Gravitational effectiveness of the zero-point energy of the radiation field: a possible solution of a paradox raised by Pauli

TL;DR

This paper evaluates a modified vacuum energy density of the radiation field, incorporating a new gauge boson, to address a paradox and predict the universe's radius, also linking to the mass of a boson involved in muon decay.

Contribution

It introduces a modified vacuum energy density considering a new gauge boson, providing insights into gravitational effects and universe size predictions.

Findings

Predicts the universe's radius using modified vacuum energy density.

Links the gauge boson to the mass of the boson responsible for muon decay.

Addresses a paradox related to zero-point energy and gravity.

Abstract

A modified vacuum energy density of the radiation field is evaluated, which leads to accepted prediction for the radius of the universe. The modification takes into account the existence of a new gauge boson which also can be used in order to determine the mass of the boson responsible for the weak decay of the muon.