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Article Dans Une Revue Reports on Progress in Physics Année : 2023

Probing quantum correlations in many-body systems: a review of scalable methods

Résumé

We review methods that allow one to detect and characterise quantum correlations in many-body systems, with a special focus on approaches which are scalable. Namely, those applicable to systems with many degrees of freedom, without requiring a number of measurements or computational resources to analyze the data that scale exponentially with the system size. We begin with introducing the concepts of quantum entanglement, Einstein-Podolsky-Rosen steering, and Bell nonlocality in the bipartite scenario, to then present their multipartite generalisation. We review recent progress on characterizing these quantum correlations from partial information on the system state, such as through data-driven methods or witnesses based on low-order moments of collective observables. We then review state-of-the-art experiments that demonstrated the preparation, manipulation and detection of highly-entangled many-body systems. For each platform (e.g. atoms, ions, photons, superconducting circuits) we illustrate the available toolbox for state preparation and measurement, emphasizing the challenges that each system poses. To conclude, we present a list of timely open problems in the field.
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Dates et versions

hal-03977109 , version 1 (07-02-2023)

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Irénée Frérot, Matteo Fadel, Maciej Lewenstein. Probing quantum correlations in many-body systems: a review of scalable methods. Reports on Progress in Physics, 2023, 86 (11), pp.114001. ⟨10.1088/1361-6633/acf8d7⟩. ⟨hal-03977109⟩

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