Pré-Publication, Document De Travail Année : 2025

Emerging non-local quantum time correlation phenomena in a classical system of organo-metallic microparticles

Résumé

We investigate enantiomers of chiral organo-metallic particles which exhibit collective memory effect. Under the influence of magnetic field, the millions of particles in solution form macroscopic shapes and when dispersed again at zero field they return to their original shape. The microparticles forming the shaped structures are collectively coupled under the influence of long-range van der Waals exchange interactions which govern the collective macroscopic structure. We recently have found that non-local quantum exchange interactions between particles persist up to ten meters, close to room temperature. Here, we investigate further the perception of time in the system. We find that the particles exhibit temporal correlations between the future and present states of the system. The forces which govern the collective memory effect and shape the macroscopic structure therefore allow to visualize quantum phenomena which extend the classical causality notion into an expanded nonlocal space-time reality. We propose that the observations are attributed to chirality-discriminating van der Waals exchange interactions coupled to vacuum fluctuations.

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hal-04881193 , version 1 (11-01-2025)

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  • HAL Id : hal-04881193 , version 1

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I Carmeli, Vladimiro Mujica, Pini Shechter, Zeev Zalevsky. Emerging non-local quantum time correlation phenomena in a classical system of organo-metallic microparticles. 2025. ⟨hal-04881193⟩
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