We present measurements of the interferometrically-resolved binary star system 12 Com and the single giant star 31 Com in the cluster Coma Berenices. 12 Com is a double-lined spectroscopic binary system consisting of a G7 giant and an A3 dwarf at the cluster turnoff. Using an extensive radial velocity dataset and interferometric measurements from PTI and the CHARA array, we measured masses M1=2.64±0.07M⊙ and M2=2.10±0.03M⊙. Interferometry also allows us to resolve the giant, and measure its size as R1=9.12±0.12±0.01R⊙. With the measured masses and radii, we find an age of 533±41±42 Myr. For comparison, we measure the radius of 31 Com to be 8.36±0.15R⊙. Based on the photometry and radius measurements, 12 Com A is likely the most evolved bright star in the cluster, large enough to be in the red giant phase, but too small to have core helium burning. Simultaneous knowledge of 12 Com A's mass and photometry puts strong constraints on convective core overshooting during the main sequence phase, which in turn reduces systematic uncertainties in the age. Increased precision in measuring this system also improves our knowledge of the progenitor of the cluster white dwarf WD1216+260.
Cite
@article{arxiv.2304.07397,
title = {Precise Age for the Binary Star System 12 Com in the Coma Berenices Cluster},
author = {Rex Lam and Eric L. Sandquist and Gail H. Schaefer and Christopher D. Farrington and John D. Monnier and Narsireddy Anugu and Cyprien Lanthermann and Robert Klement and Jacob Ennis and Benjamin R. Setterholm and Tyler Gardner and Stefan Kraus and Claire L. Davies and Jerome A. Orosz},
journal= {arXiv preprint arXiv:2304.07397},
year = {2023}
}