On the Possible Variations of the Hubble Constant with Distance

Abstract

Current measurements of the Hubble constant H0 on scale less than 100 Mpc appear to be controversial, while the observations made at high redshift seem to provide a relatively low value. On the other hand, the Hubble expansion is driven by the matter content of the universe. The dynamical analysis on scale of a few 10 Mpc indicates that the matter density 0 is only 0.2--0.3, which is significantly smaller than 0=1 predicted in the standard inflation model. This might support the tendency of a decreasing Hubble constant towards distance. In this paper, we discuss the influence of a possible variant Hubble constant on two fundamental relations in astronomy: the magnitude-redshift (m--z) and the number-magnitude relations. Using a distant type Ia supernova at z=0.458, we show that the deceleration parameter q0 or 0 cannot be determined from the m--z relation at moderate/high redshift unless the variation of the Hubble constant is a priori measured. It is further demonstrated that the number density of distant sources would be underestimated when their local calibration is employed, which may partially account for the number excess of the faint blue galaxies observed at moderate/high redshift.

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