Extending loophole-free nonlocal correlations to arbitrarily large distances

Anubhav Chaturvedi; Giuseppe Viola; Marcin Pawłowski

doi:10.1038/s41534-023-00799-1

Extending loophole-free nonlocal correlations to arbitrarily large distances

Abstract

Quantum theory allows spatially separated observers to share nonlocal correlations, which enable them to accomplish classically inconceivable information processing and cryptographic feats. However, the distances over which nonlocal correlations can be realized remain severely limited due to their high fragility to noise and high threshold detection efficiencies. To enable loophole- free nonlocality across large distances, we introduce Bell experiments wherein the spatially separated parties randomly choose the location of their measurement devices. We demonstrate that when devices close to the source are perfect and witness extremal nonlocal correlations, such correlations can be extended to devices placed arbitrarily far from the source. To accommodate imperfections close to the source, we demonstrate an analytic trade-off: the higher the loophole-free nonlocality close to the source, the lower the threshold requirements away from the source. We utilize this trade-off and formulate numerical methods to estimate the critical requirements of individual measurement devices in such experiments.

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Authors (3)

Anubhav Chaturvedi dr
Giuseppe Viola Masters
- Uniwersytet Gdański
Marcin Pawłowski dr hab. prof. UG
- Uniwersytet Gdański

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Category:

Articles

Type:

artykuły w czasopismach

Published in:

npj Quantum Information no. 10, pages 1 - 9,
ISSN: 2056-6387

Language:

English

Publication year:

2024

Bibliographic description:

Chaturvedi A., Viola G., Pawłowski M.: Extending loophole-free nonlocal correlations to arbitrarily large distances// npj Quantum Information -Vol. 7, (2024), s.1-9

DOI: