Anomalous magnetic moment and vortex structure of the electron

TL;DR

This paper proposes a novel topological and vortex-based internal structure for the electron to explain its magnetic moment, linking geometric, quantum, and vortex concepts.

Contribution

It introduces a new vortex-metric model of the electron based on topological defects in cylindrical space-time, offering a geometric origin for its magnetic moment decomposition.

Findings

Derived a new vortex-metric for the electron

Linked vortex structure to magnetic moment decomposition

Identified vortex features in basis mode functions

Abstract

The electron magnetic moment decomposition calculated in QED is proposed to have origin in a multi-vortex internal structure of the electron. This proposition is founded on two important contributions of the present work. First, a critical review on Weyl model of electron, Einstein-Rosen bridge and Wheeler's wormholes leads to a new idea of a topological defect in cylindrical space-time geometry as a natural representation of the electron. A concrete realization of this idea in terms of the derivation of a new vortex-metric, and its physical interpretation to establish the geometric origin of the electron magnetic moment decomposition constitute the second contribution. Remarkable occurrence of a vortex structure in the basis mode function used in BLFQ is also pointed out indicating wider ramification of the proposed electron model.