Semi-quantum ring signature protocol based on multi-particle GHZ state.

The emergence of semi-quantum protocols reduces the conditions for the implementation of quantum signatures, so that users without quantum capabilities can communicate securely. As a kind of quantum signature, ring signature has been widely concerned in recent years because of its excellent characteristics such as unconditional anonymity. Combining the conception of semi-quantum with the characteristics of ring signature scheme, a semi-quantum ring signature protocol based on multi-particle GHZ state is proposed in this paper. It is achieved through the correlation between particles in GHZ state. In this protocol, only the trusted third-party arbitrator Trent has full quantum ability, called quantum party. The other users are classical parties with specific quantum capabilities, and there is no need for direct communication between the signer and the verifier, which makes the protocol has lower complexity and greatly reduces the dependence on quantum resources. In addition, the results of security analysis show that the proposed semi-quantum ring protocol scheme has the ability to reliably resist various attacks and has good security. [ABSTRACT FROM AUTHOR]