Abstract
The hybrid architecture of the driven qubit-photon-magnon system has recently emerged as a promising candidate for novel quantum technologies. In this paper, we introduce the effective wave-function of a superconducting single qubit and a magnon mode contained within a cavity resonator and an external field. The non-classicality of the magnon and resonator modes are investigated by using the negative values of the Wigner function. Additionally, we discuss the non-classicality of the qubit state via the Wigner-Yanase skew information. We find that the mixture angle of the qubit-resonator plays a controllable role in non-classicality. However, the strength of the magnon-photon increases the non-classical behaviour of the system.