Continuous variable quantum discord in a cavity electrooptical down-conversion quantum system

Abstract

In this paper, we explore continuous variable quantum discord for the stationary microwave–optical output fields in an electrooptical system. We drive the covariance matrix of the system using the quantum Langevin equations for the intera-cavity microwave and optical modes. Employing the input–output theory, we obtained the output microwave and optical resonator variables in the Fourier frequency domain. The properties of the Gaussian quantum discord with respect to electrooptical cooperativity, the normalized cavity wave guides for microwave and optical resonators, and the thermal mean photon number for microwave and optical modes have been analyzed. Henceforth, we obtained that the Gaussian quantum discord can be enhanced by increasing the electrooptical cooperativity and microwave and optical wave guides. The thermal mean photon numbers of the microwave and optical modes have reduction effects on the Gaussian quantum discord.