Efficient Mediated Quantum Secret Sharing Protocol in a Restricted Quantum Environment

<jats:title>Abstract</jats:title><jats:p>The multiparty‐mediated quantum secret sharing (MQSS) protocol proposed by Tsai et al. [<jats:italic>Quantum Inf</jats:italic>. <jats:italic>Process</jats:italic>., <jats:bold>2022</jats:bold>, <jats:italic>21</jats:italic>, 63] allows <jats:italic>n</jats:italic> restricted users with limited quantum capabilities to share secret information using a dishonest third party with full quantum capabilities. Although the MQSS protocol allows restricted users to achieve secret sharing with lightweight quantum capabilities, the qubit efficiency of this protocol can be further improved. Therefore, this study proposes a measurement property of the graph state to design an efficient mediated quantum secret‐sharing protocol in the same quantum environment as that of Tsai et al.’s protocol. The proposed MQSS protocol not only inherits the lightweight property of Tsai et al.’s protocol but also improves the qubit efficiency of Tsai et al.’s protocol by times. Security analysis is performed to show that the proposed MQSS protocol can avoid collective, collusion, and Trojan horse attacks. Furthermore, this study uses quantum network simulation software to implement Tsai et al.’s protocol and the proposed protocol to prove the feasibility of the proposed MQSS protocol and show that it is more efficient than Tsai et al.’s protocol.</jats:p>