Abstract

The Hypersphere World-Universe Model (WUM) provides a mathematical framework that allows calculating the primary cosmological parameters of the World which are in good agreement with the most recent measurements and observations. WUM explains the experimental data accumulated in the field of Cosmology and Astroparticle Physics over the last decades: the age of the World and critical energy density; the gravitational parameter and Hubble’s parameter; temperatures of the cosmic microwave background radiation and the peak of the far-infrared background radiation; the concentration of intergalactic plasma and time delay of Fast Radio Bursts. Additionally, the model predicts masses of dark matter particles, photons, and neutrinos; proposes new types of particle interactions (Super Weak and Extremely Weak); shows inter-connectivity of primary cosmological parameters of the World. WUM proposes to introduce a new fundamental parameter Q in the CODATA internationally recommended values. This paper is the summary of the mathematical results obtained in [1]-[4].

Highlights

  • Hypersphere World-Universe Model (WUM) views the World as a 3-dimensional hypersphere that expands along the fourth spatial dimension in the Universe

  • The Hypersphere World-Universe Model (WUM) provides a mathematical framework that allows calculating the primary cosmological parameters of the World which are in good agreement with the most recent measurements and observations

  • WUM explains the experimental data accumulated in the field of Cosmology and Astroparticle Physics over the last decades: the age of the World and critical energy density; the gravitational parameter and Hubble’s parameter; temperatures of the cosmic microwave background radiation and the peak of the far-infrared background radiation; the concentration of intergalactic plasma and time delay of Fast Radio Bursts

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Summary

Introduction

Hypersphere World-Universe Model (WUM) views the World as a 3-dimensional hypersphere that expands along the fourth spatial dimension in the Universe. The remarkable agreement of the calculated values of the primary cosmological parameters with the observational data gives us considerable confidence in the model. The principal idea of WUM is that the energy density of the World ρW equals to the critical energy density ρcr necessary for 3-manifold at any cosmological time. Q can be calculated from the average value of the gravitational constant and in present epoch equals to (see Section 2):. WUM develops a mathematical framework that allows for direct calculation of a number of cosmological parameters through Q. The precision of such parameters increases by orders of magnitude (see Section 2).

Primary Cosmological Parameters
Gravitation
Intergalactic Plasma
Fast Radio Bursts
Neutrinos
Cosmic Far-Infrared Background
Bose-Einstein Condensate
Multicomponent Dark Matter
10. Macroobject Cores Built up from Fermionic Dark Matter
12. Grand Unified Theory
Findings
13. Conclusions

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