Rubidium abundances of galactic disk stars

TL;DR

This study measures rubidium abundances in a large sample of galactic disk stars, finding a consistent increase of [Rb/Fe] with decreasing [Fe/H], aligning with chemical evolution models and clarifying previous conflicting reports.

Contribution

It provides a comprehensive analysis of rubidium abundances in disk stars, addressing previous inconsistencies and refining the understanding of [Rb/Fe] behavior across metallicities.

Findings

[Rb/Fe] increases as [Fe/H] decreases.

Results are consistent between dwarfs and giants.

Contradicts earlier reports of anomalous [Rb/Fe] in M dwarfs.

Abstract

Spectroscopic determinations of Rubidium abundances were conducted by applying the spectrum fitting method to the Rb I 7800 line for an extensive sample of ~500 late-type dwarfs as well as giants (including Hyades cluster stars) belonging to the galactic disk population, with an aim of establishing the behaviour of [Rb/Fe] ratio for disk stars in the metallicity range of -0.6<[Fe/H]<+0.3. An inspection of the resulting Rb abundances for Hyades dwarfs revealed that they show a systematic Teff-dependent trend at >5500K; this means that the results for mid-G to F stars (including the Sun) are not reliable (i.e., more or less overestimated), which might be due to some imperfect treatment of surface convection in classical model atmospheres. As such, it was decided to confine only to late-G and K stars at Teff<5500K and adopt the solar-system (meteoritic) value as the reference Rb abundance. The [Rb/Fe] vs.[Fe/H] relations derived for field dwarfs and giants turned out to be consistent with each other, showing a gradual increase of [Rb/Fe] with a decrease in [Fe/H] (with d[Rb/Fe]/d[Fe/H] gradient of ~-0.4 around the solar metallicity), which is favourably compared with the theoretical prediction of chemical evolution models. Accordingly, this study could not confirm the anomalous behaviour of [Rb/Fe] ratio (tending to be subsolar but steeply increasing toward supersolar metallicity) recently reported for M dwarf stars of -0.3<[Fe/H]<+0.3.