Litcius/Paper detail

Quantum secure direct communication based on quantum homomorphic encryption

Xi Huang, Shibin Zhang, Yan Chang, Fan Yang, Min Hou, Wen Cheng

2021Modern Physics Letters A22 citationsDOI

Abstract

As one of the most important branches of quantum cryptography, quantum secure direct communication (QSDC) is used to transmit the secret message directly rather than distribute a random key. Quantum homomorphic encryption (QHE) enables arbitrary quantum transformation on encrypted data without decrypting the data. To date, the previously proposed QSDC schemes are mainly based on different quantum states. The research of the QSDC scheme based on QHE is still blank. In this paper, a QSDC scheme by taking advantage of the properties of QHE is proposed. The proposed protocol has applied QHE and decoy photons to prevent various types of attacks. The proposed scheme only utilizes the rotation operation to encode the secret message which is easy to implement with the current technologies. Moreover, the communication efficiency and the qubit-utilization ratio are analyzed in this paper, which shows that this protocol has good performance in the qubit-utilization ratio, and the qubit efficiency of the QSDC scheme has improved.

Topics & Concepts

Homomorphic encryptionEncryptionScheme (mathematics)Quantum key distributionQubitQuantum cryptographyQuantumPhysicsComputer scienceProtocol (science)Quantum entanglementKey (lock)CryptographyTopology (electrical circuits)Computer networkAlgorithmMathematicsQuantum mechanicsComputer securityQuantum informationCombinatoricsMedicineMathematical analysisPathologyAlternative medicineQuantum Information and CryptographyQuantum Mechanics and ApplicationsQuantum Computing Algorithms and Architecture
Quantum secure direct communication based on quantum homomorphic encryption | Litcius