Astronomy and Astrophysics – Astrophysics
Scientific paper
2000-07-17
Mon.Not.Roy.Astron.Soc. 316 (2000) 827
Astronomy and Astrophysics
Astrophysics
accepted for MNRAS, 10 figures & 8 tables embedded in text
Scientific paper
We have used the HIRES echelle spectrograph in the Keck I telescope to obtain high-resolution spectroscopy of 51 late-type M dwarfs in the Hyades cluster. Cross-correlating the calibrated data against spectra of white dwarfs allows us to determine heliocentric velocities with an accuracy of +/- 0.3 km/s. Twenty seven stars were observed at two epochs in 1997; two stars, RHy 42 and RHy 403, are confirmed spectroscopic binaries. RHY 42 is a double-lined, equal-mass system; RHy 403 is a single-lined, short-period binary, P ~ 1.275 days. RHy 403A has an absolute magnitude of M_I = 10.85, consistent with a mass of 0.15 M(Sun). The systemic mass function has a value of 0.0085, which, combined with the non-detection of a secondary peak in the cross-correlation function, implies 0.095 > M_2 > 0.06 M (Sun), and the strong possibility that the companion is the first Hyades brown dwarf to be identified. Unfortunately, the maximum expected angular separation in the system is only 0.25 mas. Five other low-mass Hyads are identified as possible spectroscopic binaries, based either on repeat observations or comparison between the observed radial velocity and the value expected for Hyades cluster members. Combined with HST imaging data, we infer a binary fraction between 23 and 30 . All of the stars are chromospherically active. RHy 281 was caught in mid-flare and, based on that detection, we estimate a flaring frequency of 2.5% for low-mass Hyades stars. Nine stars have rotational velocities, v sin(i), exceeding 20 km/s and most of the sample have detectable rotation. We examine the H-alpha emission characteristics of low-mass cluster members and show that there is no evidence for a correlation with rotation.
Mahoney S.
Reid Iain Neill
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