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Zero-error attack against coherent-one-way quantum key distribution

Róbert Trényi, Marcos Curty

2021New Journal of Physics26 citationsDOIOpen Access PDF

Abstract

Abstract Coherent-one-way (COW) quantum key distribution (QKD) held the promise of distributing secret keys over long distances with a simple experimental setup. Indeed, this scheme is currently used in commercial applications. Surprisingly, however, it has been recently shown that its secret key rate scales at most quadratically with the system’s transmittance and, thus, it is not appropriate for long distance QKD transmission. Such pessimistic result was derived by employing a so-called zero-error attack, in which the eavesdropper does not introduce any error, but still the legitimate users of the system cannot distill a secure key. Here, we present an improved zero-error attack against COW-QKD that significantly outperforms previous approaches, and provides stronger restrictions on its maximum achievable distance in the absence of errors. This translates into an upper bound on its secret key rate that is more than an order of magnitude lower than previously known upper bounds.

Topics & Concepts

Quantum key distributionPhysicsQuadratic growthUpper and lower boundsKey (lock)Key generationSimple (philosophy)Quantum cryptographyQuantumDistribution (mathematics)Topology (electrical circuits)Scheme (mathematics)CryptographyQuantum information scienceStatistical physicsKey sizeQuantum networkOrder (exchange)Quantum capacityComputer securityTransmittanceTheoretical computer scienceQuantum Information and CryptographyAdvanced Statistical Modeling TechniquesQuantum Computing Algorithms and Architecture
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