Mustapha Anis Younes, Sofia Zebboudj, Abdelhakim Gharbi
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Despite these improvements, their protocol is limited to two participants and remains a primarily two-way communication scheme, which does not fully prevent the Trojan horse attack without expensive quantum devices such as photon number splitters (PNS) and wavelength filters (WF). To address these issues, this paper develops a novel multi-party SQSS scheme using the quantum property between Bell states and the Hadamard operation to detect eavesdroppers. This new scheme is secure against the DCNA, intercept-resend attack, and collective attack. It employs a fully one-way communication scheme, entirely preventing the Trojan horse attack without costly quantum devices, aligning with the semi-quantum environment’s original intent. This new protocol also offers better qubit efficiency and allows Alice to share specific secrets.</p></div>","PeriodicalId":597,"journal":{"name":"International Journal of Theoretical Physics","volume":"63 11","pages":""},"PeriodicalIF":1.3000,"publicationDate":"2024-11-23","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"A Lightweight and Efficient Multiparty Semi-Quantum Secret Sharing Protocol Using Entangled States for Sharing Specific Bit\",\"authors\":\"Mustapha Anis Younes, Sofia Zebboudj, Abdelhakim Gharbi\",\"doi\":\"10.1007/s10773-024-05834-1\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<div><p>Recently, Younes et al. \\n(2024) proposed an efficient multi-party semi-quantum secret sharing (SQSS) scheme that generalizes Tian et al.’s three-party protocol (Tian et al. Quantum Inf. Process. <b>20</b>(6), 2021) to accommodate multiple participants. 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It employs a fully one-way communication scheme, entirely preventing the Trojan horse attack without costly quantum devices, aligning with the semi-quantum environment’s original intent. 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引用次数: 0
摘要
最近,Younes 等人(2024 年)提出了一种高效的多方半量子秘密共享(SQSS)方案,该方案概括了 Tian 等人的三方协议(Tian et al.Quantum Inf.Process.20(6), 2021),以适应多个参与者。该方案保留了原有的优点,如高量子比特效率和允许秘密交易者 Alice 控制信息内容。然而,(He et al.Quantum Inf.Process 23(2), 2024)发现 Tian 等人的协议存在双 CNOT 攻击(DCNA)漏洞,这也影响了广义方案。作为回应,He 等人提出了一个改进协议来解决这个问题。尽管有了这些改进,但他们的协议仅限于两个参与者,而且仍然主要是一种双向通信方案,如果没有昂贵的量子设备,如光子数分配器(PNS)和波长滤波器(WF),就不能完全防止木马攻击。为解决这些问题,本文开发了一种新型多方 SQSS 方案,利用贝尔态之间的量子特性和哈达玛运算来检测窃听者。这种新方案可以安全地抵御 DCNA、拦截-发送攻击和集体攻击。它采用完全单向通信方案,无需昂贵的量子设备就能完全防止木马攻击,符合半量子环境的初衷。这种新协议还具有更好的量子比特效率,并允许爱丽丝共享特定秘密。
A Lightweight and Efficient Multiparty Semi-Quantum Secret Sharing Protocol Using Entangled States for Sharing Specific Bit
Recently, Younes et al.
(2024) proposed an efficient multi-party semi-quantum secret sharing (SQSS) scheme that generalizes Tian et al.’s three-party protocol (Tian et al. Quantum Inf. Process. 20(6), 2021) to accommodate multiple participants. This scheme retains the original advantages, such as high qubit efficiency and allowing the secret dealer, Alice, to control the message content. However, (He et al. Quantum Inf. Process 23(2), 2024) identified a vulnerability in Tian et al.’s protocol to the double CNOT attack (DCNA), which also affects the generalized scheme. In response, He et al. proposed an improved protocol to address this issue. Despite these improvements, their protocol is limited to two participants and remains a primarily two-way communication scheme, which does not fully prevent the Trojan horse attack without expensive quantum devices such as photon number splitters (PNS) and wavelength filters (WF). To address these issues, this paper develops a novel multi-party SQSS scheme using the quantum property between Bell states and the Hadamard operation to detect eavesdroppers. This new scheme is secure against the DCNA, intercept-resend attack, and collective attack. It employs a fully one-way communication scheme, entirely preventing the Trojan horse attack without costly quantum devices, aligning with the semi-quantum environment’s original intent. This new protocol also offers better qubit efficiency and allows Alice to share specific secrets.
期刊介绍:
International Journal of Theoretical Physics publishes original research and reviews in theoretical physics and neighboring fields. Dedicated to the unification of the latest physics research, this journal seeks to map the direction of future research by original work in traditional physics like general relativity, quantum theory with relativistic quantum field theory,as used in particle physics, and by fresh inquiry into quantum measurement theory, and other similarly fundamental areas, e.g. quantum geometry and quantum logic, etc.
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