An efficient controlled semi-quantum secret sharing protocol with entangled state
Houshmand, M., Hassanpour, S., & Haghparast, M. (2024). An efficient controlled semi-quantum secret sharing protocol with entangled state. Optical and Quantum Electronics, 56(5), Article 759. https://doi.org/10.1007/s11082-024-06434-3
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© The Author(s), under exclusive licence to Springer Science+Business Media, LLC, part of Springer Nature 2024
In this paper, we present an entangled state controlled semi-quantum secret sharing CSQSS protocol for the frst time. In this scheme, with the permission of a trusted classical user, Bob1, Alice, as a quantum user, can share a one-bit specifc message with n classical users, and the secret can only be recovered by the cooperation of all classical users. Then, the protocol is extended where m-bit specifc messages, K (k1, k2, ..., km), can be shared with n classical users. The security of the proposed protocol against common attacks is analysed in detail, which shows that the proposed protocol is theoretically secure. Compared with previous SQSS protocols, the proposed protocol can achieve a lower cost because it does not use returning qubits for producing the secret message, uses fewer returning qubits for eavesdropping check, and does not perform entangled state measurement. Moreover, the proposed protocol has the highest qubit efciency among the previous SQSS schemes.
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