Dynamic Multi-Party to Multi-Party Quantum Secret Sharing based on Bell States

IF 4.4 Q1 OPTICS Advanced quantum technologies Pub Date : 2024-05-26 DOI:10.1002/qute.202400116
Yuan Tian, Jialong Wang, Genqing Bian, Jinyong Chang, Jian Li
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Abstract

Quantum secret sharing as a privacy-preserving scheme necessitating collaborative efforts from all participating users to collectively recover encrypted information. This paper introduces a novel dynamic multi-party to multi-party quantum secret sharing protocol based on Bell states, enabling secure sharing of secrets among dynamically changing multi-party. The protocol innovatively employs Bell states combined with simplified local unitary operations, significantly reducing the complexity and enhancing the scalability of practical implementations in quantum communication systems. Particularly, through simulation using IBM's Qiskit framework, its correctness and practicality are confirmed. Security analysis demonstrates that the protocol effectively withstands common attack methods, providing reliability, and security in quantum communication. This research presents a more flexible and efficient solution in the field of quantum secret sharing.

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基于贝尔态的动态多方到多方量子秘密共享
量子秘密共享作为一种隐私保护方案,需要所有参与用户协同努力,共同恢复加密信息。本文介绍了一种基于贝尔态的新型动态多方对多方量子秘密共享协议,实现了动态变化的多方之间的秘密安全共享。该协议创新性地将贝尔态与简化的局部单元运算相结合,大大降低了量子通信系统实际实现的复杂性并增强了可扩展性。特别是,通过使用 IBM 的 Qiskit 框架进行仿真,该协议的正确性和实用性得到了证实。安全性分析表明,该协议能有效抵御常见的攻击方法,为量子通信提供了可靠性和安全性。这项研究为量子秘密共享领域提供了一种更灵活、更高效的解决方案。
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CiteScore
7.90
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0.00%
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0
期刊最新文献
Back Cover: Universal Quantum Fisher Information and Simultaneous Occurrence of Landau-Class and Topological-Class Transitions in Non-Hermitian Jaynes-Cummings Models (Adv. Quantum Technol. 10/2024) Front Cover: Solid-State Qubit as an On-Chip Controller for Non-Classical Field States (Adv. Quantum Technol. 10/2024) Inside Front Cover: Nonlinear Effect Analysis and Sensitivity Improvement in Spin Exchange Relaxation Free Atomic Magnetometers (Adv. Quantum Technol. 10/2024) Issue Information (Adv. Quantum Technol. 10/2024) Front Cover: Superconducting Diode Effect in a Constricted Nanowire (Adv. Quantum Technol. 9/2024)
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