Litcius/Paper detail

Multiparty quantum key agreement

Song Lin, Xin Zhang, Gongde Guo, Lili Wang, Xiaofen Liu

2021Physical review. A/Physical review, A38 citationsDOI

Abstract

In this paper, we discuss in some detail how multiparty quantum key agreement protocols must be carefully designed and present a collusion attack to illustrate this point. Then, a secure circle-type multiparty quantum key agreement with Bell states is proposed. Bell states are used as the information carriers and transmitted among the participants, who embed their secrets into the traveling particles via certain encoding operations. In this way, all participants simultaneously obtain the same agreement key, i.e., the sum of their secret inputs, at the end of the protocol. Here, quantum state discrimination is utilized to design the encoding operations, which ensures that the proposed protocol is correct and secure against the presented collusion attack. Furthermore, it is shown that the proposed protocol satisfies three conditions of a secure quantum key agreement protocol in theory. In addition, these encoding operations consist of some common single-qubit gates, the Hadamard operator and four Pauli operators, which makes the proposed protocol feasible using current technology.

Topics & Concepts

Computer scienceQubitKey (lock)Protocol (science)Pauli exclusion principleCollusionEncoding (memory)Quantum informationHadamard transformQuantum computerTheoretical computer scienceQuantumPhysicsQuantum mechanicsComputer securityEconomicsAlternative medicinePathologyMicroeconomicsArtificial intelligenceMedicineQuantum Information and CryptographyQuantum Mechanics and ApplicationsQuantum Computing Algorithms and Architecture
Multiparty quantum key agreement | Litcius