Litcius/Paper detail

Continuous-variable measurement-device-independent multipartite quantum communication via a fast-fading channel

Runbo Zhao, Jian Zhou, Ronghua Shi, Jinjing Shi, Guangqiang He

2025Physical review. A/Physical review, A9 citationsDOI

Abstract

This study investigates the implementation of measurement-device-independent multiparty quantum communication using continuous-variable Greenberger-Horne-Zeilinger (CV GHZ) states under the fast fading channel. The communication parties are connected through free space, and factors such as atmospheric turbulence cause beam drift, resulting in variations in channel transmittance according to specific probability distributions. We assume a worst-case scenario in which an eavesdropper has complete control over the channel, forcing the communicators to estimate the channel based on this probability distribution. The protocol employs CV GHZ states to achieve secure communication through quantum cryptographic conference and quantum secret sharing. For the aspect of security, independent entangling cloner attack and coherent attack are analyzed. Simulation results demonstrate that the protocol can withstand advantageous attacks from eavesdroppers.

Topics & Concepts

FadingMultipartiteChannel (broadcasting)Continuous variableVariable (mathematics)Computer scienceQuantumStatistical physicsPhysicsMathematicsTelecommunicationsQuantum mechanicsStatisticsQuantum entanglementMathematical analysisQuantum Information and CryptographyQuantum Computing Algorithms and ArchitectureQuantum optics and atomic interactions