TY - JOUR
T1 - Discovery of ubiquitous lithium production in low-mass stars
AU - Kumar, Yerra Bharat
AU - Reddy, Bacham E.
AU - Campbell, Simon W.
AU - Maben, Sunayana
AU - Zhao, Gang
AU - Ting, Yuan Sen
N1 - Publisher Copyright:
© 2020, The Author(s), under exclusive licence to Springer Nature Limited.
PY - 2020/11
Y1 - 2020/11
N2 - The vast majority of stars with mass similar to that of the Sun are expected to destroy lithium (Li) gradually over the course of their lives, via low-temperature nuclear burning. This has now been supported by observations of hundreds of thousands of red giant stars1–5. Here we perform a large-scale systematic investigation into the Li content of stars in the red clump phase of evolution, which directly follows the red giant branch phase. Surprisingly, we find that all red clump stars have high levels of Li for their evolutionary stage, with an increase of a factor of 40 over the end of the red giant branch stage, on average. This suggests that all low-mass stars undergo an Li production phase between the tip of the red giant branch and the red clump. We demonstrate that our finding is not predicted by stellar theory, revealing a stark tension between observations and models. We also show that the well-studied1,2,4–6 very Li-rich giants, with A(Li) > +1.5 dex, represent only the extreme tail of the Li enhancement distribution, comprising 3% of red clump stars. Our findings suggest a new definition limit for Li-richness in red clump stars, A(Li) > −0.9 dex, which is much lower than the limit of A(Li) > +1.5 dex used over many decades1,5–9.
AB - The vast majority of stars with mass similar to that of the Sun are expected to destroy lithium (Li) gradually over the course of their lives, via low-temperature nuclear burning. This has now been supported by observations of hundreds of thousands of red giant stars1–5. Here we perform a large-scale systematic investigation into the Li content of stars in the red clump phase of evolution, which directly follows the red giant branch phase. Surprisingly, we find that all red clump stars have high levels of Li for their evolutionary stage, with an increase of a factor of 40 over the end of the red giant branch stage, on average. This suggests that all low-mass stars undergo an Li production phase between the tip of the red giant branch and the red clump. We demonstrate that our finding is not predicted by stellar theory, revealing a stark tension between observations and models. We also show that the well-studied1,2,4–6 very Li-rich giants, with A(Li) > +1.5 dex, represent only the extreme tail of the Li enhancement distribution, comprising 3% of red clump stars. Our findings suggest a new definition limit for Li-richness in red clump stars, A(Li) > −0.9 dex, which is much lower than the limit of A(Li) > +1.5 dex used over many decades1,5–9.
UR - http://www.scopus.com/inward/record.url?scp=85087621547&partnerID=8YFLogxK
U2 - 10.1038/s41550-020-1139-7
DO - 10.1038/s41550-020-1139-7
M3 - Article
SN - 2397-3366
VL - 4
SP - 1059
EP - 1063
JO - Nature Astronomy
JF - Nature Astronomy
IS - 11
ER -