S-CAD is a new selective CAD protocol for QCKA that generalizes prior work, includes an asymptotic security proof against coherent attacks outperforming previous results, and shows via simulations when to enable or disable CAD.
Security of quantum key distribution.International Journal of Quantum Information, 6(01):1–127
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Derives the first finite-key security proof for Extended B92 QKD using a new general entropic uncertainty relation that handles data filtering and rejection.
Unauthorized subsets in qudit encrypted cloning are uninformative exactly when a congruence system has only the trivial solution, classified by a greatest-common-divisor condition that extends the qubit parity case.
citing papers explorer
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S-CAD: Selective Classical Advantage Distillation for Quantum Conference Key Agreement
S-CAD is a new selective CAD protocol for QCKA that generalizes prior work, includes an asymptotic security proof against coherent attacks outperforming previous results, and shows via simulations when to enable or disable CAD.
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Finite Key Security of the Extended B92 Protocol
Derives the first finite-key security proof for Extended B92 QKD using a new general entropic uncertainty relation that handles data filtering and rejection.
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Classification of informative subsets in quantum encrypted cloning on qudits
Unauthorized subsets in qudit encrypted cloning are uninformative exactly when a congruence system has only the trivial solution, classified by a greatest-common-divisor condition that extends the qubit parity case.