Heating Hot Atmospheres with Active Galactic Nuclei

McNamara, B. R.; Nulsen, P. E. J.

doi:10.1146/annurev.astro.45.051806.110625

Cited by 1,302 publications

(1,272 citation statements)

References 261 publications

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“…Moreover, it is difficult for the Bondi accretion to explain higher-power jets, for which other mechanisms are required (e.g., McNamara et al 2011). As has been discussed by various authors, the simple Bondi accretion has many theoretical difficulties (e.g., Pizzolato & Soker 2005;McNamara & Nulsen 2007;Gaspari et al 2011Gaspari et al , 2013Hobbs et al 2012;Yang et al 2012b). Despite these shortcomings, Bondi accretion cannot be ruled out as it could still play a role in some systems, particularly in low-power jets (Russell et al 2014) or in systems where cold gas is depleted (Gaspari et al 2015).…”

Section: Smbh Accretion and Feedback Prescriptionsmentioning

confidence: 99%

“…This implies that the radiative losses in cluster cores are balanced by some heating mechanisms, the most promising among which is feedback from active galactic nuclei (AGNs; see McNamara & Nulsen 2007, for a review). This scenario is supported by the occurrence of AGN jet-inflated X-ray cavities within all CC clustersand the fact that the cavity power (which approximates the AGN jet power) correlates with the core X-ray luminosity, suggestingthat a feedback cycle is at work (Rafferty et al 2006).…”

Section: Introductionmentioning

confidence: 99%

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Interplay Among Cooling, Agn Feedback, and Anisotropic Conduction in the Cool Cores of Galaxy Clusters

Yang

Reynolds

2016

ApJ

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Feedback from the active galactic nuclei (AGNs) is one of the most promising heating mechanisms to circumvent the cooling-flow problem in galaxy clusters. However, the role of thermal conduction remains unclear. Previous studies have shown that anisotropic thermal conduction in cluster cool cores (CCs) could drive the heat-flux-driven buoyancy instabilities (HBIs) that reorient the field lines in the azimuthal directions and isolate the cores from conductive heating from the outskirts. However, how the AGN interacts with the HBI is still unknown. To understand these interwined processes, we perform the first 3D magnetohydrodynamic simulations of isolated CC clusters that include anisotropic conduction, radiative cooling, and AGN feedback. We find the following: (1) For realistic magnetic field strengths in clusters, magnetic tension can suppress a significant portion of HBI-unstable modes, and thus the HBI is either completely inhibited or significantly impaired, depending on the unknown magnetic field coherence length. (2) Turbulence driven by AGN jets can effectively randomize magnetic field lines and sustain conductivity at ∼1/3 of the Spitzer value; however, the AGN-driven turbulence is not volumefilling. (3) Conductive heating within the cores could contribute to ∼10% of the radiative losses in Perseus-like clusters and up to ∼50% for clusters twice the mass of Perseus. (4) Thermal conduction has various impacts on the AGN activity and intracluster medium properties for the hottest clusters, which may be searched by future observations to constrain the level of conductivity in clusters. The distribution of cold gas and the implications are also discussed.

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Section: Smbh Accretion and Feedback Prescriptionsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Interplay Among Cooling, Agn Feedback, and Anisotropic Conduction in the Cool Cores of Galaxy Clusters

Yang

Reynolds

2016

ApJ

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“…The most direct evidence comes from observations of the cavities evacuated in the hot gas in the cores of galaxy clusters by radio sources (e.g., Fabian et al 2006;Birzan et al 2004;McNamara & Nulsen 2007). The sizes of the cavities and the measured gas pressure allows the amount of P ΔV work done by the radio source to be calculated, while the sound-crossing time of the cavity gives a characteristic time scale.…”

Section: Co-evolution Of Galaxies and Black Holesmentioning

confidence: 99%

The Co-Evolution of Galaxies and Black Holes: Current Status and Future Prospects

Heckman

2009

Proc. IAU

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Abstract. I begin by summarizing the evidence that there is a close relationship between the evolution of galaxies and supermassive black holes. They evidently share a common fuel source, and feedback from the black hole may be needed to suppress over-cooling in massive galaxies.I then review what we know about the co-evolution of galaxies and black holes in the modern universe (z < 1). We now have a good documentation of which black holes are growing (the lower mass ones), where they are growing (in the less massive early-type galaxies), and how this growth is related in a statistical sense to star formation in the central region of the galaxy. The opportunity in the next decade will be to use the new observatories to undertake ambitious programs of 3-D imaging spectroscopy of the stars and gas in order to understand the actual astrophysical processes that produce the demographics we observe. At high redshift (z > 2), the most massive black holes and the progenitors of the most massive galaxies are forming. Here, we currently have a tantalizing but fragmented view of their co-evolution. In the next decade, the huge increase in sensitivity and discovery power of our observatories will enable us to analyze the large, complete samples we need to achieve robust and clear results.

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“…This theoretical picture has been supported by numerous observations. The strongest evidence comes from the brightest cluster galaxies (BCGs) of cool core clusters, whose powerful radio jets have swept out cavities in the intracluster medium (ICM; Rosner & Tucker 1989;Allen et al 2001;McNamara & Nulsen 2007), while in some individual galaxies, energy transportation into the ISM via AGN-driven outflows is observed to remove gas from the central regions of the galaxy (Crenshaw et al 2003;Nesvadba et al 2007;Alexander et al 2010;Morganti et al 2013). All these show the negative effect of AGN feedback by removing/heating up the gas and eventually suppressing the star formation and regulating the galaxy growth.…”

Section: Introductionmentioning

confidence: 99%

Constraints on Feedback in the Local Universe: The Relation Between Star Formation and Agn Activity in Early-Type Galaxies

Vaddi

O’Dea

Baum

et al. 2016

ApJ

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We address the relation between star formation and active galactic nucleus (AGN) activity in a sample of 231 nearby (0.0002 < z < 0.0358) early-type galaxies by carrying out a multi-wavelength study using archival observations in the UV, IR, and radio. Our results indicate that early-type galaxies in the current epoch are rarely powerful AGNs, with P 10 WHz 22 1 < -for a majority of the galaxies. Only massive galaxies are capable of hosting powerful radio sources while less massive galaxies are hosts to lower radio power sources. Evidence of ongoing star formation is seen in approximately 7% of the sample. The star formation rate (SFR) of these galaxies is less than 0.1 M e yr −1 . They also tend to be radio faint (P 10 WHzThere is a nearly equal fraction of star-forming galaxies in radio faint (P 10 WHz 22 1 < -) and radio bright galaxies (P 10 WHz 22 1  -) suggesting that both star formation and radio mode feedback are constrained to be very low in our sample. We notice that our galaxy sample and the Brightest Cluster Galaxies follow similar trends in radio power versus SFR. This may be produced if both radio power and SFR are related to stellar mass.

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Heating Hot Atmospheres with Active Galactic Nuclei

Cited by 1,302 publications

References 261 publications

Interplay Among Cooling, Agn Feedback, and Anisotropic Conduction in the Cool Cores of Galaxy Clusters

Interplay Among Cooling, Agn Feedback, and Anisotropic Conduction in the Cool Cores of Galaxy Clusters

The Co-Evolution of Galaxies and Black Holes: Current Status and Future Prospects

Constraints on Feedback in the Local Universe: The Relation Between Star Formation and Agn Activity in Early-Type Galaxies

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