Nonlocality as a consequence of complementarity

Hai Wang; Asutosh Kumar; Junde Wu

arXiv:1612.02524·quant-ph·July 17, 2018

Nonlocality as a consequence of complementarity

Hai Wang, Asutosh Kumar, Junde Wu

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TL;DR

This paper demonstrates that quantum nonlocality arises fundamentally from the principle of complementarity between global and local observables in Bell's experiments, highlighting their interconnected nature.

Contribution

It establishes a theoretical link showing that complementarity directly underpins quantum nonlocality, providing a new foundational perspective.

Findings

01

Complementarity between global and local observables leads to nonlocality.

02

Bell's experiment exemplifies the complementarity-nonlocality connection.

03

Theoretical proof connecting complementarity to nonlocality in quantum systems.

Abstract

Complementarity and nonlocality are two characteristic traits of quantum physics that distinguishes it from classical physics. In this paper, we prove that the complementarity between global and local observables in Bell's experiment sets the decisive foundation for the nonlocality of composite systems.

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