The EBLM project. II. A very hot, low-mass M dwarf in an eccentric and   long period eclipsing binary system from SuperWASP

Y. G\'omez Maqueo Chew; J. C. Morales; F. Faedi; E. Garc\'ia-Melendo,; L. Hebb; F. Rodler; R. Deshpande; S. Mahadevan; J. McCormac; R. Barnes; A. H.; M. J. Triaud; M. L\'opez-Morales; I. Skillen; A. Collier Cameron; M. D.; Joner; C. D. Laney; D. C. Stephens; K. G. Stassun; P.; Monta\~n\'es-Rodr\'iguez

arXiv:1408.6900·astro-ph.SR·December 3, 2014·25 cites

The EBLM project. II. A very hot, low-mass M dwarf in an eccentric and long period eclipsing binary system from SuperWASP

Y. G\'omez Maqueo Chew, J. C. Morales, F. Faedi, E. Garc\'ia-Melendo,, L. Hebb, F. Rodler, R. Deshpande, S. Mahadevan, J. McCormac, R. Barnes, A. H., M. J. Triaud, M. L\'opez-Morales, I. Skillen, A. Collier Cameron, M. D., Joner, C. D. Laney, D. C. Stephens, K. G. Stassun, P.

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TL;DR

This study characterizes a metal-poor, eccentric eclipsing binary system with a hot, low-mass M dwarf, providing empirical data to improve understanding of low-mass stellar properties and their relation to metallicity.

Contribution

First full analysis of an EBLM binary system, establishing methodology and revealing a temperature discrepancy in low-mass M dwarfs compared to models.

Findings

01

M dwarf has a temperature ~600 K hotter than models predict

02

System is approximately 9.5 billion years old

03

Provides empirical constraints on low-mass stellar properties

Abstract

In this paper, we derive the fundamental properties of 1SWASPJ011351.29+314909.7 (J0113+31), a metal-poor (-0.40 +/- 0.04 dex), eclipsing binary in an eccentric orbit (~0.3) with an orbital period of ~14.277 d. Eclipsing M dwarfs orbiting solar-type stars (EBLMs), like J0113+31, have been identified from WASP light curves and follow-up spectroscopy in the course of the transiting planet search. We present the first binary of the EBLM sample to be fully analysed, and thus, define here the methodology. The primary component with a mass of 0.945 +/- 0.045 Msun has a large radius (1.378 +/- 0.058 Rsun) indicating that the system is quite old, ~9.5 Gyr. The M-dwarf secondary mass of 0.186 +/- 0.010 Msun and radius of 0.209 +/- 0.011 Rsun are fully consistent with stellar evolutionary models. However, from the near-infrared secondary eclipse light curve, the M dwarf is found to have an…

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Taxonomy

TopicsStellar, planetary, and galactic studies · Astronomy and Astrophysical Research · Astro and Planetary Science