Quantum Correlations and Superluminal Interaction

Alexander V. Belinsky; Michael H. Shulman

arXiv:1509.08697·quant-ph·November 17, 2015

Quantum Correlations and Superluminal Interaction

Alexander V. Belinsky, Michael H. Shulman

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TL;DR

This paper proposes a model where quantum correlations are explained by superluminal oscillations that do not transmit energy or information, aiming to reconcile quantum entanglement with relativity.

Contribution

It introduces a novel explanation for quantum correlations involving superluminal oscillations that preserve causality, addressing the conflict between relativity and quantum mechanics.

Findings

01

Quantum correlations may be explained by superluminal oscillations.

02

The model preserves relativistic causality despite superluminal effects.

03

No energy or information is irreversibly transported in the process.

Abstract

The paper attempts to solve the well known conflict between Relativity and Quantum Mechanics. Accordingly to our concept the instant correlations between the EPR-partners can be explained by some oscillations existence whose propagation velocity may overcome the velocity of light in vacuum. In such process any irreversible transport of energy and information is absent, so the relativistic causality principle is satisfied.

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Taxonomy

TopicsQuantum Mechanics and Applications · Quantum Information and Cryptography · Biofield Effects and Biophysics