Utilizza questo identificativo per citare o creare un link a questo documento: http://hdl.handle.net/2307/236
Titolo: Modelling the cosmological co-evolution of supermassive black holes and galaxies - II. The clustering of quasars and their dark environment
Autori: Bonoli, Silvia
Marulli, Federico
Springel, Volker
White, Simon D. M.
Branchini, Enzo
Moscardini, Lauro
Parole chiave: ACTIVE GALACTIC NUCLEI
DIGITAL SKY SURVEY
QSO REDSHIFT SURVEY
BULGE
MASS RELATION
HOST HALO MASS
LUMINOSITY FUNCTION
FUNDAMENTAL
RELATION
COSMIC EVOLUTION
POPULATION-III
MATTER HALOES
Data di pubblicazione: 2009
Editore: Wiley-Blackwell Publishing, Inc
Abstract: We use semi-analytic modelling on top of the Millennium simulation to study the joint formation of galaxies and their embedded supermassive black holes. Our goal is to test scenarios in which black hole accretion and quasar activity are triggered by galaxy mergers, and to constrain different models for the light curves associated with individual quasar events. In the present work, we focus on studying the spatial distribution of simulated quasars. At all luminosities, we find that the simulated quasar two-point correlation function is fit well by a single power law in the range 0.5 less than or similar to r less than or similar to 20 h(-1) Mpc, but its normalization is a strong function of redshift. When we select only quasars with luminosities within the range typically accessible by today's quasar surveys, their clustering strength depends only weakly on luminosity, in agreement with observations. This holds independently of the assumed light-curve model, since bright quasars are black holes accreting close to the Eddington limit, and are hosted by dark matter haloes with a narrow mass range of a few 10(12) h(-1) M-circle dot. Therefore, the clustering of bright quasars cannot be used to disentangle light-curve models, but such a discrimination would become possible if the observational samples can be pushed to significantly fainter limits.Overall, our clustering results for the simulated quasar population agree rather well with observations, lending support to the conjecture that galaxy mergers could be the main physical process responsible for triggering black hole accretion and quasar activity.
URI: http://hdl.handle.net/2307/236
ISSN: 0035-8711
DOI: 10.1111/j.1365-2966.2009.14701.x
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