DPR-MP-QKD achieves secure key rates approaching continuous MP-QKD using about 14 discrete phases and a discrete decoy-state analysis, while requiring only a few bits of randomness instead of unlimited supply.
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An enhanced CV-MDI-QKD scheme correlates data and ancilla noise via symplectic transforms within GKP error correction to achieve fault-tolerant suppression of loss and operation errors, with numerical composable security shown for wired and wireless links under Gaussian attacks.
Phase postselection variant of SNS QKD raises sending probability and improves simulated transmission distance with or without odd-parity pairing.
citing papers explorer
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Discrete-phase-randomized mode-pairing quantum key distribution
DPR-MP-QKD achieves secure key rates approaching continuous MP-QKD using about 14 discrete phases and a discrete decoy-state analysis, while requiring only a few bits of randomness instead of unlimited supply.
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Fault-tolerant measurement-device-independent quantum key distribution with noisy non-Gaussian error correction
An enhanced CV-MDI-QKD scheme correlates data and ancilla noise via symplectic transforms within GKP error correction to achieve fault-tolerant suppression of loss and operation errors, with numerical composable security shown for wired and wireless links under Gaussian attacks.
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Sending-or-not-sending quantum key distribution with phase postselection
Phase postselection variant of SNS QKD raises sending probability and improves simulated transmission distance with or without odd-parity pairing.