Quantum homomorphic aggregation signature scheme based on GHZ states

IF 1.8 4区 物理与天体物理 Q3 PHYSICS, APPLIED Modern Physics Letters B Pub Date : 2024-05-07 DOI:10.1142/s0217984924503871
Xingjia Wei, Zhihui Li, Haozhe Duan, Kexin Hu
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Abstract

A quantum homomorphic aggregation signature scheme is proposed based on GHZ states, combined with homomorphic aggregation techniques. The scheme has the following features: Firstly, by changing the existing quantum homomorphic signature scheme which generally uses Bell state as the signature particle, and choosing GHZ state as the signature particle, it can realize the signature of the multi-bit messages by preparing fewer quantum resources; Secondly, the idea of classical aggregated signature is introduced, where multiple message signatures are aggregated into a single signature by quantum entanglement swapping technique, and the verifier can determine the validity of all signatures by only one verification; At the same time, the verification of individual signatures by the aggregator is realized, and dishonest behaviors among the signature members can be detected in time; Finally, the whole signature process satisfies the basic homomorphic property. Compared with the existing quantum homomorphic signature scheme, this scheme can effectively reduce the consumption of quantum resources, improving the efficiency of signature verification and enhancing the reliability of the signature. The security analysis shows that the scheme has the verifiability, unforgeability and non-repudiation.

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基于 GHZ 状态的量子同态聚合签名方案
基于 GHZ 状态,结合同态聚合技术,提出了一种量子同态聚合签名方案。该方案具有以下特点:首先,改变了现有量子同态签名方案一般使用贝尔态作为签名粒子的做法,选择 GHZ 态作为签名粒子,可以通过准备较少的量子资源实现多比特报文的签名;其次,引入了经典聚合签名的思想,通过量子纠缠交换技术将多个报文签名聚合成一个签名,验证者只需验证一次即可确定所有签名的有效性;同时,实现了聚合者对单个签名的验证,可以及时发现签名成员中的不诚实行为;最后,整个签名过程满足基本的同态特性。与现有的量子同态签名方案相比,该方案能有效减少量子资源的消耗,提高签名验证的效率,增强签名的可靠性。安全性分析表明,该方案具有可验证性、不可伪造性和不可抵赖性。
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来源期刊
Modern Physics Letters B
Modern Physics Letters B 物理-物理:凝聚态物理
CiteScore
3.70
自引率
10.50%
发文量
235
审稿时长
5.9 months
期刊介绍: MPLB opens a channel for the fast circulation of important and useful research findings in Condensed Matter Physics, Statistical Physics, as well as Atomic, Molecular and Optical Physics. A strong emphasis is placed on topics of current interest, such as cold atoms and molecules, new topological materials and phases, and novel low-dimensional materials. The journal also contains a Brief Reviews section with the purpose of publishing short reports on the latest experimental findings and urgent new theoretical developments.
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