Experimental Consequences of Regular Charge-Monopole Electrodynamics

TL;DR

This paper explores how regular charge-monopole electrodynamics could impact high-energy physics experiments, suggesting that it may predict increased cross sections at energies accessible by CERN's LHC.

Contribution

It applies the regular charge-monopole theory to high-energy experiments, highlighting potential observable effects not explained by conventional electrodynamics.

Findings

Potential increase in interaction cross sections at high energies

Implication of charge-monopole theory for future collider experiments

Extension of electrodynamics to include monopoles

Abstract

This work points out an application of the regular theory of charge-monopole electrodynamics to the new experiments of very high energy. Using this theory, it is explained why the new regions of high energy interactions that will be explored by CERN's Large Hadron Collider may show a significant increase of the cross section. This conclusion illustrates the significance of the extension of electrodynamics that takes the form of the regular charge-monopole theory.