Author(s)

Vladimir S. Netchitailo

Biolase Inc., Irvine, USA.

The results of measurements of the Hubble constant H₀, which characterizes the expansion rate of the universe, show that the values of H₀ vary significantly depending on Methodology. The disagreement in the values of H₀ obtained by the various teams far exceeds the standard uncertainties provided with the values. This discrepancy is called the Hubble Tension. In this paper, we discuss Macrostructures of the World (Superclusters and Galaxies); explain their Origin and Evolution in frames of the developed Hypersphere World-Universe Model (WUM), which is an alternative to the prevailing Big Bang Model (BBM) [1]; and provide the explanation of the Hubble Tension. The main difference between WUM and BBM is: Instead of the Infinite Homogeneous and Isotropic Universe around the Initial Singularity in BBM, in WUM, the 3D Finite Boundless World (a Hypersphere) presents a Patchwork Quilt of different Luminous Superclusters (10³), which emerged in various places of the World at different Cosmological times. In WUM, the Medium of the World is Homogeneous and Isotropic. The distribution of Macroobjects in the World is spatially Inhomogeneous and Anisotropic and temporally Non-simultaneous.

Macrostructures of the World, Hubble Constant, Spatially Inhomogeneous and Anisotropic Distribution of Macroobjects, Hypersphere World-Universe Model, Homogeneous and Isotropic Medium

Netchitailo, V. (2022) Hubble Tension. Journal of High Energy Physics, Gravitation and Cosmology, 8, 392-401. doi: 10.4236/jhepgc.2022.82030.