Carbon Stars From Gaia DR3 and the Space Density of Dwarf Carbon Stars

Abstract

Carbon stars (with atmospheric C/O>1) range widely in temperature and luminosity, from low mass dwarfs to asymptotic giant branch stars (AGB). The main sequence dwarf carbon (dC) stars have inherited carbon-rich material from an AGB companion, which has since transitioned to a white dwarf. The dC stars are far more common than C giants, but no reliable estimates of dC space density have been published to date. We present results from an all-sky survey for carbon stars using the low-resolution XP spectra from Gaia DR3. We developed and measured a set of spectral indices contrasting C 2 and CN molecular band strengths in carbon stars against common absorption features found in normal (C/O<1) stars such as CaI, TiO and Balmer lines. We combined these indices with the XP spectral coefficients as input to supervised machine-learning algorithms trained on a vetted sample of known C stars from LAMOST. We describe the selection of the carbon candidate sample, and provide a catalog of 43,574 candidates dominated by cool C giants in the Magellanic Clouds and at low galactic latitude in the Milky Way. We report the confirmation of candidate C stars using intermediate (R 1800) resolution optical spectroscopy from the Fred Lawrence Whipple Observatory, and provide estimates of sample purity and completeness. From a carefully-vetted sample of over 600 dCs, we measure their local space density to be 0\,=\,1.96+0.14-0.12×10-6\,pc-3 (about one dC in every local disk volume of radius 50\,pc), with a relatively large disk scale height of Hz\,=\,856+49-43\,pc.