International Journal of Theoretical Physics - Liu et al. [Quantum Inf. Process. 12, 1797–1805 (2013)] proposed a multi-party quantum key agreement (QKA) protocol based on single particles.... 相似文献
Based on four-qubit symmetric W state, the delayed measurement, decoy photos method, block transmission technique and the dense coding method, a multi-party quantum key agreement protocol is proposed. By utilizing the delayed measurement and decoy photos method, the fairness and security of the protocol are ensured. That is, the final generation key can be got fairly by m participants and the outside eavesdropper (includes Trojan-horse attacks, Measure-resend attack, Intercept-resend attack and Entangle-measure attack) and the dishonest participants attacks can be resisted in this protocol. By utilizing block transmission technique and the dense coding method, the efficiency of the protocol is improved. The efficiency analysis shows that the proposed protocol is more efficient than other multi-party QKA protocols. 相似文献
Digital signature plays an important role in cryptography. Many quantum digital signature (QDS) schemes have been proposed up to now since the security of classic digital signature (CDS) schemes becomes more and more vulnerable with the development of quantum computing algorithms. Most of the existing quantum signature schemes are based on probabilistic comparison of quantum states, which makes the schemes very complicated. In this paper, we propose a new QDS scheme based on local indistinguishability of orthogonal product states. In the scheme, the receiver cooperates with the arbitrator to verify the valid of the signature. The analysis of security and efficiency shows that our scheme is secure and efficient.
International Journal of Theoretical Physics - In this paper, we propose a two-party quantum private comparison (QPC) protocol using orthogonal product states. This protocol introduces a... 相似文献