Maximizing quantum discord from interference in multi-port fiber beamsplitters

J. Cariñe; M. N. Asan-Srain; G. Lima; S. P. Walborn

doi:10.1038/s41534-021-00502-2

npj Quantum Information (Dec 2021)

Maximizing quantum discord from interference in multi-port fiber beamsplitters

J. Cariñe,
M. N. Asan-Srain,
G. Lima,
S. P. Walborn

Affiliations

J. Cariñe: Departamento de Ingeniería Eléctrica, Universidad Católica de la Santísima Concepción
M. N. Asan-Srain: ANID - Millennium Science Initiative Program - Millennium Institute for Research in Optics, Universidad de Concepción
G. Lima: ANID - Millennium Science Initiative Program - Millennium Institute for Research in Optics, Universidad de Concepción
S. P. Walborn: ANID - Millennium Science Initiative Program - Millennium Institute for Research in Optics, Universidad de Concepción

DOI: https://doi.org/10.1038/s41534-021-00502-2
Journal volume & issue: Vol. 7, no. 1
pp. 1 – 8

Abstract

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Abstract Fourth-order interference is an information processing primitive for photonic quantum technologies, as it forms the basis of photonic controlled-logic gates, entangling measurements, and can be used to produce quantum correlations. Here, using classical weak coherent states as inputs, we study fourth-order interference in 4 × 4 multi-port beam splitters built within multi-core optical fibers, and show that quantum correlations, in the form of geometric quantum discord, can be controlled and maximized by adjusting the intensity ratio between the two inputs. Though these states are separable, they maximize the geometric discord in some instances, and can be a resource for protocols such as remote state preparation. This should contribute to the exploitation of quantum correlations in future telecommunication networks, in particular in those that exploit spatially structured fibers.

Published in npj Quantum Information

ISSN: 2056-6387 (Online)
Publisher: Nature Portfolio
Country of publisher: United Kingdom
LCC subjects: Science: Physics; Science: Mathematics: Instruments and machines: Electronic computers. Computer science
Website: https://www.nature.com/npjqi/

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