Design of On-Chip Multi-Slot Chalcogenide Waveguide for Mid-Infrared Methane Sensing

A chalcogenide (ChG) multi-slot waveguide gas sensor with ChG as the core layer and silicon dioxide (SiO2) as the under-cladding layer is proposed. Multi-slot waveguide can be used in the mid-infrared gas measurement. The optimized power confinement factor (PCF) of the ChG multi-slot waveguide can be up to 41.3%, which is similar to 20% higher than that of the optimized single-slot waveguide. At the absorption line located at 3.291 mu m for methane (CH4) measurement, the limits of detection (LoD) of single-slot, double-slot, triple-slot, quadruple-slot waveguide sensors are determined to be 68.9, 57.4, 52, 48.6 parts per million (ppm), respectively. Compared with other waveguide sensors in the mid-infrared, the PCF of the proposed multi-slot ChG/SiO2 waveguide sensor is enhanced by five times, which has the potential for highly sensitive gas sensing.