Bell inequalities certify non-signaling quantum correlations and DI randomness under noisy signaling channels, remaining robust even with near-perfect input copies.
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A framework with operational criteria and a trapped-atom hardware proposal for achieving statistically significant quantum advantage in latency-constrained nonlocal games.
Overview of recent analytical and numerical developments in QKD security proofs that incorporate imperfections to re-establish security under realistic conditions.
citing papers explorer
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Quantum Nonlocality and Device-Independent Randomness are Robust to Noisy Signaling Channels
Bell inequalities certify non-signaling quantum correlations and DI randomness under noisy signaling channels, remaining robust even with near-perfect input copies.
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Operational criteria for quantum advantage in latency-constrained nonlocal games
A framework with operational criteria and a trapped-atom hardware proposal for achieving statistically significant quantum advantage in latency-constrained nonlocal games.
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Quantum Key Distribution with Imperfections: Recent Advances in Security Proofs
Overview of recent analytical and numerical developments in QKD security proofs that incorporate imperfections to re-establish security under realistic conditions.