The Coevolution of Supermassive Black Holes and Massive Galaxies at High Redshift

Lapi, A.; Raimundo, S. I.; Aversa, Rossella; Cai, Zhen-Yi; Negrello, M.; Celotti, A.; Zotti, G. de; Danese, L.

doi:10.1088/0004-637x/782/2/69

Cited by 114 publications

(130 citation statements)

References 312 publications

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“…Such a scenario is identical to that advocated by Gruppioni et al (2013) for the population most resembling the ULIRGs we consider here, in which the number counts of various types of Herschel sources across four fields were used, along with a variety of other evidence, to deduce the evolutionary scenario for galaxies with powerful coeval starburst and AGN activity. It is also similar to the model adopted to fit a compilation of Herschel observations of X-ray AGN hosts in Lapi et al (2014). The above scenario does not preclude the possibility of additional quenching occuring due to processes associated with the star formation itself (see, e.g., Cen 2012), processes which can be quite strong in galaxies with the typical SFRs of the ULIRGs in the full SPIRE sample.…”

Section: The Role Of Agn In Starbursting Galaxiessupporting

confidence: 58%

“…This is not the first time this trend has been observed. In two different studies covering different fields, Kartaltepe et al (2010a) and Juneau et al (2013;hereafter J13) observed that the fraction of galaxies which host AGN, AGN selected by a wide variety of methods, was a strong function of L TIR (see also the review of this trend for galaxies hosting X-ray AGN in Lapi et al 2014). These samples were, however, selected at shorter wavelengths, meaning that the contamination to L TIR from the AGN was more problematic than it is in a SPIRE-selected sample.…”

Section: The Role Of Agn In Starbursting Galaxiesmentioning

confidence: 99%

“…The observed trend of increasing AGN fraction with increasing L TIR is a trend that would not be observed if the truncation process in the starburst took place over a long timescale. Such gradual quenching is also disfavored by modeling of Herschel-bright X-ray AGN hosts, in which the fraction of IR-bright starbursts amongst powerful X-ray AGN hosts is shown to be highly sensitive to the star-formation quenching timescale (Lapi et al 2014;compare, e.g., Figs. 10 and 12).…”

Section: The Role Of Agn In Starbursting Galaxiesmentioning

confidence: 99%

“…Given the efficiency of feedback mechanisms associated with luminous AGN at the peak of their activity (e.g., Harrison et al 2012a), it is natural to appeal to the AGN as the mechanism causing the cessation of star-formation activity in their ULIRG host galaxies. While a seemingly equally plausible scenario is one in which the AGN ceases its activity and, at the same time, the starburst strength drops to a lower level and continues to form stars in the absence of an AGN, the large number of both lowluminosity and powerful AGN observed with post-starburst features in their spectra or with transitional colors (Schawinski et al 2007;Georgakakis et al 2008;Hickox et al 2009;Kocevski et al 2009bKocevski et al , 2011bRumbaugh et al 2012) and the small fraction of X-ray AGN hosts detected in the FIR (see Lapi et al 2014 and references therein) strongly argues against this scenario. It still remains a possibility, however, that the power of the starburst and AGN decrease in tandem, with the AGN continuing to accrete matter, but emitting at a level below our detection limits.…”

Section: The Role Of Agn In Starbursting Galaxiesmentioning

confidence: 99%

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Hidden starbursts and active galactic nuclei at 0 < z < 4 from theHerschel-VVDS-CFHTLS-D1 field: Inferences on coevolution and feedback

Lemaux

Floc’h

Fèvre

et al. 2014

A&A

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We investigate of the properties of ∼2000 Herschel/SPIRE far-infrared-selected galaxies from 0 < z < 4 in the CFHTLS-D1 field. Using a combination of extensive spectroscopy from the VVDS and ORELSE surveys, deep multiwavelength imaging from CFHT, VLA, Spitzer, XMM-Newton, and Herschel, and well-calibrated spectral energy distribution fitting, Herschel-bright galaxies are compared to optically-selected galaxies at a variety of redshifts. Herschel-selected galaxies are observed to span a range of stellar masses, colors, and absolute magnitudes equivalent to galaxies undetected in SPIRE. Though many Herschel galaxies appear to be in transition, such galaxies are largely consistent with normal star-forming galaxies when rest-frame colors are utilized. The nature of the star-forming "main sequence" is studied and we warn against adopting this framework unless the main sequence is determined precisely. Herschel galaxies at different total infrared luminosities (L TIR ) are compared. Bluer optical colors, larger nebular extinctions, and larger contributions from younger stellar populations are observed for galaxies with larger L TIR , suggesting that low-L TIR galaxies are undergoing rejuvenated starbursts while galaxies with higher L TIR are forming a larger percentage of their stellar mass. A variety of methods are used to select powerful active galactic nuclei (AGN). Galaxies hosting all types of AGN are observed to be undergoing starbursts more commonly and vigorously than a matched sample of galaxies without powerful AGN and, additionally, the fraction of galaxies with an AGN increases with increasing star formation rate at all redshifts. At all redshifts (0 < z < 4) the most prodigious star-forming galaxies are found to contain the highest fraction of powerful AGN. For redshift bins that allow a comparison (z > 0.5), the highest L TIR galaxies in a given redshift bin are unobserved by SPIRE at subsequently lower redshifts, a trend linked to downsizing. In conjunction with other results, this evidence is used to argue for prevalent AGN-driven quenching in starburst galaxies across cosmic time.

