The extent of the solar overshooting zone deduced from Li abundance

The extent of the solar overshooting zone deduced from Li abundance

Abstract Using a non-local convection theory for chemically inhomogeneous stars, a set of models of the solar convective envelope is presented in this work. The 7Li depletion as a result of convective overshooting is calculated. A model for the solar convective envelope is found which meets the obse...

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Bibliographic Details
Published in:Monthly notices of the Royal Astronomical Society Vol. 336; no. 2; pp. 511 - 519
Main Authors: Xiong, D. R., Deng, L.
Format: Journal Article
Language:English
Published: 23 Ainslie Place , Edinburgh EH3 6AJ , UK . Telephone 226 7232 Fax 226 3803 Blackwell Science Ltd 21-10-2002
Subjects:
convection
Sun: abundances
Sun: interior
convection
Sun: abundances
Sun: interior
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Summary:Abstract Using a non-local convection theory for chemically inhomogeneous stars, a set of models of the solar convective envelope is presented in this work. The 7Li depletion as a result of convective overshooting is calculated. A model for the solar convective envelope is found which meets the observational constraints from both the Li abundance and depth of the convection zone determined by helioseismology. We argue that there is no general overshooting distance that holds for all physical quantities, and the differences between them can be factors of a few. In the case of solar lithium depletion, the effective overshooting distance at the low convective boundary can be extended to 1.07HP (where HP is the local pressure scaleheight at the boundary), while the corresponding super-radiative temperature zone overshoots to 0.2HP in the sense of helioseismology, and the e-folding length for turbulent velocity and temperature is about 0.38HP for this solar model.
Bibliography:ArticleID:MNR5767
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SourceType-Scholarly Journals-1
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content type line 23
ISSN:0035-8711
1365-2966
DOI:10.1046/j.1365-8711.2002.05767.x