Cosmological constraints from angular homogeneity scale measurements

Abstract

In this paper, we obtain new measurements of the angular homogeneity scale (θH) from the BOSS DR12 and eBOSS DR16 catalogs of Luminous Red Galaxies of the Sloan Digital Sky Survey. Considering the flat model, we use the θH(z) data to constrain the matter density parameter (m0) and the Hubble constant (H0). We find H0 = 65+10-7 km s-1 Mpc-1 and m0>0.296. By combining the θH measurements with current Baryon Acoustic Oscillations (BAO) and Type Ia Supernova (SN) data, we obtain H0= 66.8 5.0 km s-1 Mpc-1 and m0 = 0.292+0.013-0.015 (θH + BAO) and H0=66.8 5.4 km s-1 Mpc-1 and m0=0.331 0.018 (θH + SN). We show that θH measurements help break the BAO and SN degeneracies concerning H0, as they do not depend on the sound horizon scale at the drag epoch or the SN absolute magnitude value obtained from the distance ladder method. Hence, despite those constraints are less stringent compared to other probes, θH data may provide an independent cosmological probe of H0 in light of the Hubble tension. For completeness, we also forecast the constraining power of future θH data via Monte Carlo simulations. Considering a relative error of the order of 1\%, we obtain competitive constraints on m0 and H0 (≈ 5\% error) from the joint analysis with current SN and BAO measurements.