2014
DOI: 10.1093/mnras/stu432
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High-redshift supermassive black holes: accretion through cold flows

Abstract: We use zoom-in techniques to re-simulate three high-redshift (z ≥ 5.5) halos which host 10 9 solar mass blackholes from the ∼ Gpc volume, MassiveBlack cosmological hydrodynamic simulation. We examine a number of factors potentially affecting supermassive blackhole growth at high redshift in cosmological simulations. These include numerical resolution, feedback prescriptions and formulation of smoothed particle hydrodynamics. We find that varying the size of the region over which feedback energy is deposited di… Show more

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Cited by 54 publications
(56 citation statements)
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“…This also allows us to make predictions for the most massive black holes to be discovered in the near future. Large volume simulations such as MassiveBlack (Di Matteo et al 2012) and associated high-resolutions zooms (Feng et al 2014) already showed that the existence of the z = 6 SDSS quasar population, is consistent with our standard structure formation models. Crucially, the BlueTidessimulation with its increased resolution, allows us to study reliably the formation of massive black holes at even earlier times.…”
Section: Introductionsupporting
confidence: 79%
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“…This also allows us to make predictions for the most massive black holes to be discovered in the near future. Large volume simulations such as MassiveBlack (Di Matteo et al 2012) and associated high-resolutions zooms (Feng et al 2014) already showed that the existence of the z = 6 SDSS quasar population, is consistent with our standard structure formation models. Crucially, the BlueTidessimulation with its increased resolution, allows us to study reliably the formation of massive black holes at even earlier times.…”
Section: Introductionsupporting
confidence: 79%
“…Here we have focussed our analysis on the massive galaxies and black holes at z 8 (for earlier discussion of z = 6 SDSS quasars, see e.g. Di Matteo et al 2012;Feng et al 2014). In Feng et al (2015 we discussed how the most massive galaxies at these epochs are likely disk dominated.…”
Section: Discussionmentioning
confidence: 99%
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“…We therefore do not expect to find 10 9 M BHs in our simulations. We can, however, discuss our results in light of previous/concurrent work, specifically two types of different approaches, (i) smaller volumes, normally a zoom on a single halo, at higher resolution (e.g., Alvarez, Wise & Abel 2009;Johnson et al 2011;Aykutalp et al 2014), and (ii) larger halos and volumes at lower resolution aimed at studying z ∼ 6 quasars (e.g., Dubois et al 2013;Costa et al 2014;Feng et al 2014;Di Matteo et al 2016). Our simulations bridge the gap between these two regimes.…”
Section: Inferences On the Assembly Of The Most Massive Black Holesmentioning
confidence: 84%
“…To sustain such vigorous accretion and intense star formation, the first QSOs need the presence of copious amounts of gas in their surroundings (e.g., Di Matteo et al 2012; Dubois et al 2012). Possibly, this gas is aggregated in dense flows able to penetrate into the virial radius of the halo and to funnel gas onto the central SMBH (e.g., Di Matteo et al 2012;Feng et al 2014). If the gas in the host galaxy and in the circumgalactic medium of a QSO is illuminated by the SMBH ionizing radiation and/or the intense starburst, then it may be observable as an extended "fuzz" of fluorescent Lyα emission (Rees 1988;Haiman & Rees 2001;Alam & MiraldaEscudé 2002).…”
Section: Introductionmentioning
confidence: 99%