X-Ray Variability of AGN and Relationship to Galactic Black Hole Binary Systems

McHardy, I. M.

doi:10.1007/978-3-540-76937-8_8

Cited by 44 publications

(34 citation statements)

References 81 publications

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“…It is generally believed that variable X-ray irradiation can drive optical variations by means of variable heating of the internal parts of the disk on relatively short timescales, days to weeks, while intrinsic disk instabilities in the outer parts of the disk dominate on longer timescales, months to years, propagating inwards and modulating X-ray variations in terms of Compton up-scattering in the corona (Czerny 2004;Arévalo 2006Arévalo , 2009Papadakis et al 2008;McHardy 2010).…”

Section: Discussionmentioning

confidence: 99%

Variability and the X-ray/UV ratio of active galactic nuclei

Vagnetti¹,

Turriziani²,

Trèvese

et al. 2010

A&A

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Context. The observed relation between the X-ray radiation from active galactic nuclei, originating in the corona, and the optical/UV radiation from the disk is usually described by the anticorrelation between the UV to X-ray slope α ox and the UV luminosity. Many factors can affect this relation, including: i) enhanced X-ray emission associated with the jets of radio-loud AGNs, ii) X-ray absorption associated with the UV broad absorption line (BAL) outflows, iii) other X-ray absorption not associated with BALs, iv) intrinsic X-ray weakness, v) UV and X-ray variability, and non-simultaneity of UV and X-ray observations. The separation of these effects provides information about the intrinsic α ox − L UV relation and its dispersion, constraining models of disk-corona coupling. Aims. We use simultaneous UV/X-ray observations to remove the influence of non-simultaneous measurements from the α ox − L UV relation. Methods. We extract simultaneous data from the second XMM-Newton serendipitous source catalogue (XMMSSC) and the XMM-Newton Optical Monitor Serendipitous UV Source Survey catalogue (XMMOMSUSS), and derive the single-epoch α ox indices. We use ensemble structure functions to analyse multi-epoch data.Results. We confirm the anticorrelation of α ox with L UV , and do not find any evidence of a dependence of α ox on z. The dispersion in our simultaneous data (σ ∼ 0.12) is not significantly smaller than in previous non-simultaneous studies, suggesting that "artificial α ox variability" introduced by non-simultaneity is not the main cause of dispersion. "Intrinsic α ox variability", i.e., the true variability of the X-ray to optical ratio, is instead important, and accounts for ∼30% of the total variance, or more. "Inter-source dispersion", due to intrinsic differences in the average α ox values from source to source, is also important. The dispersion introduced by variability is mostly caused by the long timescale variations, which are expected to be driven by the optical variations.

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Section: Discussionmentioning

confidence: 99%

Variability and the X-ray/UV ratio of active galactic nuclei

Vagnetti¹,

Turriziani²,

Trèvese

et al. 2010

A&A

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“…Therefore, we expect to find similarities between the properties of luminous accretion flows around stellar mass BHs in X-ray binaries (BH-XRBs; M BH ∼ 10 M ) and supermassive black holes (SMBHs) in Active Galactic Nuclei (AGN; with M BH ∼ 10 6 −10 9 M ). However, the details and reliability of the proposed scaling relations are currently not well understood (see Merloni et al 2003;Körding et al 2007;McHardy 2010, for a review).…”

Section: Introductionmentioning

confidence: 99%

“…Uttley et al 2002;Markowitz et al 2003;Vaughan et al 2003bVaughan et al , 2011McHardy et al 2006;McHardy 2010). Both AGN and BH-XRBs show "red noise" power spectra (or power spectral density, PSD) that decrease Tables 1-4 and Appendices A and B are available in electronic form at http://www.aanda.org steeply at high frequencies (short timescales) as a power law, P(ν) ∼ ν −α (where ν is temporal frequency), typically with α ≈ 2.…”

