posted on 2020-09-18, 13:28authored byJack S Acton, Michael R Goad, Sarah L Casewell, José I Vines, Matthew R Burleigh, Phillip Eigmüller, Louise D Nielsen, Boris T Gänsicke, Daniel Bayliss, François Bouchy, Edward M Bryant, Samuel Gill, Edward Gillen, Maximilian N Günther, James S Jenkins, James McCormac, Maximiliano Moyano, Liam R Raynard, Rosanna H Tilbrook, Stéphane Udry, Christopher A Watson, Richard G West, Peter J Wheatley
We present the discovery of NGTS J0930-18, an extreme mass ratio eclipsing
M-dwarf binary system with an early M-dwarf primary and a late M-dwarf
secondary close to the hydrogen burning limit. Global modelling of photometry
and radial velocities reveals that the secondary component (NGTS J0930-18 B)
has a mass of M=$0.0818 ^{+0.0040}_{-0.0015}$ $M_*$ and radius of R=$0.1059
^{+0.0023}_{-0.0021}$ $R_*$, making it one of the lowest mass stars with direct
mass and radius measurements. With a mass ratio of q =$0.1407
^{+0.0065}_{-0.017}$, NGTS J0930-18 has the lowest mass ratio of any known
eclipsing M-dwarf binary system, posing interesting questions for binary star
formation and evolution models. The mass and radius of NGTS J0930-18 B is
broadly consistent with stellar evolutionary models. NGTS J0930-18 B lies in
the sparsely populated mass radius parameter space close to the substellar
boundary. Precise measurements of masses and radii from single lined eclipsing
binary systems of this type are vital for constraining the uncertainty in the
mass-radius relationship - of importance due to the growing number of
terrestrial planets being discovered around low mass stars.
History
Citation
Monthly Notices of the Royal Astronomical Society, staa2513, https://doi.org/10.1093/mnras/staa2513
Author affiliation
Department of Physics and Astronomy
Version
AM (Accepted Manuscript)
Published in
Monthly Notices of the Royal Astronomical Society
Publisher
Oxford University Press (OUP) for Royal Astronomical Society