Optical counterparts of ROSAT X-ray sources in two selected fields at low vs. high Galactic latitudes

TL;DR

This study demonstrates that optical variability analysis can effectively identify and classify a large number of ROSAT X-ray sources, especially at different Galactic latitudes, using archival optical data.

Contribution

It introduces a novel method using optical variability to identify X-ray sources in large surveys, complementing standard techniques.

Findings

Identified 256 probable optical counterparts of ROSAT sources.

Detected a diverse set of objects including AGN, stars, clusters, and remnants.

Confirmed correlation between X-ray emission and optical variability.

Abstract

The optical identification of large number of X-ray sources such as those from the ROSAT All-Sky Survey is challenging with conventional spectroscopic follow-up observations. We investigate two ROSAT All-Sky Survey fields of size 10 * 10 degrees each, one at galactic latitude b = 83 deg (Com), the other at b = -5 deg (Sge), in order to optically identify the majority of sources. We used optical variability, among other more standard methods, as a means of identifying a large number of ROSAT All-Sky Survey sources. All objects fainter than about 12 mag and brighter than about 17 mag, in or near the error circle of the ROSAT positions, were tested for optical variability on hundreds of archival plates of the Sonneberg field patrol. The present paper contains probable optical identifications of altogether 256 of the 370 ROSAT sources analysed. In particular, we found 126 AGN (some of them may be misclassified CVs), 17 likely clusters of galaxies, 16 eruptive double stars (mostly CVs), 43 chromospherically active stars, 65 stars brighter than about 13 mag, 7 UV Cet stars, 3 semiregular resp. slow irregular variable stars of late spectral type, 2 DA white dwarfs, 1 Am star, 1 supernova remnant and 1 planetary nebula. X-ray emission is, expectedly, tightly correlated with optical variability, and thus our new method for optically identifying X-ray sources is demonstrated to be feasible.