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Main Author: Zamboni, Lino
Format: Recurso digital
Language:English
Published: Zenodo 2026
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Online Access:https://doi.org/10.5281/zenodo.20258351
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author Zamboni, Lino
author_facet Zamboni, Lino
contents <p>We propose a differential test of the possible internal structural response of the electron to an effective electromagnetic field, using the comparison between the bound g factor of the electron in hydrogenlike and lithiumlike silicon ions.<br>In the considered model, the anomalous magnetic moment of the electron is described as an entangled sum of internal anomalous orbital moments.<br>An effective electromagnetic perturbation is introduced into the energy balance of the first two orbitals through a controlled increment of their magnetic energy, taking into account an effective electronic shielding due to the other orbitals present.<br>The structure of the electron shows a linear and stable response, dominated by the S1 orbital.<br>Applying an appropriate differential comparison, the residual structural contribution of the model results compatible with the scale of the differential residual inferred from the available silicon data.<br>This result does not constitute a demonstration of the internal structure of the electron, but identifies the differential comparison as a possible quantitative testing ground for an orbital structural response.</p>
format Recurso digital
id zenodo_https___doi_org_10_5281_zenodo_20258351
institution Zenodo
language eng
publishDate 2026
publisher Zenodo
record_format zenodo
spellingShingle Differential Test of the Internal Structure of the Electron through the Bound g Factor
Zamboni, Lino
Structured Electron , Magnetic Anomaly , Bound g Factor , Hydrogenlike and Lithiumlike ions , Electromagnetic internal Response
<p>We propose a differential test of the possible internal structural response of the electron to an effective electromagnetic field, using the comparison between the bound g factor of the electron in hydrogenlike and lithiumlike silicon ions.<br>In the considered model, the anomalous magnetic moment of the electron is described as an entangled sum of internal anomalous orbital moments.<br>An effective electromagnetic perturbation is introduced into the energy balance of the first two orbitals through a controlled increment of their magnetic energy, taking into account an effective electronic shielding due to the other orbitals present.<br>The structure of the electron shows a linear and stable response, dominated by the S1 orbital.<br>Applying an appropriate differential comparison, the residual structural contribution of the model results compatible with the scale of the differential residual inferred from the available silicon data.<br>This result does not constitute a demonstration of the internal structure of the electron, but identifies the differential comparison as a possible quantitative testing ground for an orbital structural response.</p>
title Differential Test of the Internal Structure of the Electron through the Bound g Factor
topic Structured Electron , Magnetic Anomaly , Bound g Factor , Hydrogenlike and Lithiumlike ions , Electromagnetic internal Response
url https://doi.org/10.5281/zenodo.20258351