Seminarium Wydziału FTiMS – 17 listopada 2023 roku | FTiMS - Politechnika Gdańska


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Data dodania: 2023-11-13

Seminarium Wydziału FTiMS – 17 listopada 2023 roku

Politechnika Gdańska

Szanowni Państwo,

informujemy, że w dniu 17 listopada 2023 roku (piątek) o godzinie 13:15 w sali 2/07 Centrum Nanotechnologii A

Dr Anubhav Chaturvedi

Instytut Fizyki i Informatyki Stosowanej

Wydział Fizyki Technicznej i Matematyki Stosowanej

Politechnika Gdańska

wygłosi wykład pt. "Extending loophole-free nonlocal correlations to arbitrarily large distances".

Abstract: One of the most striking features of quantum theory is that it allows spatially separated observers to share correlations that resist local hidden variable (classical) explanations, a phenomenon referred to as Bell nonlocality. Besides their foundational relevance, the nonlocal correlations enable distant observers to accomplish classically inconceivable information processing and cryptographic feats such as unconditionally secure device-independent key distribution schemes. However, the distances over which nonlocal correlations can be realized in state-of-the-art Bell experiments remain severely limited owing to the high threshold efficiencies of the detectors and the fragility of the nonlocal correlations to experimental noise. Instead of looking for quantum strategies with marginally lower threshold requirements, we exploit the properties of loophole-free nonlocal correlations, which are experimentally attainable today, albeit at short distances, to extend them over arbitrarily large distances. Specifically, we consider Bell experiments wherein the spatially separated parties randomly choose the location of their measurement devices in addition to their measurement settings. We demonstrate that when devices close to the entanglement source are perfect and witness extremal loophole-free nonlocal correlations, such correlations can be extended to devices placed arbitrarily far from the source, with almost-zero detection efficiency and visibility. To accommodate imperfections close to the source, we demonstrate a specific analytical tradeoff: the higher the loophole-free nonlocality close to the source, the lower the threshold requirements away from the source. We utilize this analytical tradeoff paired with optimal quantum strategies to estimate the critical requirements of a measurement device placed away from the source in the simplest non-trivial scenario and formulate a versatile numerical method applicable to generic network scenarios. Our results demonstrate that the properties of already feasible short-distance loophole-free nonlocal correlations can be exploited to extend them to longer distances, enabling device-independent information processing and cryptography fuelled by long-distance loophole-free nonlocal correlations to become near-term commonplace technologies.

Serdecznie zapraszamy!

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