H0 Reconstruction with Type Ia Supernovae, Baryon Acoustic Oscillation and Gravitational Lensing Time-Delay

Abstract

There is a persistent H0-tension, now at more than 4σ level, between the local distance ladder value and the Planck cosmic microwave background measurement, in the context of flat model. We reconstruct H(z) in a cosmological-model-independent way using three low-redshift distance probes including the latest data from baryon acoustic oscillation, Type Ia supernova and four gravitational lensing Time-Delay observations. We adopt general parametric models of H(z) and assume a Gaussian prior on the sound horizon at drag epoch, r s, from Planck measurement. The reconstructed H0 using Pantheon SN Ia and BAO data are consistent with the Planck flat value. When including the GLTD data, H0 increases mildly, yet remaining discrepant with the local measurement at 2.5σ level. Our reconstructions being blind to the dark sectors at low redshift, we reaffirm the earlier claims that the Hubble tension is not likely to be solved by modifying the energy budget of the low-redshift universe. We further forecast the constraining ability of future realistic mock BAO data from DESI and GLTD data from LSST, combining which, we anticipate that the uncertainty of the inferred H0 would be improved by 38\%, reaching σH0 ≈ 0.56 uncertainty level.