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Volume 34: Pages 582-582, 2021
Bell tests explained by classical optics without quantum entanglement
Dean L. Mamasa)
4415 Clwr. Hr. Dr. N., Largo, Florida 33770, USA
A polarized photon interacts with a polarizer through the component of the photon’s electric field which is aligned with the polarizer. This component varies as the cosine of the angle through which the polarizer is rotated, explaining the cosine observed in Bell test data. Quantum mechanics is unnecessary and plays no role.
Un photon polarisé interagit avec un polariseur par le composant de son champ électrique qui est aligné avec le polariseur. Ce composant varie avec le cosinus de l'angle par lequel le polariseur est tourné, expliquant le cosinus observé dans les expériences de Bell. La mécanique quantique n'est pas nécessaire et n'y joue aucun rôle.
Key words: Quantum Entanglement; Bell Test Experiments; Bell Test; Bell Inequality Test; Bell Experiment; Bell’s Theorem; Action at a Distance; Isaac Newton; EPR; EPR Tests.
Received: September 14, 2021; Accepted: October 26, 2021; Published Online: November 30, 2021
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