Section: Introductionmentioning

confidence: 99%

X-ray variability of 104 active galactic nuclei

González‐Martín

Vaughan

2012

A&A

197

204

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Context. Active galactic nuclei (AGN), powered by accretion onto supermassive black holes (SMBHs), are thought to be scaled up versions of Galactic black hole X-ray binaries (BH-XRBs). In the past few years evidence of such correspondence include similarities in the broadband shape of the X-ray variability power spectra, with characteristic bend times-scales scaling with mass. Aims. The aim of this project is to characterize the X-ray temporal properties of a sample of AGN to study the connection among different classes of AGN and their connection with BH-XRBs. Methods. We have performed a uniform analysis of the power spectrum densities (PSDs) of 104 nearby (z < 0.4) AGN using 209 XMM-Newton/pn observations. These PSDs span 3 decades in temporal frequencies, ranging from minutes to days. The PSDs have been estimated in three energy bands: 0.2−10 (total), 0.2−2 (soft), and 2−10 keV (hard). The sample comprises 61 Type-1 AGN, 21 Type-2 AGN, 15 NLSy1, and 7 BLLACS. We have fitted each PSD to two models: (1) a single power-law model and (2) a bending power-law model. Results. Among the entire sample, 72% show significant variability in at least one of the three bands tested. A high percentage of low-luminosity AGN do not show any significant variability (86% of LINERs). The PSD of the majority of the variable AGN was well described by a simple power-law with a mean index of α = 2.01 ± 0.01. In 15 sources we found that the bending power law model was preferred with a mean slope of α = 3.08 ± 0.04 and a mean bend frequency of ν b 2 × 10 −4 Hz. Only KUG 1031+398 (RE J1034+396) shows evidence for quasi-periodic oscillations. The "fundamental plane" relating variability timescale, black hole mass, and luminosity is demonstrated using the new X-ray timing results presented here together with a compilation of the previously detected timescales from the literature. Conclusions. Both quantitative (i.e. scaling with BH mass) and qualitative (overall PSD shapes) found in this sample of AGN are in agreement with the expectations for the SMBHs and BH-XRBs being the same phenomenon scaled-up with the size of the BH. The steep PSD slopes above the high frequency bend bear a closer resemblance to those of the "soft/thermal dominated" BH-XRB states than other states.

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“…[12]). The focus on a variable matter accretion rate shows particular promise, however [13]. Specifically, the model in which the variations are produced by disturbances propagating inward in the accretion disk and setting up fluctuations at progressively shorter time scales [14] is a good fit to the available observational evidence, foremost the finding that the amplitude of the variability is proportional to the flux (the so-called "rms-flux relation" [15,16]).…”

Section: Agn Variabilitymentioning

confidence: 99%

“…It is known, however, that the features in the PDS (breaks and QPO peaks) in galactic X-ray binaries shift in frequency depending on the (instantaneous) mass accretion rate. The question then becomes: Are these two parameters sufficient to explain the observed differences in both galactic sources and AGN, and the evidence so far seems to indicate that they are, even across the five to six orders of magnitude in mass difference [13]. Overall, while important physical characteristics might be different between these two classes of sources, such as the temperature and density of the inner accretion flow [17], it appears that AGN, in many of their observational properties, are really just scaled-up versions of galactic accretion systems.…”

Section: Interpretation Of the Pdsmentioning

confidence: 99%

The X-ray Power Density Spectrum of the Seyfert 2 Galaxy NGC 4945: Analysis and Application of the Method of Light Curve Simulations

Mueller¹

2010

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The study of the power density spectrum (PDS) of fluctuations in the X-ray flux from active galactic nuclei (AGN) complements spectral studies in giving us a view into the processes operating in accreting compact objects. An important line of investigation is the comparison of the PDS from AGN with those from galactic black hole binaries; a related area of focus is the scaling relation between time scales for the variability and the black hole mass. The PDS of AGN is traditionally modeled using segments of power laws joined together at so-called break frequencies; associations of the break

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X-Ray Variability of AGN and Relationship to Galactic Black Hole Binary Systems

Cited by 44 publications

References 81 publications

Variability and the X-ray/UV ratio of active galactic nuclei

Variability and the X-ray/UV ratio of active galactic nuclei

X-ray variability of 104 active galactic nuclei

The X-ray Power Density Spectrum of the Seyfert 2 Galaxy NGC 4945: Analysis and Application of the Method of Light Curve Simulations

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