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Bibliographic Details
Main Authors: Santos, Carlos A. M. dos, Fleury, Marc J. J.
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2510.22384
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author Santos, Carlos A. M. dos
Fleury, Marc J. J.
author_facet Santos, Carlos A. M. dos
Fleury, Marc J. J.
contents We present a toroidal electromagnetic ansatz that provides a realistic microscopic model of the QED electron. The proposed toroidal electromagnetic wave satisfies Maxwell's equations and reproduces fundamental properties of the electron as described in quantum electrodynamics (QED). Within this framework, the electron is modeled as a rotating electromagnetic wave confined to a toroidal geometry. Parameter optimization yields quantitative agreement with the electron charge e, spin $\hbar/2$, and magnetic moment $μ_B(1 + α/2π)$, incorporating the Schwinger anomalous magnetic moment correction. The model yields an amplitude on the order of the Schwinger scale where electron-positron pair production occurs. The major radius corresponds to the Compton wavelength scale, while the monochromatic frequency is consistent with the de Broglie-Dirac frequency. The phase velocity is found to be $2c$, and the computed rest energy approximates $0.8 m_e c^2$. This representation provides a microscopic classical electromagnetic framework that encapsulates the properties of the QED electron.
format Preprint
id arxiv_https___arxiv_org_abs_2510_22384
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle A simple electromagnetic model of the electron
Santos, Carlos A. M. dos
Fleury, Marc J. J.
Quantum Physics
We present a toroidal electromagnetic ansatz that provides a realistic microscopic model of the QED electron. The proposed toroidal electromagnetic wave satisfies Maxwell's equations and reproduces fundamental properties of the electron as described in quantum electrodynamics (QED). Within this framework, the electron is modeled as a rotating electromagnetic wave confined to a toroidal geometry. Parameter optimization yields quantitative agreement with the electron charge e, spin $\hbar/2$, and magnetic moment $μ_B(1 + α/2π)$, incorporating the Schwinger anomalous magnetic moment correction. The model yields an amplitude on the order of the Schwinger scale where electron-positron pair production occurs. The major radius corresponds to the Compton wavelength scale, while the monochromatic frequency is consistent with the de Broglie-Dirac frequency. The phase velocity is found to be $2c$, and the computed rest energy approximates $0.8 m_e c^2$. This representation provides a microscopic classical electromagnetic framework that encapsulates the properties of the QED electron.
title A simple electromagnetic model of the electron
topic Quantum Physics
url https://arxiv.org/abs/2510.22384