Consequences of the Production of Very Massive Magnetically Charged Leptons Early in the Universe and Their Decays to a New Set of Extremely Massive Neutrinos

TL;DR

This paper explores the early universe production and decay of extremely heavy magnetically charged leptons and neutrinos, their potential gravitational effects, and the possibility of detecting resulting photon bursts on Earth.

Contribution

It introduces a novel model of magnetically charged leptons and neutrinos, analyzing their decay processes and potential observational signatures.

Findings

Heavy magnetically charged leptons could have been produced early in the universe.

Decays of these leptons produce high-energy photon bursts detectable on Earth.

Potential gravitational attraction of these particles could influence cosmic structures.

Abstract

We examine the production and decay of extremely heavy magnetically charged leptons, (tau_g and mu_g), to their own very heavy mu_g and e_g plus their own new species of neutrinos, nu_g and nubar_g, at some time early in the universe which could be present in space and, attracted gravitationally towards and passing through astronomical objects, annihilated with each other to produce large numbers of photons. Further, we describe the possibility of presently detecting the bursts of such photons, of three different total energies, in the seas or oceans on earth.