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Secret-Key Distillation across a Quantum Wiretap Channel under Restricted Eavesdropping

Ziwen Pan, Kaushik P. Seshadreesan, William Clark, Mark R. Adcock, Ivan B. Djordjevic, Jeffrey H. Shapiro, Saikat Guha

2020Physical Review Applied26 citationsDOIOpen Access PDF

Abstract

The theory of quantum cryptography aims to guarantee unconditional information-theoretic security against an omnipotent eavesdropper. In many practical scenarios, however, the assumption of an all-powerful adversary is excessive and can be relaxed considerably. In this paper we study secret-key distillation across a lossy and noisy quantum wiretap channel between Alice and Bob, with a separately parameterized realistically lossy quantum channel to the eavesdropper Eve. We show that under such restricted eavesdropping, the key rates achievable can exceed the secret-key-distillation capacity against an unrestricted eavesdropper in the quantum wiretap channel. Furthermore, we show upper bounds on the key rates based on the relative entropy of entanglement. This simple restricted eavesdropping model is widely applicable, for example, to free-space quantum optical communication, where realistic collection of light by Eve is limited by the finite size of her optical aperture. Future work will include calculating bounds on the amount of light Eve can collect under various realistic scenarios.

Topics & Concepts

EavesdroppingComputer scienceLossy compressionQuantumChannel (broadcasting)Quantum channelQuantum cryptographyKey (lock)Upper and lower boundsParameterized complexityQuantum key distributionAdversaryEntropy (arrow of time)Quantum capacityTopology (electrical circuits)Alice and BobQuantum information scienceCommunication sourceCryptographyStatistical physicsInformation theorySwap (finance)PhysicsQuantum networkAmplitude damping channelSubadditivityKullback–Leibler divergenceRobustness (evolution)Quantum entanglementAlgorithmSimple (philosophy)Information-theoretic securityCoherent informationQuantum Information and CryptographyWireless Communication Security TechniquesQuantum Mechanics and Applications
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