Abstract
We explored the statistical properties of short-term X-ray variability using long-exposure XMM-Newton data during high X-ray variability phases of blazars S5 0716+714 and PKS 2155-304. In general, the hardness ratio shows correlated variations with the source flux state (count rate), but in a few cases, mainly the bright phases, the trend is complex with both correlation and anti-correlation, indicating spectral evolution. Stationarity tests suggest the time series are non-stationarity or have trend stationarity. Except for one, none of the histogram fits resulted in a reduced-χ2∼1 for a normal and log-normal profile but a normal profile is favored in general. On the contrary, the Anderson–Darling test favors log-normal with a test-statistic value lower for log-normal over normal for all the observations, even if out of significance limits. None of the IDs show linear RMS-flux relation. The contrary inferences from different widely used statistical methods indicate that a careful analysis is needed while the complex behavior of count rate with hardness ratio suggests spectral evolution over a few 10 s of kilo-seconds during bright phases of the sources. In these cases, the spectrum extracted from whole observation may not be meaningful for spectral studies and certainly not a true representation of the spectral state of the source.
Highlights
Strong and rapid variability has been one of the defining criteria of blazars—active galactic nuclei with a powerful relativistic jet of plasma directed within a few degrees with our line of sight.Studies focusing on temporal flux variability have found them to be variable on all timescales accessible to us—from the shortest allowed by the observing facilities to the longest allowed by the archived data (e.g., [1])
We have shown the Bayesian blocks [27], marking significant changes in the count rate evolution with time corresponding to p = 0.075
We explored the statistical properties of short-term (300 s binned) X-ray variability of blazar S5 0716+714 and PKS 2155-304 during high variability phases using long-exposure
Summary
Strong and rapid variability has been one of the defining criteria of blazars—active galactic nuclei with a powerful relativistic jet of plasma directed within a few degrees with our line of sight. Literature refers to blazars as extreme AGNs with emission dominated almost entirely by the relativistic jet, in stark contrast with a majority of AGNs. Yet, in the terms of statistical properties of variability, they appear similar to other AGNs—stochastic variability with a statistical trend similar to those exhibited by the accretion-powered sources in general ([19,20], and references therein). In the terms of statistical properties of variability, they appear similar to other AGNs—stochastic variability with a statistical trend similar to those exhibited by the accretion-powered sources in general ([19,20], and references therein) This has ignited the study of disk-jet connection in blazars as a multiplicative combination of fluctuations in the accretion-disk has been one of the widely accepted explanations for such behavior in AGNs (and accretion-powered sources in general; e.g., [24,25]).
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