The GALEX Nearby Young-Star Survey

TL;DR

This paper presents a new method combining ultraviolet and infrared data to identify nearby young low-mass stars, successfully finding candidates and potential members of young stellar groups within 150 parsecs.

Contribution

The study introduces a novel approach using GALEX, WISE, and 2MASS data with proper motions and isochrones to efficiently find young, nearby low-mass stars, especially M-type.

Findings

Identified 2031 candidate young stars within 150 pc.

50% of a subset of 58 M stars are likely members of young stellar groups.

GALEX data is more sensitive than ROSAT for detecting active young stars.

Abstract

We describe a method that exploits data from the GALEX ultraviolet and WISE and 2MASS infrared source catalogs, combined with proper motions and empirical pre-main sequence isochrones, to identify candidate nearby, young, low-mass stars. Applying our method across the full GALEX- covered sky, we identify 2031 mostly M-type stars that, for an assumed age of 10 (100) Myr, all lie within ~150 (~90) pc of Earth. The distribution of M spectral subclasses among these ~2000 candidate young stars peaks sharply in the range M3-M4; these subtypes constitute 50% of the sample, consistent with studies of the M star population in the immediate solar neighborhood. We focus on a subset of 58 of these candidate young M stars in the vicinity of the Tucana-Horologium Association. Only 20 of these 58 candidates were detected in the ROSAT All-Sky X-ray Survey -- reflecting the greater sensitivity of GALEX for purposes of identifying active nearby, young stars, particularly for stars of type M4 and later. Based on statistical analysis of the kinematics and/or spectroscopic followup of these 58 M stars, we find that 50% (29 stars) indeed have properties consistent with Tuc-Hor membership, while 12 are potential new members of the Columba Association, and two may be AB Dor moving group members. Hence, ~75% of our initial subsample of 58 candidates are likely members of young (age ~10-40 Myr) stellar moving groups within 100 pc, verifying that the stellar color- and kinematics-based selection algorithms described here can be used to efficiently isolate nearby, young, low-mass objects from among the field star population. Future studies will focus on characterizing additional subsamples selected from among this list of candidate nearby, young M stars.