The K2 M67 Study: A Curiously Young Star in an Eclipsing Binary in an Old Open Cluster

TL;DR

This study analyzes a unique binary star in the old open cluster M67, revealing a star likely formed from a merger, which challenges standard stellar evolution models and suggests complex dynamical histories.

Contribution

It provides precise measurements of stellar parameters in a binary system and proposes a merger origin for the primary star, offering new insights into stellar evolution in clusters.

Findings

Primary star is 15% smaller than models predict.

Secondary star's radius agrees with theory.

Primary likely formed from a stellar merger.

Abstract

We present an analysis of a slightly eccentric ($e=0.05$), partially eclipsing long-period ($P = 69.73$ d) main sequence binary system (WOCS 12009, Sanders 1247) in the benchmark old open cluster M67. Using Kepler K2 and ground-based photometry along with a large set of new and reanalyzed spectra, we derived highly precise masses ($1.111\pm0.015$ and $0.748\pm0.005 M_\odot$) and radii ($1.071\pm0.008\pm0.003$ and $0.713\pm0.019\pm0.026 R_\odot$, with statistical and systematic error estimates) for the stars. The radius of the secondary star is in agreement with theory. The primary, however, is approximately $15\%$ smaller than reasonable isochrones for the cluster predict. Our best explanation is that the primary star was produced from the merger of two stars, as this can also account for the non-detection of photospheric lithium and its higher temperature relative to other cluster main sequence stars at the same $V$ magnitude. To understand the dynamical characteristics (low measured rotational line broadening of the primary star and the low eccentricity of the current binary orbit), we believe that the most probable (but not the only) explanation is the tidal evolution of a close binary within a primordial triple system (possibly after a period of Kozai-Lidov oscillations), leading to merger approximately 1Gyr ago. This star appears to be a future blue straggler that is being revealed as the cluster ages and the most massive main sequence stars die out.