A toy model of the five-dimensional universe with the cosmological constant

TL;DR

This paper presents a five-dimensional universe toy model that aligns the cosmological constant with observations and quantum theory, proposing a vacuum filled with virtual particles and deriving fundamental physics equations.

Contribution

It introduces a novel five-dimensional toy model linking the cosmological constant, vacuum fluctuations, and particle properties, deriving key physical equations from vacuum assumptions.

Findings

Cosmological constant equals inverse Planck length squared.

Derived Lorentz transformation and Maxwell equations from vacuum properties.

Proposed relationships between vacuum fluctuations and particle characteristics.

Abstract

A value of the cosmological constant in a toy model of the five-dimensional universe is calculated in such a manner that it remains in agreement with both astronomical observations and the quantum field theory concerning the zero-point fluctuations of the vacuum. The (negative) cosmological constant is equal to the inverse of the Planck length squared, which means that in the toy model the vanishing of the observed value of the cosmological constant is a consequence of the existence of an energy cutoff exactly at the level of the Planck scale. In turn, a model for both a virtual and a real particle-antiparticle pair is proposed which describes properly some energetic properties of both the vacuum fluctuations and created particles, as well as it allows one to calculate the discrete "bare" values of an elementary-particle mass, electric charge and intrinsic angular momentum (spin) at the energy cutoff. The relationships between the discussed model and some phenomena such as the Zitterbewegung and the Unruh-Davies effect are briefly analyzed, too. The proposed model also allows one to derive the Lorentz transformation and the Maxwell equations while considering the properties of the vacuum filled with the sea of virtual particles and their antiparticles. Finally, the existence of a finite value of the vacuum-energy density resulting from the toy model leads us to the formulation of dimensionless Einstein field equations which can be derived from the Lagrangian with a dimensionless (naively renormalized) coupling constant.