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Post Info TOPIC: Active galactic nuclei (AGNs)


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Posts: 131433
Date:
A new class of active galactic nuclei
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An international team of astronomers using NASAs Swift satellite and the Japanese/U.S. Suzaku X-ray observatory has discovered a new class of active galactic nuclei (AGN).
By now, youd think that astronomers would have found all the different classes of AGN extraordinarily energetic cores of galaxies powered by accreting supermassive black holes. AGN such as quasars, blazars, and Seyfert galaxies are among the most luminous objects in our Universe, often pouring out the energy of billions of stars from a region no larger than our solar system.
But by using Swift and Suzaku, the team has discovered that a relatively common class of AGN has escaped detectionuntil now. These objects are so heavily shrouded in gas and dust that virtually no light gets out.

"This is an important discovery because it will help us better understand why some supermassive black holes shine and others dont" - Jack Tueller,  astronomer and team member at NASAs Goddard Space Flight Centre in Greenbelt, Md.

Evidence for this new type of AGN began surfacing over the past two years. Using Swifts Burst Alert Telescope (BAT), a team led by Tueller has found several hundred relatively nearby AGNs that were previously missed because their visible and ultraviolet light was smothered by gas and dust. The BAT was able to detect high-energy X-rays from these heavily blanketed AGNs because, unlike visible light, high-energy X-rays can punch through thick gas and dust.
These objects might comprise about 20 percent of point sources comprising the X-ray background, a glow of X-ray radiation that pervades our Universe. NASAs Chandra X-ray Observatory has found that this background is actually produced by huge numbers of AGNs, but Chandra was unable to identify the nature of all the sources.
By missing this new class, previous AGN surveys were heavily biased, and thus gave an incomplete picture of how supermassive black holes and their host galaxies have evolved over cosmic history.

"We think these black holes have played a crucial role in controlling the formation of galaxies, and they control the flow of matter into clusters. You cant understand the universe without understanding giant black holes and what theyre doing. To complete our understanding we must have an unbiased sample" -  Jack Tueller.

The discovery paper will appear in the August 1st issue of the Astrophysical Journal Letters.

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L

Posts: 131433
Date:
Quasars with a Kick
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Title: Quasars with a Kick -- Black Hole Recoil in Quasars
Authors: G. A. Shields, E. W. Bonning, S. Salviander

Mergers of spinning black holes can give recoil velocities from gravitational radiation up to several thousand km/s. A recoiling supermassive black hole in an AGN can retain the inner part of its accretion disk, providing fuel for continuing AGN activity. Using AGN in the Sloan Digital Sky Survey (SDSS) that show velocity shifts of the broad emission lines relative to the narrow lines, we place upper limits on the incidence of high velocity recoils in AGN. Brief but powerful flares in soft X-rays may occur when bound material falls back into the moving accretion disk.

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Posts: 131433
Date:
ROXA J081009.9+384757.0
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Title: ROXA J081009.9+384757.0: a 10^{47} erg/s blazar with hard X-ray synchrotron peak or a new type of radio loud AGN?
Authors: P. Giommi, E. Massaro, P. Padovani, M. Perri, E. Cavazzuti, S. Turriziani, G. Tosti, S. Colafrancesco, G. Tagliaferri, G. Chincarini, D.N. Burrows, M. McMath Chester, N. Gehrels

We report the discovery of ROXA J081009.9+384757.0 = SDSS J081009.9+384757.0, a z=3.95 blazar with a highly unusual Spectral Energy Distribution (SED). This object was first noticed as a probable high f_x/f_r, high-luminosity blazar within the error region of a ~10^{-12} erg/s cm² ROSAT source which, however, also included a much brighter late-type star. We describe the results of a recent Swift observation that establishes beyond doubt that the correct counterpart of the X-ray source is the flat spectrum radio quasar. With a luminosity well in excess of 10^{47} erg/s, ROXA J081009.9+384757.0 is therefore one of the most luminous blazars known. We consider various possibilities for the nature of the electromagnetic emission from this source. In particular, we show that the SED is consistent with that of a blazar with synchrotron power peaking in the hard X-ray band. If this is indeed the case, the combination of high-luminosity and synchrotron peak in the hard-X-ray band contradicts the claimed anti-correlation between luminosity and position of the synchrotron peak usually referred to as the "blazar sequence". An alternative possibility is that the X-rays are not due to synchrotron emission, in this case the very peculiar SED of ROXA J081009.9+384757.0 would make it the first example of a new class of radio loud AGN.

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Posts: 131433
Date:
Blazars
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Title: Swift detection of all previously undetected blazars in a micro-wave flux-limited sample of WMAP foreground sources
Authors: P. Giommi, M. Capalbi, E. Cavazzuti, S. Colafrancesco, A. Cucchiara, A. Falcone, J. Kennea, R. Nesci, M. Perri, G. Tagliaferri, A. Tramacere, G. Tosti, A.J. Blustin, G. Branduardi-Raymont, D.N. Burrows, G. Chincarini, A.J. Dean, N. Gehrels, H. Krimm, F. Marshall, A.M. Parsons, B. Zhang

