An Eclipsing Substellar Binary in a Young Triple System discovered by SPECULOOS
Abstract
Mass, radius, and age are three of the most fundamental parameters for celestial objects, enabling studies of the evolution and internal physics of stars, brown dwarfs, and planets. Brown dwarfs are hydrogen-rich objects that are unable to sustain core fusion reactions but are supported from collapse by electron degeneracy pressure. As they age, brown dwarfs cool, reducing their radius and luminosity. Young exoplanets follow a similar behaviour. Brown dwarf evolutionary models are relied upon to infer the masses, radii and ages of these objects. Similar models are used to infer the mass and radius of directly imaged exoplanets. Unfortunately, only sparse empirical mass, radius and age measurements are currently available, and the models remain mostly unvalidated. Double-line eclipsing binaries provide the most direct route for the absolute determination of the masses and radii of stars. Here, we report the SPECULOOS discovery of 2M1510A, a nearby, eclipsing, double-line brown dwarf binary, with a widely-separated tertiary brown dwarf companion. We also find that the system is a member of the Myr-old moving group, Argus. The system's age matches those of currently known directly-imaged exoplanets. 2M1510A provides an opportunity to benchmark evolutionary models of brown dwarfs and young planets. We find that widely-used evolutionary models do reproduce the mass, radius and age of the binary components remarkably well, but overestimate the luminosity by up to 0.65 magnitudes, which could result in underestimated photometric masses for directly-imaged exoplanets and young field brown dwarfs by 20 to 35%.
Cite
@article{arxiv.2001.07175,
title = {An Eclipsing Substellar Binary in a Young Triple System discovered by SPECULOOS},
author = {Amaury H. M. J. Triaud and Adam J. Burgasser and Artem Burdanov and Vedad Kunovac Hodžić and Roi Alonso and Daniella Bardalez Gagliuffi and Laetitia Delrez and Brice-Olivier Demory and Julien de Wit and Elsa Ducrot and Frederic V. Hessman and Tim-Oliver Husser and Emmanuël Jehin and Peter P. Pedersen and Didier Queloz and James McCormac and Catriona Murray and Daniel Sebastian and Samantha Thompson and Valérie Van Grootel and Michaël Gillon},
journal= {arXiv preprint arXiv:2001.07175},
year = {2020}
}
Comments
preprint to Nature Astronomy, now with correct figures