Breaking the Baryon Densityx2013Hubble Constant Degeneracy in Fast Radio Burst Applications with Associated Gravitational Waves

Abstract

Fast Radio Bursts (FRBs) are a unique probe of the cosmos, owing to dispersion caused by free electrons in the intergalactic medium (IGM). Two of the main quantities of interest are degenerate: the density of matter bfd outside of galaxies and the Hubble constant H0. Here, we present a new possibility of breaking the degeneracy without invoking early Universe priors on b. Assuming some FRBs originate in compact object mergers, the combination of dispersion and luminosity distance from the gravitational wave (GW) can be used to measure bh2fd (where h is the dimensionless Hubble constant). We show that this measurement can be combined with the abundant FRBs that have a redshift measurement. This combination breaks the degeneracy with the Hubble constant. We develop a Bayesian framework and forecast that third-generation GW detectors are required to obtain meaningful constraints. We forecast that one year of Einstein Telescope operations can constrain H0 to 6\,kms-1Mpc-1 and bh2fd to +0.0015-0.0016 (68\,\% credible interval). The method can also be used with luminosity distances obtained through other means than GWs.