Effects of the Hubble Parameter on the Cosmic Growth of the First Quasars

Abstract

Supermassive black holes (SMBHs) play a crucial role in the evolution of galaxies and are currently detected up to z 7.5. Theories describing black hole (BH) growth are challenged by how rapidly seeds with initial mass M 105 \, M, formed at z 20-30, grew to M 109 \, M by z 7. Here we study the effects of the value of the Hubble parameter, H0, on models describing the early growth of BHs. First, we note that the predicted mass of a quasar at z=6 changes by > 300% if the underlying Hubble parameter used in the model varies from H0 = 65 to H0 = 74 km s-1Mpc-1, a range encompassing current estimates. Employing an MCMC approach based on priors from z 6.5 quasars and on H0, we study the interconnection between H0 and the parameters describing BH growth: seed mass Mi and Eddington ratio f Edd. Assuming an Eddington ratio of f Edd = 0.7, in agreement with previous estimates, we find H0 = 73.6+1.2-3.3 km s-1Mpc-1. In a second analysis, allowing all the parameters to vary freely, we find (Mi/M) > 4.5 (at 95% CL), H0 = 74+1.5-1.4 km s-1Mpc-1 and f Edd=0.77+0.035-0.026 at 68% CL. Our results on the typical Eddington ratio are in agreement with previous estimates. Current values of the Hubble parameter strongly favour heavy seed formation scenarios, with Mi 104 \, M. In our model, with the priors on BH masses of quasars used, light seed formation scenarios are rejected at 3σ.