Thanks to the uncovered evolutionary stages and determined Li abundances based on the asteroseismic analysis and spectroscopic survey, respectively, Dr. Jinghua Zhang, the first author of the paper, together with collaborators, was able to investigate the signatures of Li for stars evolving from the RGB to the HeB phase with the 1848 giants selected in the LAMOST-Kepler/K2 fields.

They find that the stars at RGB phase show natural depletion along with their evolution; particularly, there are no obvious crowd stars with anomalously high Li abundances near the bump. While during the HeB phase, there is no indication of obvious Li depletion.

Furthermore, the Li abundances of most of the low-mass stars that have just start their HeB phase (zero-age HeB, ZAHeB) shows an increase compared to the stars above the RGB bump (Figure). It suggests that the helium flash, which happens between the phases of RGB and HeB, may lead to moderate Li production.

A previous theoretical study has speculated that helium flash may produce Li, while this work has just confirmed their inference from observations, and also provides a constraint on the amount of Li produced during helium flash.

However, the standard helium flash model cannot explain the high Li abundance in (super) Li-rich stars given that the Li abundances of most low-mass ZAHeB stars are still lower than the lower limit of Li-rich stars in a classic definition (Figure). For (super) Li-rich stars, some special mechanisms should be considered during helium flash. Other scenarios, such as mergers, could also be sources given that Li-rich stars can be found at any time during the steady-state phase of HeB.

Figure: Li abundances versus mass for stars locating above the RGB bump and HeB stars within reach of ZAHeB edge. The horizontal line denotes the lower limit of Li enhancement. (Credit: Jinghua Zhang)