Litcius/Paper detail

Security framework for quantum key distribution with imperfect sources

Guillermo Currás-Lorenzo, Margarida Pereira, Go Kato, Marcos Curty, Kiyoshi Tamaki

2025Optica Quantum11 citationsDOIOpen Access PDF

Abstract

Imperfect bit-and-basis encoders compromise the security of quantum key distribution (QKD) systems via modulation flaws, side channels, and inter-pulse correlations, which invalidate standard security proofs. Existing results addressing such imperfections suffer from critical limitations: they either consider only specific flaws, offer an unreasonably poor performance, or require the protocol to be run very slowly. Here, we present a finite-key security proof approach against coherent attacks that incorporates general bit-and-basis encoding imperfections (including modulation flaws, side channels, and inter-pulse correlations) while achieving significantly better performances than previous approaches and requiring only partial characterization.

Topics & Concepts

ImperfectQuantum key distributionComputer scienceKey (lock)CompromiseEncoding (memory)Protocol (science)EncoderModulation (music)QuantumComputer securityComputer security modelDistribution (mathematics)Security analysisTheoretical computer scienceCryptographic protocolQuantum cryptographyQuantum Information and CryptographyQuantum Computing Algorithms and Architecture