Strange correlations between remote nodes in networks comprising chaotic   links

J. Manasson (1); V. A. Manasson (2)((1) New York University School of; Medicine; New York; NY; (2) Sierra Nevada Corporation; Irvine; CA)

arXiv:1511.02772·nlin.CD·November 10, 2015·2 cites

Strange correlations between remote nodes in networks comprising chaotic links

J. Manasson (1), V. A. Manasson (2)((1) New York University School of, Medicine, New York, NY, (2) Sierra Nevada Corporation, Irvine, CA)

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TL;DR

This paper investigates unexpected strong correlations between remote nodes in electronic networks with chaotic links, revealing phenomena similar to quantum entanglement.

Contribution

It uncovers a novel phenomenon of remote correlations in chaotic electronic networks, drawing parallels to quantum entanglement.

Findings

01

Remote nodes show stronger correlations than closer nodes under certain conditions.

02

Correlations resemble those observed in entangled particles.

03

The phenomenon suggests new insights into network dynamics with chaotic links.

Abstract

We studied correlations between different nodes in small electronic networks with active links operating as jitter generators. Unexpectedly, we found that under certain conditions signals from the most remote nodes in the networks correlate stronger than signals from all of the other coupled nodes. The phenomenon resembles selective remote correlation between electrons in the Cooper pairs or entangled particles.

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Taxonomy

TopicsNonlinear Dynamics and Pattern Formation · Chaos control and synchronization · Complex Systems and Time Series Analysis