Trigonometric parallaxes of ten ultracool subdwarfs

TL;DR

This study measured precise parallaxes and proper motions for ten ultracool subdwarfs, significantly expanding the sample of benchmark objects and confirming their properties and velocities consistent with Galactic halo membership.

Contribution

First direct astrometric reduction with respect to background galaxies for ultracool subdwarfs, doubling the known benchmark sample and refining their distance and velocity measurements.

Findings

Six new parallaxes more than double the benchmark sample.

Objects exhibit high tangential velocities typical of halo stars.

Results agree with previous measurements and confirm properties of the coolest subdwarfs.

Abstract

We measured absolute trigonometric parallaxes and proper motions with respect to many background galaxies for a sample of ten ultracool subdwarfs. The observations were taken in the H-band with the OMEGA2000 camera at the 3.5m-telescope on Calar Alto, Spain during a time period of 3.5 years. For the first time, the reduction of the astrometric measurements was carried out directly with respect to background galaxies. We obtained absolute parallaxes with mean errors ranging between 1 and 3 mas. With six completely new parallaxes we more than doubled the number of benchmark ultracool (>sdM7) subdwarfs. Six stars in the M_{K_s} vs. J-K_s diagram fit perfectly to model subdwarf sequences from M7 to L4 with [M/H] between -1.0 and -1.5, whereas 4 are consistent with a moderately low metallicity ([M/H]=-0.5) from M7 to T6. All but one of our objects have large tangential velocities between 200 and 320 km/s typical of the Galactic halo population. Our results are in good agreement with recent independent measurements for three of our targets and confirm the previously measured parallax and absolute magnitude M_{K_s} of the nearest and coolest (T-type) subdwarf 2MASS 0937+29 with higher accuracy. For all targets, we also obtained infrared J,H,K_s photometry at a level of a few milli-magnitudes relative to 2MASS standards.