Bell-type games on deformable manifolds

David H. Oaknin; Amir Kalev; Itay Hen

arXiv:2111.14228·quant-ph·January 3, 2024

Bell-type games on deformable manifolds

David H. Oaknin, Amir Kalev, Itay Hen

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TL;DR

This paper explores how local deformations of the playing manifold in Bell-type games can lead to stronger bipartite correlations than traditionally possible, impacting foundational quantum physics debates.

Contribution

It introduces a novel setup where manifold deformation enhances bipartite correlations, offering new insights into Bell's theorem and quantum nonlocality.

Findings

01

Stronger correlations achieved via manifold deformation

02

Implications for Bell's theorem and EPR paradox

03

Potential new avenues for quantum information protocols

Abstract

We study bipartite correlations in Bell-type games. We show that in a setup where the information carriers are allowed to locally deform the manifold on which the game is played, stronger correlations may be obtained than those maximally attainable otherwise. We discuss the implications of our results in the context of Bell's theorem and the Einstein-Podolsky-Rosen paradox.

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Taxonomy

TopicsQuantum Mechanics and Applications · Computability, Logic, AI Algorithms · Philosophy and History of Science