Implications of the geometric representation of the early universe wave function

TL;DR

This paper proposes an algebraic, geometric framework for modeling the early universe's wave function, explaining phenomena like dark energy, matter, and baryonic asymmetry through supersymmetry and spontaneous symmetry breaking.

Contribution

It introduces a novel algebraic approach utilizing supersymmetry and geometric representation to explain the universe's origin and evolution.

Findings

Mechanism for spontaneous symmetry breaking of universe excitations

Explanation of dark energy and matter origins

Insight into baryonic asymmetry of the universe

Abstract

The main goal of this article is to present an algebraic approach to describing the birth and start evolution of the universe. In such an approach, it is possible to use the nature of supersymmetry in terms of the geometric representation of the wave function and propose a mechanism of spontaneous symmetry breaking of the excitations of the universe with different degrees of freedom. On this basis, it is possible to explain the origin of dark energy and matter and explain the baryonic asymmetry of the universe.