Experimental violation of Bell inequalities for multi-dimensional systems

TL;DR

This paper demonstrates the experimental violation of Bell inequalities in bipartite quantum systems with extremely high dimensions (over 4000), confirming quantum nonlocality in large-dimensional systems.

Contribution

First experimental verification of Bell inequality violations in bipartite systems with dimensions exceeding 4000, using polarization-entangled photon pairs.

Findings

Bell inequalities violated for d>4000

Confirms quantum nonlocality in high-dimensional systems

Introduces a new method for studying large-dimensional entanglement

Abstract

Quantum correlations between spatially separated parts of a $d$-dimensional bipartite system ($d\geq 2$) have no classical analog. Such correlations, also called entanglements, are not only conceptually important, but also have a profound impact on information science. In theory the violation of Bell inequalities based on local realistic theories for $d$-dimensional systems provides evidence of quantum nonlocality. Experimental verification is required to confirm whether a quantum system of extremely large dimension can possess this feature, however it has never been performed for large dimension (e.g., $d\geq 1000$). Here, we report that Bell inequalities are experimentally violated for bipartite quantum systems of extremely high dimensionality with the usual ensembles of polarization-entangled photon pairs. Our entanglement source violates Bell inequalities for extremely high dimensionality of $d>4000$. The designed scenario offers a possible new method to investigate the entanglement of multipartite systems of large dimensionality and their application in quantum information processing.