Numerical modeling of the multi-stage Stern\(\unicode{x2013}\)Gerlach experiment by Frisch and Segrè using co-quantum dynamics via the Bloch equation

Numerical modeling of the multi-stage Stern\(\unicode{x2013}\)Gerlach experiment by Frisch and Segrè using co-quantum dynamics via the Bloch equation

We numerically study the spin flip in the Frisch\(\unicode{x2013}\)Segrè experiment, the first multi-stage Stern\(\unicode{x2013}\)Gerlach experiment, within the context of the novel co-quantum dynamics theory. We model the middle stage responsible for spin rotation by sampling the atoms with the Mo...

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Veröffentlicht in:arXiv.org 2023-03
Hauptverfasser: Titimbo, Kelvin, Garrett, David C, Kahraman, S Süleyman, He, Zhe, Wang, Lihong V
Format: Artikel
Sprache:eng
Schlagworte:
Dynamics
Magnetic moments
Mathematical models
Monte Carlo simulation
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Zusammenfassung:We numerically study the spin flip in the Frisch\(\unicode{x2013}\)Segrè experiment, the first multi-stage Stern\(\unicode{x2013}\)Gerlach experiment, within the context of the novel co-quantum dynamics theory. We model the middle stage responsible for spin rotation by sampling the atoms with the Monte Carlo method and solving the dynamics of the electron and nuclear magnetic moments numerically according to the Bloch equation. Our results show that, without using any fitting parameters, the co-quantum dynamics closely reproduces the experimental observation reported by Frisch and Segrè in 1933, which has so far lacked theoretical predictions.
ISSN:2331-8422