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Section: The Role Of Agn In Starbursting Galaxiessupporting

confidence: 58%

Section: The Role Of Agn In Starbursting Galaxiesmentioning

confidence: 99%

Section: The Role Of Agn In Starbursting Galaxiesmentioning

confidence: 99%

Section: The Role Of Agn In Starbursting Galaxiesmentioning

confidence: 99%

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Hidden starbursts and active galactic nuclei at 0 < z < 4 from theHerschel-VVDS-CFHTLS-D1 field: Inferences on coevolution and feedback

Lemaux

Floc’h

Fèvre

et al. 2014

A&A

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“…In addition, it is possible that other processes such as dynamical friction and AGN feedback effects may contribute to the creation of cores in the inner regions of massive galaxies (e.g. A number of observations and black hole accretion models (e.g., Marconi et al 2004;Merloni 2004;Granato et al 2006;Lapi et al 2006;Zheng et al 2009;Silverman et al 2008;Shankar et al 2009b;Mullaney et al 2012;Lapi et al 2014) suggest some degree of correlation between black hole growth and large-scale star formation. On the other hand, a number of observational and theoretical studies are now showing that the actual coevolution may be more complex to probe observationally, possibly depending on the different evolutionary phases undergone by the host galaxies as well as AGN variability effects (e.g., Hickox et al 2014;Rodighiero et al 2015;Volonteri et al 2015;Graham 2016;Westhues et al 2016, and references therein).…”

Section: Implications For the Co-evolution Of Black Holes And Galaxiesmentioning

confidence: 99%

Selection bias in dynamically measured supermassive black hole samples: its consequences and the quest for the most fundamental relation

Shankar¹,

Bernardi²,

Sheth³

et al. 2016

Mon. Not. R. Astron. Soc.

245

369

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We compare the set of local galaxies having dynamically measured black holes with a large, unbiased sample of galaxies extracted from the Sloan Digital Sky Survey. We confirm earlier work showing that the majority of black hole hosts have significantly higher velocity dispersions σ than local galaxies of similar stellar mass. We use Monte-Carlo simulations to illustrate the effect on black hole scaling relations if this bias arises from the requirement that the black hole sphere of influence must be resolved to measure black hole masses with spatially resolved kinematics. We find that this selection effect artificially increases the normalization of the M bh -σ relation by a factor of at least ∼ 3; the bias for the M bh -M star relation is even larger. Our Monte Carlo simulations and analysis of the residuals from scaling relations both indicate that σ is more fundamental than M star or effective radius. In particular, the M bh -M star relation is mostly a consequence of the M bh -σ and σ-M star relations, and is heavily biased by up to a factor of 50 at small masses. This helps resolve the discrepancy between dynamically-based black hole-galaxy scaling relations versus those of active galaxies. Our simulations also disfavour broad distributions of black hole masses at fixed σ. Correcting for this bias suggests that the calibration factor used to estimate black hole masses in active galaxies should be reduced to values of f vir ∼ 1. Black hole mass densities should also be proportionally smaller, perhaps implying significantly higher radiative efficiencies/black hole spins. Reducing black hole masses also reduces the gravitational wave signal expected from black hole mergers.

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Primordial black hole mass functions as a probe of cosmic origin

Cai,

Tang,

et al. 2024

Sci. China Phys. Mech. Astron.

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The Coevolution of Supermassive Black Holes and Massive Galaxies at High Redshift

Cited by 114 publications

References 312 publications

Hidden starbursts and active galactic nuclei at 0 < z < 4 from theHerschel-VVDS-CFHTLS-D1 field: Inferences on coevolution and feedback

Hidden starbursts and active galactic nuclei at 0 < z < 4 from theHerschel-VVDS-CFHTLS-D1 field: Inferences on coevolution and feedback

Selection bias in dynamically measured supermassive black hole samples: its consequences and the quest for the most fundamental relation

Primordial black hole mass functions as a probe of cosmic origin

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