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Stern–Gerlach, EPRB and Bell Inequalities: An Analysis Using the Quantum Hamilton Equations of Stochastic Mechanics
Foundations of Physics 54 (2):1-25 (2024)
Abstract
The discussion of the recently derived quantum Hamilton equations for a spinning particle is extended to spin measurement in a Stern–Gerlach experiment. We show that this theory predicts a continuously changing orientation of the particles magnetic moment over the course of its motion across the Stern–Gerlach apparatus. The final measurement results agree with experiment and with predictions of the Pauli equation. Furthermore, the Einstein–Podolsky–Rosen–Bohm thought experiment is investigated, and the violation of Bells’s inequalities is reproduced within this stochastic mechanics approach. The origin of the violation of Bell’s inequalities is traced to the the non-local nature of the velocity fields for an entangled state in the stochastic formalism, which is a result of a non-separable probability distribution of the considered particles.My notes
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References found in this work
Einstein, Incompleteness, and the Epistemic View of Quantum States.Nicholas Harrigan & Robert W. Spekkens - 2010 - Foundations of Physics 40 (2):125-157.
Supermeasured: Violating Bell-Statistical Independence Without Violating Physical Statistical Independence.Jonte R. Hance, Sabine Hossenfelder & Tim N. Palmer - 2022 - Foundations of Physics 52 (4):1-15.
On the theory of the Stern-Gerlach apparatus.Marlan O. Scully, Willis E. Lamb & Asim Barut - 1987 - Foundations of Physics 17 (6):575-583.
Spin correlation in stochastic mechanics.William G. Faris - 1982 - Foundations of Physics 12 (1):1-26.
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