Axial Monopoles, Quantization of Electric Charge and Dynamical   Discreteness of Space-Time

M.C. Nemes; Saulo C.S. Silva

arXiv:hep-th/9309155·hep-th·May 23, 2007

Axial Monopoles, Quantization of Electric Charge and Dynamical Discreteness of Space-Time

M.C. Nemes, Saulo C.S. Silva

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TL;DR

This paper proposes that axial currents in electrodynamics can explain electric charge quantization and imply a dynamical space-time discreteness, providing a new perspective on regularizing Feynman integrals.

Contribution

It introduces axial currents into electrodynamics as a novel approach to explain charge quantization and space-time discreteness.

Findings

01

Axial currents can account for electric charge quantization.

02

Dynamical space-time discreteness is derived from axial current considerations.

03

Regularization of Feynman integrals is justified by this framework.

Abstract

In the present contribution we show that the introduction of axial currents in electrodynamics can explain the quantization of electric charge and introduces a dynamical discreteness of space-time, justifying thus the regularization of Feymman's integrals.

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Taxonomy

TopicsRelativity and Gravitational Theory · Quantum and Classical Electrodynamics · Advanced Mathematical Theories and Applications