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Free keywords:
ACTIVE GALACTIC NUCLEI; BLACK-HOLE MASS; QUASI-PERIODIC OSCILLATIONS;
DEPTH SURVEY EFEDS; TIDAL DISRUPTION; LONG-TERM; POWER-SPECTRUM;
NEUTRON-STAR; LIGHT CURVES; AGNAstronomy & Astrophysics; accretion, accretion disks; black hole physics; time; stars: variables:
general; galaxies: active;
Abstract:
Aims. During the Spectrum Roentgen Gamma (SRG)/eROSITA all-sky surveys, X-ray sources close to the South Ecliptic Pole (SEP) are observed almost every 4 h. We aim to identify the sources exhibiting the most significant long-term X-ray variability within 3 degrees of the SEP in the first three surveys, and investigate their properties.
Methods. We determined the variability significance of similar to 10(4) sources observed by eROSITA within 3 degrees of the SEP by using thresholds on the Bayesian excess variance (SCATT_LO) and the maximum amplitude deviation (AMPL_SIG). Sources exhibiting a variability significance above 3 sigma were subdivided into likely Galactic and extragalactic sources, by using spectral and photometric information of their optical counterparts. We quantified the X-ray normalised excess variances of all variable sources, and also calculated the periodograms of the brightest ones.
Results. Out of more than 10(4) X-ray sources detected by eROSITA within 3 degrees of the SEP, we identified 453 that exhibit significant X-ray variability. SCATT_LO is significantly more sensitive to detecting variable sources in this field, but AMPL_SIG helps to provide a more complete variability sample. Of those variable sources, 168 were classified as likely extragalactic, and 235 as likely Galactic. The periodograms of most bright and variable extragalactic sources are approximately described by an aliased power law (P infinity nu(-alpha)) with an index of alpha approximate to 1. We identified a potential tidal disruption event, and long-term transient sources. The stellar X-ray variability was predominantly caused by bright X-ray flares from coronally active stars.
