A Sample of Candidate Radio Stars in FIRST and SDSS

TL;DR

This study searches for radio stars using combined FIRST and SDSS data, finding that genuine radio stars are extremely rare and that future sensitive surveys are needed to better understand this class of objects.

Contribution

The paper provides the first homogeneous search for low-luminosity radio stars over a large sky area, establishing upper limits on their population and identifying promising candidates for follow-up.

Findings

Very few radio stars are detected, with at most 1.2 per million stars being radio-loud.

Most candidate radio stars are likely contaminants, with a small genuine population.

Future surveys with higher sensitivity will enable detailed studies of radio stars.

Abstract

We conduct a search for radio stars by combining radio and optical data from the Faint Images of the Radio Sky at Twenty cm survey (FIRST) and the Sloan Digital Sky Survey (SDSS). The faint limit of SDSS makes possible a homogeneous search for radio emission from stars of low optical luminosity. We select a sample of 112 candidate radio stars in the magnitude range $15<i\lesssim19.1$ and with radio flux $S_{20}\geq1.25$mJy, from about 7000 deg$^2$ of sky. The selection criteria are positional coincidence within $1\arcsec$, radio and optical point source morphology, and an SDSS spectrum classified as stellar. The sample contamination is estimated by random matching to be $108\pm13$, suggesting that at most a small fraction of the selected candidates are genuine radio stars. Therefore, we rule out a very rare population of extremely radio-loud stars: no more than 1.2 of every million stars in the magnitude range $15<i<19.1$ stars has radio flux $S_{20}\geq1.25$ mJy. We investigate the optical and radio colors of the sample to find candidates that show the largest likelihood of being real radio stars. The significant outliers from the stellar locus, as well as the magnetically active stars, are the best candidates for follow-up radio observations. We conclude that, while the present wide-area radio surveys are not sensitive enough to provide homogeneous samples of the extremely rare radio stars, upcoming surveys which exploit the great sensitivity of current and planned telescopes do have sufficient sensitivity and will allow the properties of this class of object to be investigated in detail.