Constraining Dynamical Dark Energy Models through the Abundance of High-Redshift Supermassive Black Holes

TL;DR

This study uses the abundance of high-redshift supermassive black holes to place new constraints on dynamical dark energy models, especially on the evolution of the dark energy equation of state parameter w.

Contribution

It provides independent constraints on dynamical dark energy models by analyzing black hole abundance, complementing traditional cosmological probes and focusing on the evolution of w and w_a.

Findings

Constraints rule out certain DDE models with specific w_0 and w_a values.

Models with w crossing -1 and positive w_a are strongly disfavoured.

Black hole abundance imposes upper limits on the evolution of dark energy.

Abstract

We compute the number density of massive Black Holes (BHs) at the centre of galaxies at z=6 in different Dynamical Dark Energy (DDE) cosmologies, and compare it with existing observational lower limits, to derive constraints on the evolution of the Dark Energy equation of state parameter w. Our approach only assumes the canonical scenario for structure formation from the collapse of overdense regions of the Dark Matter dominated primordial density field on progressively larger scales; the Black Hole accretion and merging rate have been maximized in the computation so as to obtain robust constraints on w and on its look-back time derivative w_a. Our results provide independent constraints complementary to those obtained by combining Supernovae, Cosmic Microwave Background and Baryonic Acoustic Oscillations; while the latter concern combinations of w_0 and w_a leaving the time evolution of the state parameter w_a highly unconstrained, the BH abundance mainly provide upper limits on w_a, only weakly depending on w_0. Combined with the existing constraints, our results significantly restrict the allowed region in DDE parameter space, ruling out DDE models not providing cosmic time and fast growth factor large enough to allow for the building up of the observed abundance of BHs; in particular, models with -1.2 \leq w_0 \leq -1 and positive redshift evolution w_a > 0.8 - completely consistent with previous constraints - are strongly disfavoured by our independent constraints from BH abundance. Such range of parameters corresponds to "Quintom" DDE models, with w crossing -1 starting from larger values.