Litcius/Paper detail

A quantum homomorphic signature scheme with verifiable identity based on four-particle Cluster states

Teng Chen, Dianjun Lu, Zhi-Ming Deng, Huajian Mou

2023Laser Physics Letters11 citationsDOI

Abstract

Abstract With the development of cloud computing in recent years, homomorphic signatures have become a research hotspot in modern cryptography. This article proposes a quantum homomorphic signature scheme with verifiable identity based on four-particle Cluster states, starting from the identity verification of the signers. Compared with Shang’s scheme (Shang et al 2015 Quantum Inf. Process. 14 393–410), our scheme uses four-particle Cluster states as quantum channels and achieves identity verification of the signers through the use of X operation and quantum measurement techniques. Meanwhile, our scheme extends the length of message M to 2 n bits and uses random numbers during the signature process, which makes the scheme more secure. Security analysis shows that our scheme can ensure the security of the keys and the unforgeability of the signatures.

Topics & Concepts

Homomorphic encryptionComputer scienceVerifiable secret sharingScheme (mathematics)Theoretical computer scienceQuantumCryptographySignature (topology)Cluster (spacecraft)Quantum computerComputer securityEncryptionMathematicsQuantum mechanicsPhysicsComputer networkSet (abstract data type)GeometryMathematical analysisProgramming languageQuantum Computing Algorithms and ArchitectureQuantum Information and CryptographyCryptography and Data Security