Spectrum of a microcavity with single quantum nonlinearity

Abstract

In this paper, we investigate the emission spectrum of a nonlinear microcavity at the level of individual quantum. The physical system consists of one coherently pumped microcavity in which a self-interacting bosonic matter field strongly couples with the cavity field. By the master equation treatment, we obtain an analytical expression for the emission spectrum of the cavity. It is found that when the strength of the bosonic nonlinear effect is greater than a critical level, the spectrum of the single-mode cavity field is divided into doublet peaks. Furthermore, we also study the influence of the detuning between cavity field and matter field on the emission property. We show that the emission intensity is enhanced by negative detuning and suppressed by positive detuning.