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Practical Quantum Key Distribution That is Secure Against Side Channels

Álvaro Navarrete, Margarida Pereira, Marcos Curty, Kiyoshi Tamaki

2021Physical Review Applied26 citationsDOIOpen Access PDF

Abstract

There is a large gap between theory and practice in quantum key distribution (QKD) because real devices do not satisfy the assumptions required by the security proofs. Here, we close this gap by introducing a simple and practical measurement-device-independent-QKD type of protocol, based on the transmission of coherent light, for which we prove its security against any possible imperfection and/or side channel from the quantum communication part of the QKD devices. Our approach only requires to experimentally characterize an upper bound of one single parameter for each of the pulses sent, which describes the quality of the source. Moreover, unlike device-independent (DI) QKD, it can accommodate information leakage from the users' laboratories, which is essential to guarantee the security of QKD implementations. In this sense, its security goes beyond that provided by DI QKD, yet it delivers a secret key rate that is various orders of magnitude greater than that of DI QKD.

Topics & Concepts

Quantum key distributionComputer scienceKey (lock)Channel (broadcasting)Transmission (telecommunications)Quantum channelQuantumUpper and lower boundsTopology (electrical circuits)Secure transmissionInformation leakageQuantum networkQuantum information scienceQuantum cryptographySide channel attackComputer networkSimple (philosophy)Distribution (mathematics)Information transmissionSecurity analysisQuantum informationTransmission channelInformation theoryQuantum capacityPhysicsKey distributionElectronic engineeringQuality (philosophy)Secure communicationQuantum mechanicsQuantum computerQuantum Information and CryptographyAdvanced Statistical Modeling TechniquesQuantum Computing Algorithms and Architecture