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Dynamical masses of M-dwarf binaries in young moving groups: I. The case of TWA 22 and GJ 2060

Research output: Contribution to journalArticle

  • L. Rodet
  • M. Bonnefoy
  • S. Durkan
  • H. Beust
  • A. M. Lagrange
  • J. E. Schlieder
  • M. Janson
  • A. Grandjean
  • G. Chauvin
  • S. Messina
  • A. L. Maire
  • W. Brandner
  • J. Girard
  • P. Delorme
  • C. Bergfors
  • S. Lacour
  • M. Feldt
  • T. Henning
  • A. Boccaletti
  • J. B. Le Bouquin
  • J. P. Berger
  • J. L. Monin
  • S. Udry
  • S. Peretti
  • D. Segransan
  • F. Allard
  • D. Homeier
  • A. Vigan
  • M. Langlois
  • J. Hagelberg
  • F. Menard
  • A. Bazzon
  • J. L. Beuzit
  • A. Delboulbé
  • S. Desidera
  • R. Gratton
  • J. Lannier
  • R. Ligi
  • D. Maurel
  • D. Mesa
  • M. Meyer
  • A. Pavlov
  • J. Ramos
  • R. Rigal
  • R. Roelfsema
  • G. Salter
  • M. Samland
  • T. Schmidt
  • E. Stadler
  • L. Weber

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Original languageEnglish
Article numberA23
JournalAstronomy and Astrophysics
Volume618
DOIs
StatePublished - 9 Oct 2018

Abstract

Context. Evolutionary models are widely used to infer the mass of stars, brown dwarfs, and giant planets. Their predictions are thought to be less reliable at young ages (< 200 Myr) and in the low-mass regime (< 1 M). GJ 2060 AB and TWA 22 AB are two rare astrometric M-dwarf binaries, respectively members of the AB Doradus (AB Dor) and Beta Pictoris (β Pic) moving groups. As their dynamical mass can be measured to within a few years, they can be used to calibrate the evolutionary tracks and set new constraints on the age of young moving groups. Aims. We provide the first dynamical mass measurement of GJ 2060 and a refined measurement of the total mass of TWA 22. We also characterize the atmospheric properties of the individual components of GJ 2060 that can be used as inputs to the evolutionary models. Methods. We used NaCo and SPHERE observations at VLT and archival Keck/NIRC2 data to complement the astrometric monitoring of the binaries. We combined the astrometry with new HARPS radial velocities (RVs) and FEROS RVs of GJ 2060. We used a Markov chain Monte-Carlo (MCMC) module to estimate posteriors on the orbital parameters and dynamical masses of GJ 2060 AB and TWA 22 AB from the astrometry and RVs. Complementary data obtained with the integral field spectrograph VLT/SINFONI were gathered to extract the individual near-infrared (1.1-2.5 μm) medium-resolution (R ∼ 1500-2000) spectra of GJ 2060 A and B. We compared the spectra to those of known objects and to grids of BT-SETTL model spectra to infer the spectral type, bolometric luminosities, and temperatures of those objects. Results. We find a total mass of 0.18±0.02 M for TWA 22, which is in good agreement with model predictions at the age of the β Pic moving group. We obtain a total mass of 1.09±0.10 M for GJ 2060. We estimate a spectral type of M1±0.5, L/L =-1.20±0.05 dex, and Teff = 3700±100 K for GJ 2060 A. The B component is a M3±0.5 dwarf with L/L =-1.63±0.05 dex and Teff = 3400±100 K. The dynamical mass of GJ 2060 AB is inconsistent with the most recent models predictions (BCAH15, PARSEC) for an AB Dor age in the range 50-150 Myr. It is 10%-20% (1-2σ, depending on the assumed age) above the model's predictions, corresponding to an underestimation of 0.10-0.20 M. Coevality suggests a young age for the system (∼50 Myr) according to most evolutionary models. Conclusions. TWA 22 validates the predictions of recent evolutionary tracks at ∼20 Myr. On the other hand, we evidence a 1-2σ mismatch between the predicted and observed mass of GJ 2060 AB. This slight departure may indicate that one of the stars hosts a tight companion. Alternatively, this would confirm the model's tendency to underestimate the mass of young low-mass stars.

    Research areas

  • Astrometry, Binaries: visual, Stars: individual: GJ 2060, Stars: individual: TWA 22, Stars: low-mass, Stars: pre-main sequence, Techniques: high angular resolution

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