H0 from cosmic chronometers and Type Ia supernovae, with Gaussian processes and the weighted polynomial regression method

Abstract

We derive new constraints on the Hubble parameter H0 using the available data on H(z) from cosmic chronometers (CCH), and the Hubble rate data points from the supernovae of Type Ia (SnIa) of the Pantheon compilation and the Hubble Space Telescope (HST) CANDELS and CLASH Multy-Cycle Treasury (MCT) programs. We employ two alternative techniques, Gaussian Processes (GPs) and the Weighted Polynomial Regression (WPR) method, to reconstruct the Hubble function, determine the derived values of H0, and compare them with the local HST measurement provided by Riess et al. (2018), H0 HST=(73.481.66) km/s/Mpc, and with the Planck+ value, H0 P18=(66.88 0.92) km/s/Mpc. With GPs we obtain H0=(67.99 1.94) km/s/Mpc, and with the WPR method H0=(68.90 1.96) km/s/Mpc. Both are fully compatible at <1σ c.l., and also with H0 P18. In contrast, they are in 2σ tension with H0 HST.