Model-independent measurement of the Hubble Constant and the absolute magnitude of Type Ia Supernovae
Abstract
In this work, we propose a cosmological model-independent and non-local method to constrain the Hubble Constant H0. Inspired by the quasi cosmological model-independent and H0-free properties of the `shifted' Hubble diagram of HII galaxies (HIIGx) defined by Wei et al. (2016), we joint analyze it with the parametric type Ia supernova (SN Ia) Hubble diagram (e.g. the joint-lightcurves-analysis sample, JLA) and get a Bayesian Inference of Hubble constant, H0 = 71 20\ km\ s-1\ Mpc-1. Although with large uncertainty, we find that H0 is only strongly degenerate with the B-band absolute magnitude (MB) of SN Ia but almost independent on other nuisance parameters. Therefore the accuracy can be simultaneously improved by a tight constraint of MB through a cosmological and H0 independent way. This method can be extended further to get more-literally non-local results of H0 by using other Hubble diagrams at higher redshifts.
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