Quasi-probabilistic Bit Erasure Causes Bell Non-locality

Kelvin Onggadinata; Pawel Kurzynski; Dagomir Kaszlikowski

arXiv:2405.16540·quant-ph·May 28, 2024

Quasi-probabilistic Bit Erasure Causes Bell Non-locality

Kelvin Onggadinata, Pawel Kurzynski, Dagomir Kaszlikowski

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TL;DR

This paper demonstrates that Bell non-locality in entangled qubits can be explained by a local quasi-stochastic process involving negative transition probabilities, linking non-locality to a form of probabilistic erasure.

Contribution

It introduces a novel explanation for Bell non-locality using quasi-stochastic processes with negative probabilities, connecting local erasure to non-local correlations.

Findings

01

Bell violation arises from local quasi-stochastic processes.

02

Negative transition probabilities are key to explaining non-locality.

03

The approach links probabilistic erasure to quantum non-local correlations.

Abstract

We show that a maximal violation of the Bell-CHSH inequality for two entangled qubits, i.e., Bell non-locality, is a direct consequence of a local bit erasure by means of a quasi-stochastic process, i.e., a stochastic process in which some transition probabilities are negative.

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TopicsDeception detection and forensic psychology · Forensic Fingerprint Detection Methods · Quality and Safety in Healthcare