Distant foreground and the Hubble constant tension

Abstract

It is possible to explain the discrepancy (tension) between the local measurement of the cosmological parameter H0 (the Hubble constant) and its value derived from the Planck-mission measurements of the Cosmic Microwave Background (CMB) by considering contamination of the CMB by emission from some medium surrounding distant extragalactic sources (a distant foreground), such as extremely cold coarse-grain (grey) dust. As any other foreground, it would alter the CMB power spectrum and contribute to the dispersion of CMB temperature fluctuations. By generating random samples of CMB with different dispersions, we have checked that the increased dispersion leads to a smaller estimated value of H0, the rest of the cosmological model parameters remaining fixed. This might explain the reduced value of the Planck-derived parameter H0 with respect to the local measurements. The cold grey dust for some time has been suspected to populate intergalactic space and it is known to be almost undetectable, except for the effect of dimming remote extragalactic sources.