Lithium in Wide Binaries: Effective Temperature Governs Depletion while Rotation Plays a Minor Role
Abstract
Using a sample of 116 wide binary systems as coeval and chemically homogeneous stellar pairs, we investigate the factors governing lithium depletion in main-sequence stars. We recover the well-established morphology of the lithium--effective temperature (Teff) relation, including the Li dip (6200--6600\,K), the Li plateau (6000--6200\,K), and a linear trend for cooler stars (Teff < 6000\,K), where lithium abundance increases by 0.15\,dex per 100\,K. We demonstrate that the apparent correlation between projected rotational velocity (v i) and lithium abundance is secondary to the underlying Teff dependence; v i is not an independent driver of lithium depletion in our sample. Notably, we identify an anomalous system within the Li dip where the primary star exhibits a 1.4\,dex lithium excess compared to its secondary companion at nearly identical Teff. We discuss two plausible origins for this anomaly: external enrichment via planetesimal accretion or planetary engulfment, and binary interactions with an unresolved tertiary companion. Our results confirm Teff as the dominant parameter controlling lithium depletion, while highlighting that additional, non-standard processes can occasionally produce significant lithium enrichment.
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