13. Juris Grēve, Clarification of the causes of ferromagnetic resonance and the value of the g-factor

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Volume 28: Pages 507-514, 2015

Clarification of the causes of ferromagnetic resonance and the value of the g-factor

Juris Grēvea)

Faculty of Electronics and Telecommunications, Riga Technical University, Azenes 12, Riga LV-1048, Latvia

 

Searching for an explanation of the great dispersion of the electron gyromagnetic ratio (g-factor), determined in a variety of ferromagnetic resonance experiments, shows that, until now, some energy-consuming processes have been ignored, including periodic spontaneous magnetic domain disappearance and restoration in the whole volume of an anisotropic crystalline sample. Against this background, one can rehabilitate the Bohr atomic model and interpret the formal electron spin (used in quantum mechanics) as the plane inversion of an electron orbit.

 

La recherche d’une explication permettant de justifier la grande dispersion du rapport gyromagnétique des électrons (facteur g), déterminé dans diverses expériences sur la résonance ferromagnétique, montre que, jusqu’à présent, certains processus consommateurs d’énergie ont été ignorés, notamment la disparition et la restauration spontanées périodiques des domaines magnétiques dans le volume complet d’un échantillon cristallin anisotrope. Dans ce contexte, il est possible de revaloriser le modèle atomique de Bohr et d’interpréter le spin électronique formel (utilisé en mécanique quantique) comme l’inversion planaire d’une orbite électronique.

 

Key words: Electron; Gyromagnetic Ratio; Ferromagnetic Resonance; Domains; Magnetization; Atomic Spectroscopy; Normal Zeeman Effect.

 

Received: May 15, 20154; Accepted: October 5, 2015; Published Online: October 24, 2015

 

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