Single-photon nonlocality in quantum networks
Abstract
The state obtained when a single photon impinges on a balanced beamsplitter is often known as single-photon entangled and its nonlocal properties have been the subject of intense debates in the quantum optics and foundations communities. It is however clear that a standard Bell test made only of passive optical elements cannot reveal the nonlocality of this state. We show that the nonlocality of single-photon entangled states can nevertheless be revealed in a quantum network made only of beamsplitters and photodetectors. In our protocol, three single-photon entangled states are distributed in a triangle network, introducing indeterminacy in the photons' paths and creating nonlocal correlations without the need for measurements choices. We discuss a concrete experimental realisation and provide numerical evidence of the tolerance of our protocol to standard noise sources. Our results show that single-photon entanglement may constitute a promising solution to generate genuine network-nonlocal correlations useful for Bell-based quantum information protocols.
Cite
@article{arxiv.2108.01726,
title = {Single-photon nonlocality in quantum networks},
author = {Paolo Abiuso and Tamás Kriváchy and Emanuel-Cristian Boghiu and Marc-Olivier Renou and Alejandro Pozas-Kerstjens and Antonio Acín},
journal= {arXiv preprint arXiv:2108.01726},
year = {2022}
}
Comments
Letter. v3 close to published version