Litcius/Paper detail

Separating Accretion and Mergers in the Cosmic Growth of Black Holes with X-Ray and Gravitational-wave Observations

Fabio Pacucci, Abraham Loeb

2020The Astrophysical Journal49 citationsDOIOpen Access PDF

Abstract

Abstract Black holes across a broad range of masses play a key role in the evolution of galaxies. The initial seeds of black holes formed at z ∼ 30 and grew over cosmic time by gas accretion and mergers. Using observational data for quasars and theoretical models for the hierarchical assembly of dark matter halos, we study the relative importance of gas accretion and mergers for black hole growth, as a function of redshift (0 < z < 10) and black hole mass ( ). We find that (i) growth by accretion is dominant in a large fraction of the parameter space, especially at and z > 6; and (ii) growth by mergers is dominant at and z > 5.5, and at and z < 2. As the growth channel has direct implications for the black hole spin (with gas accretion leading to higher spin values), we test our model against ∼20 robust spin measurements available thus far. As expected, the spin tends to decline toward the merger-dominated regime, thereby supporting our model. The next generation of X-ray and gravitational-wave observatories (e.g., Lynx, AXIS, Athena, and LISA) will map out populations of black holes up to very high redshift ( z ∼ 20), covering the parameter space investigated here in almost its entirety. Their data will be instrumental to providing a clear picture of how black holes grew across cosmic time.

Topics & Concepts

PhysicsAstrophysicsAccretion (finance)RedshiftAstronomyBlack hole (networking)Spin-flipQuasarIntermediate-mass black holeBinary black holeStellar black holeCosmic timeCOSMIC cancer databaseAccretion discParameter spacePrimordial black holeDark matterIntermediate polarMass ratioSpin (aerodynamics)Dark AgesGalaxies: Formation, Evolution, PhenomenaAstrophysical Phenomena and ObservationsAstronomy and Astrophysical Research