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Continuous-Variable Quantum Secure Direct Communication Based on Gaussian Mapping

Zhengwen Cao, Lei Wang, Kexin Liang, Geng Chai, Jinye Peng

2021Physical Review Applied69 citationsDOI

Abstract

Quantum secure direct communication (QSDC) realizes the transmission of secret messages directly in a quantum channel. A continuous-variable- (CV) based quantum-communication system allows high-speed, large-capacity information transmission in optical telecommunication systems. In this work, we propose a QSDC protocol based on Gaussian mapping. As for Gaussian modulation, the designed Gaussian-mapping scheme effectively solves the problem, which results from the nonuniformity of the secret-message bitstream, and is applicable to different modulation variances. The system performance analysis shows that the proposed scheme can realize inerrant Gaussian modulation of secret messages, and secure transmission of messages under information theory. Moreover, our work hopes to stimulate discussion on experimental realization and practical advance of CV-QSDC protocol.

Topics & Concepts

GaussianComputer scienceTransmission (telecommunications)Modulation (music)Quantum channelProtocol (science)Channel (broadcasting)Gaussian network modelQuantum key distributionBitstreamScheme (mathematics)QuantumRealization (probability)Topology (electrical circuits)AlgorithmTheoretical computer scienceComputer networkQuantum informationTelecommunicationsMathematicsPhysicsDecoding methodsQuantum mechanicsStatisticsAcousticsMathematical analysisMedicineCombinatoricsAlternative medicinePathologyQuantum Information and CryptographyQuantum Computing Algorithms and ArchitectureQuantum Mechanics and Applications
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