Astrometry and Precise Radial Velocities Yield a Complete Orbital Solution for the Nearby Eccentric Brown Dwarf LHS 1610 b
Abstract
The LHS 1610 system consists of a nearby (d=9.7 pc) M5 dwarf hosting a candidate brown dwarf companion in a 10.6 day, eccentric (e 0.37) orbit. We confirm this brown dwarf designation and estimate its mass ( 49.5-3.5+4.3 MJup ) and inclination ( 114.5 -10.0+7.4) by combining discovery radial velocities (RVs) from TRES and new RVs from the Habitable-zone Planet Finder with the available Gaia astrometric two-body solution. We highlight a discrepancy between the measurement of the eccentricity from the Gaia two-body solution (e=0.52 0.03) and the RV-only solution (e=0.37020.0003). We discuss possible reasons for this discrepancy, which can be further probed when the Gaia astrometric time series becomes available as part of Gaia DR4. As a nearby mid-M star hosting a massive short-period companion with a well-characterized orbit, LHS 1610 b is a promising target to look for evidence of sub-Alfv\'enic interactions and/or auroral emission at optical and radio wavelengths. LHS 1610 has a flare rate (0.28 0.07 flares/day) on the higher-end for its rotation period (84 8 days), similar to other mid-M dwarf systems such as Proxima Cen and YZ Ceti that have recent radio detections compatible with star-planet interactions. While available TESS photometry is insufficient to determine an orbital phase-dependence of the flares, our complete orbital characterization of this system makes it attractive to probe star-companion interactions with additional photometric and radio observations.
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