Quantum identity authentication using a Hadamard gate based on a GHZ state

Abstract

Abstract According to the properties of the Hadamard gate and GHZ state, a quantum authentication protocol with transferable information is proposed. This protocol has higher security and integrity. Specifically, the direct appearance of the key and the transmitted information are not required for both quantum and classical channels. In addition, the protocol realizes the key update in the process of identity authentication, which can automatically generate the key needed for the next information transmission. We expect that our protocol can be extended to many other quantum communication technologies.