Using the Extragalactic Gamma-Ray Background to Constrain the Hubble Constant and Matter Density of the Universe

Abstract

The attenuation produced by extragalactic background light (EBL) in γ-ray spectra of blazars has been used to constrain the Hubble constant (H0) and matter density ( m) of the Universe. We propose to estimate H0 and m using the well measured >10 GeV extragalactic γ-ray background (EGB). This suggestion is based on the facts that the >10 GeV EGB is totally explained by the emissions from blazars, and an EBL-absorption cutoff occurs at 50 GeV in the EGB spectrum. We fit the >10 GeV EGB data with modeled EGB spectrum. This results in H0=64.9+4.6-4.3 \ km\ s-1\ Mpc-1 and m=0.31+0.13-0.14. Note that the uncertainties may be underestimated due to the limit of our realization for EBL model. H0 and m are degenerate in our method. Independent determination of m by other methods would improve the constraint on H0.