Nonlinear Quantum Nonolocality and its Cosmophysical Tests

S.N. Mayburov

arXiv:2211.03520·physics.gen-ph·November 8, 2022

Nonlinear Quantum Nonolocality and its Cosmophysical Tests

S.N. Mayburov

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TL;DR

This paper explores nonlinear quantum nonlocality effects, proposing a new theoretical framework and comparing it with cosmophysical experimental results to understand distant correlations in quantum systems.

Contribution

It introduces a nonlinear quantum formalism for describing nonlocal correlations and compares theoretical predictions with cosmophysical experimental data.

Findings

01

Nonlinear quantum effects can produce distant correlations.

02

Comparison suggests potential validation of nonlinear models.

03

New formalism extends understanding of quantum nonlocality.

Abstract

Analysis of Bell-EPR nonlocal correlations in microscopic measurement theory framework indicates that novel quantum nonlocality effects can exist. In particular, it can result in distant correlations between the systems of elementary quantum objects or particles. Doebner-Goldin nonlinear quantum formalism applied for nonlocal correlation description, comparison with some cosmophysical experiment results discussed.

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Taxonomy

TopicsQuantum Mechanics and Applications · Quantum Information and Cryptography · Advanced Thermodynamics and Statistical Mechanics