DOI:
DOI: https://doi.org/10.1051/0004-6361/201832787
Authors:
J. Maíz Apellániz, M. Pantaleoni González, R. H. Barbá, S. Simón-Díaz, I. Negueruela, D. J. Lennon, A. Sota, E. Trigueros Páez
Abstract:
The first Gaia Data Release (DR1) significantly improved the previously available proper motions for the majority of the
Tycho-2 stars.
Aims. We wish to detect runaway stars using Gaia DR1 proper motions and compare our results with previous searches.
Methods. Runaway O stars and BA supergiants were detected using a 2D proper motion method. The sample was selected using
Simbad, spectra from our GOSSS project, literature spectral types, and photometry processed using the code CHORIZOS.
Results. We detect 76 runaway stars, 17 (possibly 19) of them with no prior identification as such, with an estimated detection rate
of approximately one half of the real runaway fraction. An age effect appears to be present, with objects of spectral subtype B1 and
later having traveled for longer distances than runaways of earlier subtypes. We also tentatively propose that the fraction of runaways
is lower among BA supergiants that among O stars, but further studies using future Gaia data releases are needed to confirm this.
The frequency of fast rotators is high among runaway O stars, which indicates that a significant fraction of them (and possibly the
majority) is produced in supernova explosions.
URL:
https://www.aanda.org/component/article?access=doi&doi=10.1051/0004-6361/201832787
Keywords:
Surveys — Proper motions — Galaxy: structure — supergiants — Stars: kinematics and dynamics — Stars: early-type