Ultra-compact Si/In2O3 hybrid plasmonic waveguide modulator with a high bandwidth beyond 40 GHz

Abstract

Optical modulators are required to have high modulation bandwidths and a compact footprint. In this paper we experimentally demonstrate a novel Si/In2O3 hybrid plasmonic waveguide modulator, which is realized by an asymmetric directional coupler (ADC) consisting of a silicon photonic waveguide and a Si/In2O3 hybrid plasmonic waveguide. The optical signal is modulated by radio-frequency (RF) signal applied on the Au electrodes at the top of MOS capacitor and contacting the In2O3 thin film. The record-high modulation bandwidth of >40 GHz is realized by a silicon-doping-free metal-oxide-In2O3 capacitor integrated in a 3.5-μm-long asymmetric directional coupler (ADC) for the first time.