Abstract
Quantum proxy signature(QPS) is one of the most important topics in quantum signature. In this paper, we propose a new and general model of QPS based on genuine entangled Nj-qubit (3 ≤ Nj ≤ 6,Nj ∈ N∗,j = 1,2,3,4.) states. In our model, only the teleportation of multiparty entangled states and quantum one-time pad(QOTP) encryption algorithm have been applied to ensure the security. We hope our results will be helpful to the research of quantum signature in future.
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CITATION STYLE
Zhang, H. Y., Zhang, L., & Zhang, K. J. (2019). A New Quantum Proxy Signature Model Based on a Series of Genuine Entangled States. International Journal of Theoretical Physics, 58(2), 591–604. https://doi.org/10.1007/s10773-018-3957-2
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