Fesenkov Astrophysical Institute, Observatory, 23, Almaty, 050020, Kazakhstan

Fesenkov Astrophysical Institute

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