Highly suppressed detection probability of the primordial antimatter in the present-day universe

TL;DR

This paper explains that the scarcity of primordial antimatter in the current universe is due to the extremely low detection probability caused by fundamental interpretations of antimatter and the universe's asymmetric expansion.

Contribution

It introduces a novel explanation linking antimatter detection suppression to the Dirac-Feynman-Stueckelberg interpretation and cosmic expansion asymmetry.

Findings

Primordial antimatter detection probability is highly suppressed.

The suppression is linked to fundamental antimatter interpretations.

Cosmic expansion asymmetry contributes to antimatter scarcity.

Abstract

We show that the matter-antimatter asymmetry in the present-day universe is mainly due to the highly suppressed detection probability for the primordial antimatter, which is a direct result of the Dirac-Feynman-Stueckelberg interpretation of antimatter and the extremely time asymmetric expansion of the primordial universe.