An EPR local theory with a local correlation

W LiMing; Zhilie Tang

arXiv:0807.0065·quant-ph·August 27, 2008

An EPR local theory with a local correlation

W LiMing, Zhilie Tang

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TL;DR

This paper proposes a local theory with local correlation to explain quantum entanglement phenomena and the violations of Bell's inequality, aligning with experimental results for GHZ and Bell states.

Contribution

It introduces a local theory with local correlation that accounts for quantum entanglement and Bell inequality violations, challenging traditional nonlocal interpretations.

Findings

01

The theory matches experimental predictions for GHZ and Bell states.

02

Contradictions in GHZ proofs are attributed to local correlation.

03

Violations of Bell's inequality are explained by local correlation.

Abstract

A local theory with a local correlation is proposed to give an explanation for the contractions in the GHZ-like proofs for Bell's theorem and the violation to Bell's inequality. It agrees with the experimental predictions for the GHZ state of three entangled spins, the Bell state of two entangled spins and one spin state. It is found that the contradiction in the GHZ-like proofs and the violation to Bell's inequality can be attributed to the local correlation.

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Taxonomy

TopicsQuantum Mechanics and Applications · Quantum Information and Cryptography · Quantum Computing Algorithms and Architecture