A Quintuple Star System Containing Two Eclipsing Binaries

TL;DR

This paper reports the discovery and analysis of a rare quintuple star system with two eclipsing binaries, revealing complex orbital dynamics and potential for future observational studies.

Contribution

It provides the first detailed characterization of a quintuple system containing two eclipsing binaries and discusses its orbital architecture and physical association.

Findings

Two eclipsing binaries within a single star image.

Orbital periods of 5.1 and 13.1 days for the binaries.

Estimated orbital period of the third binary (~65 years).

Abstract

We present a quintuple star system that contains two eclipsing binaries. The unusual architecture includes two stellar images separated by 11" on the sky: EPIC 212651213 and EPIC 212651234. The more easterly image (212651213) actually hosts both eclipsing binaries which are resolved within that image at 0.09", while the westerly image (212651234) appears to be single in adaptive optics (AO), speckle imaging, and radial velocity (RV) studies. The 'A' binary is circular with a 5.1-day period, while the 'B' binary is eccentric with a 13.1-day period. The gamma velocities of the A and B binaries are different by ~10 km/s. That, coupled with their resolved projected separation of 0.09", indicates that the orbital period and separation of the 'C' binary (consisting of A orbiting B) are ~65 years and ~25 AU, respectively, under the simplifying assumption of a circular orbit. Motion within the C orbit should be discernible via future RV, AO, and speckle imaging studies within a couple of years. The C system (i.e., 212651213) has a radial velocity and proper motion that differ from that of 212651234 by only ~1.4 km/s and ~3 mas/yr. This set of similar space velocities in 3 dimensions strongly implies that these two objects are also physically bound, making this at least a quintuple star system.