Almost the totality of the bright foreground sources in the WMAP CMB maps are blazars, a class of sources that show usually also X-ray emission. However, 23 objects in a flux-limited sample of 140 blazars of the WMAP catalogue (first year) were never reported before as X-ray sources. We present here the results of 41 Swift observations which led to the detection of all these 23 blazars in the 0.3-10 keV band. We conclude that all micro-wave selected blazars are X-ray emitters and that the distribution of the micro-wave to X-ray spectral slope \alpha_{mu x} of LBL blazars is very narrow, confirming that the X-ray flux of most blazars is a very good estimator of their micro-wave emission. The X-ray spectral shape of all the objects that were observed long enough to allow spectral analysis is flat and consistent with inverse Compton emission within the commonly accepted view where the radiation from blazars is emitted in a Synchrotron-Inverse-Compton scenario. We predict that all blazars and most radio galaxies above the sensitivity limit of the WMAP and of the Planck CMB missions are X-ray sources detectable by the present generation of X-ray satellites. An hypothetical all-sky soft X-ray survey with sensitivity of approximately 10^{-15} erg/s would be crucial to locate and remove over 100,000 blazars from CMB temperature and polarisation maps and therefore accurately clean the primordial CMB signal from the largest population of extragalactic foreground contaminants.

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Posts: 131433
Date:
SDSS J160531.84+174826.1
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Title: SDSS J160531.84+174826.1: A Dwarf Disk Galaxy With An Intermediate-Mass Black Hole
Authors: Xiaobo Dong (1,2), Tinggui Wang (1,2), Weimin Yuan (3), Hongguang Shan (3), Hongyan Zhou (1,2,4), Lulu Fan (1,2), Liming Dou (3), Huiyuan Wang (1,2), Junxian Wang (1,2), Honglin Lu (1,2) ((1) University of Science and Technology of China (USTC), (2) Joint Institute of Galaxies and Cosmology, Shanghai Observatory and USTC, (3) National Astronomical Observatories/Yunnan Observatory, Chinese Academy of Sciences, (4) University of Florida)

We report the discovery of a dwarf Seyfert 1 active galactic nucleus (AGN) with a candidate intermediate-mass black hole hosted by the dwarf galaxy SDSS J160531.84+174826.1 at z=0.032. A broad component of the H-alpha line with FWHM=781 km/s is detected in its optical spectrum, and a bright, point-like nucleus is evident from a HST imaging observation. Non-thermal X-ray emission is also detected from the nucleus. The black hole mass, as estimated from the luminosity and width of the broad H-alpha component, is about 7x10^4 \msun. The host galaxy appears to be a disk galaxy with a boxy bulge or nuclear bar; with an absolute magnitude of M_R = -17.8, it is among the least luminous host galaxies ever identified for a Seyfert 1.

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Posts: 131433
Date:
Active galactic nuclei (AGNs)
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Astronomer Lei Hao has recently found a great deal of dust.
The dust is between 0.88 and 2.4 billion light years away, in active galactic nuclei (AGNs).
By confirming that the dust exists, Hao and her team of researchers from Cornell and several other institutions have got rid of a nagging problem to the a popularly accepted theory of AGNs.
Their new evidence is published in the June 1 issue of Astrophysical Journal Letters (Vol. 625, pp. L75-L78).
The most widely accepted model of AGNs, called the unified theory, involves a basic structure: a black hole at the centre, an accretion disc around it, and a doughnut-shaped ring of dusty gas, called a torus, around the accretion disc. Jets of matter are propelled out from the centre perpendicular to the plane of the accretion disc.
The model holds that all AGNs share the same fundamental characteristics, but it allows for different radiation patterns with the premise that how an AGN looks depends on the perspective of the observer.
An AGN viewed face-on, classified as type 1, will show features from its central region; an AGN viewed from the side (type 2) will have those features obscured by the dusty torus. AGNs include quasars, which emit massive amounts of radiation; Seyfert galaxies, low-energy counterparts of quasars; and blazars, which are AGNs viewed pole-on and which show rapid variations in radiation output over short intervals.
From an observational standpoint, the model has been largely successful. But for years, a key piece of evidence has been missing. Throwing the whole theory into question.
When radiation passes through silicate dust contained in the torus, the dust grains absorb it at specific wavelengths and leave dips in the infrared spectrum around 10 and 18 microns.



When scientists observe type 2 AGNs, they recognize the silicate component of the dusty torus by the telltale 10- and 18-micron absorption dips. But in order for the unified theory to be correct, scientists looking down from the top or up from below a type 1 AGN would expect to see excess radiation from the silicate dust at 10 and 18 microns. They didn't -- and that inconsistency led some to wonder if the theory was flawed.

Hao's observations of silicate emission bands from type 1 AGNs are likely to quell those doubts.
In their paper, Hao and her colleagues describe five quasars (type 1 AGNs) for which clear bumps in infrared emissions have been discovered at 10 and 18 microns. The measurements were taken by the Spitzer Space Telescope's infrared spectrograph, which was developed by Cornell professor of astronomy James Houck and is one of three instruments on the orbiting space telescope.

"People have been expecting this feature for a long time," says Hao. And it has always been there, she adds, but nobody had recognized it until now -- partly because the Spitzer's technology is more sensitive than earlier versions and partly because other instruments didn't include a wide enough spectral range to catch the 10 and 18 micron features.

"The relative ratio between the two features can give some information on the inner temperature of the dusty torus". Those calculations are just preliminary, but finding long-sought evidence of the dust in the first place is enough to make Hao grin. "You can see, that we verified the unification model."

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