Cosmological Evolution of Supermassive Black Holes: Mass Functions and Spins

Li, Yanrong; Wang, Jianmin; Ho, Luis C.

doi:10.1017/s1743921312019904

Proc. IAU

2012

DOI: 10.1017/s1743921312019904

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Cosmological Evolution of Supermassive Black Holes: Mass Functions and Spins

Yanrong Li¹,

Jianmin Wang²,

Luis C. Ho³

Abstract: The spin is an important but poorly constrained parameter for describing supermassive black holes (SMBHs). Using the continuity equation of SMBH number density, we explicitly obtain the mass-dependent cosmological evolution of the radiative efficiency for accretion, which serves as a proxy for SMBH spin. Our calculations make use of the SMBH mass function of active and inactive galaxies (derived in the first paper of this series), the bolometric luminosity function of active galactic nuclei (AGNs), corrected f… Show more

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Growth of Massive Black Holes at High-z via Accretion Predominantly Driven by Magnetic Outflows

Cao

2019

ApJ

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Luminous quasars powered by accreting supermassive black holes (SMBHs) have been found in the early Universe at z 7.5, which set a strong constraint on both the seed black hole mass and the rapid growth of the SMBHs. In this work, we explore how the SMBHs are grown through Eddington limited accretion driven predominantly by magnetic outflows. Most angular momentum and the released gravitational energy in the disk can be removed by magnetic outflows, and therefore the mass accretion rate of the black hole (BH) can be high even if the disk is radiating at sub-Eddington luminosity. It is found that the SMBH with several billion solar masses discovered at z 7 may probably be grown through chaotic accretion predominantly driven by magnetic outflows from a stellar mass BH, when the disks are radiating at moderate luminosity (∼ 0.5 Eddington luminosity) with mild outflows. We find that most SMBHs are spinning at moderate values of spin parameter a * , which implies only a small fraction of quasars may have radio jets.

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Growth of Massive Black Holes at High-z via Accretion Predominantly Driven by Magnetic Outflows

Cao

2019

ApJ

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show abstract

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Cosmological Evolution of Supermassive Black Holes: Mass Functions and Spins

Cited by 1 publication

References 75 publications

Growth of Massive Black Holes at High-z via Accretion Predominantly Driven by Magnetic Outflows

Growth of Massive Black Holes at High-z via Accretion Predominantly Driven by Magnetic Outflows

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