The effects of peculiar velocities in SN Ia environments on the local H0 measurement

Abstract

The discrepancy between estimates of the Hubble Constant (H0) measured from local (z 0.1) scales and from scales of the sound horizon is a crucial problem in modern cosmology. Peculiar velocities (vpec) of standard candle distance indicators can systematically affect local H0 measurements. We here use 2MRS galaxies to measure the local galaxy density field, finding a notable z < 0.05 under-density in the SGC-6dFGS region of 27 2 %. However, no strong evidence for a 'Local Void' pertaining to the full 2MRS sky coverage is found. Galaxy densities are used to measure a density parameter, φ+-, which we introduce as a proxy for vpec which quantifies density gradients along a SN line-of-sight. φ+- is found to correlate with local H0 estimates from 88 Pantheon SNeIa (0.02 < z < 0.05). Density structures on scales of 50 Mpc are found to correlate strongest with H0 estimates in both the observational data and in mock data from the MDPL2-Galacticus simulation. Using trends of H0 with φ+-, we can correct for the effects of density structure on local H0 estimates, even in the presence of biased vpec. However, the difference in the inferred H0 estimate with and without the peculiar velocity correction is limited to < 0.1 %. We conclude that accounting for environmentally-induced peculiar velocities of SNIa host galaxies does not resolve the tension between local and CMB-derived H0 estimates.