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A Verifiable Arbitrated Quantum Signature Scheme Based on Controlled Quantum Teleportation

Dianjun Lu, Zhihui Li, Jing Yu, Zhaowei Han

2022Entropy31 citationsDOIOpen Access PDF

Abstract

In this paper, we present a verifiable arbitrated quantum signature scheme based on controlled quantum teleportation. The five-qubit entangled state functions as a quantum channel. The proposed scheme uses mutually unbiased bases particles as decoy particles and performs unitary operations on these decoy particles, applying the functional values of symmetric bivariate polynomial. As such, eavesdropping detection and identity authentication can both be executed. The security analysis shows that our scheme can neither be disavowed by the signatory nor denied by the verifier, and it cannot be forged by any malicious attacker.

Topics & Concepts

EavesdroppingVerifiable secret sharingComputer scienceQuantum teleportationSuperdense codingQuantum cryptographyQuantum channelTopology (electrical circuits)Unitary stateQuantum entanglementQuantumPhysicsTheoretical computer scienceQuantum mechanicsComputer securityMathematicsQuantum informationCombinatoricsProgramming languageLawPolitical scienceSet (abstract data type)Quantum Information and CryptographyQuantum Computing Algorithms and ArchitectureQuantum Mechanics and Applications
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