The Mass and Radius of the Unseen M-Dwarf Companion in the Single-Lined Eclipsing Binary HAT-TR-205-013

Abstract

We derive masses and radii for both components in the single-lined eclipsing binary HAT-TR-205-013, which consists of a F7V primary and a late M-dwarf secondary. The system's period is short, P=2.230736 0.000010 days, with an orbit indistinguishable from circular, e=0.012 0.021. We demonstrate generally that the surface gravity of the secondary star in a single-lined binary undergoing total eclipses can be derived from characteristics of the light curve and spectroscopic orbit. This constrains the secondary to a unique line in the mass-radius diagram with M/R2 = constant. For HAT-TR-205-013, we assume the orbit has been tidally circularized, and that the primary's rotation has been synchronized and aligned with the orbital axis. Our observed line broadening, V rot i rot = 28.9 1.0 , gives a primary radius of R A = 1.28 0.04 . Our light curve analysis leads to the radius of the secondary, R B = 0.167 0.006 , and the semimajor axis of the orbit, a = 7.54 0.30 = 0.0351 0.0014 AU. Our single-lined spectroscopic orbit and the semimajor axis then yield the individual masses, M B = 0.124 0.010 and M A = 1.04 0.13 . Our result for HAT-TR-205-013 B lies above the theoretical mass-radius models from the Lyon group, consistent with results from double-lined eclipsing binaries. The method we describe offers the opportunity to study the very low end of the stellar mass-radius relation.