Multibistability and self-pulsation in nonlinear high-$Q$ silicon microring resonators considering thermo-optical effect

Multibistability and self-pulsation in nonlinear high- $Q$ silicon microring resonators considering thermo-optical effect

Libin Zhang, Yonghao Fei, Tongtong Cao, Yanmei Cao, Qingyang Xu, and Shaowu Chen

Phys. Rev. A 87, 053805 – Published 6 May 2013

Abstract

Optical bistability (BI) and self-pulsation (SP) in high- $Q$ silicon microring resonators (MRRs) induced by thermo-optical (TO) effect and other nonlinear effects are theoretically studied with coupled mode theory and linear stability analysis method. It is found that the boundaries for both BI and SP are mainly restricted by two counteracting effects: free carrier dispersion effect and TO effect. If the refractive index changes of a MRR caused by these two effects are on the same order of magnitude, the output power will exhibit much more complicated dependence on the input power and wavelength, namely, input-power-dependent multi-BI and multi-SP regions will exist at certain input wavelength range. The controllability of multi-BI and multi-SP phenomena by the input power and input wavelength could be very useful in all-optical nonlinear devices.