Dynamical Mass of the Young Brown Dwarf Companion PZ Tel B

Abstract

Dynamical masses of giant planets and brown dwarfs are critical tools for empirically validating substellar evolutionary models and their underlying assumptions. We present a measurement of the dynamical mass and an updated orbit of PZ Tel B, a young brown dwarf companion orbiting a late-G member of the β Pic moving group. PZ Tel A exhibits an astrometric acceleration between Hipparcos and Gaia EDR3, which enables the direct determination of the companion's mass. We have also acquired new Keck/NIRC2 adaptive optics imaging of the system, which increases the total baseline of relative astrometry to 15 years. Our joint orbit fit yields a dynamical mass of 27+25-9 \, MJup, semi-major axis of 27+14-4 \, au, eccentricity of 0.52+0.08-0.10, and inclination of 91.73+0.36-0.32 . The companion's mass is consistent within 1.1σ of predictions from four grids of hot-start evolutionary models. The joint orbit fit also indicates a more modest eccentricity of PZ Tel B than previous results. PZ Tel joins a small number of young (<200 \, Myr) systems with benchmark substellar companions that have dynamical masses and precise ages from moving group membership.