Enhancement-mode GaN double-channel MOS-HEMT with low on-resistance and robust gate recess

Abstract

An enhancement-mode GaN double-channel MOS-HEMT (DC-MOS-HEMT) was fabricated on a double-channel heterostructure, which features a 1.5-nm AlN layer (AlN-ISL) inserted 6 nm below the conventional barrier/GaN hetero-interface, forming a lower channel at the interface between AlN-ISL and the underlying GaN. With the gate recess terminated at the upper GaN channel layer, a positive threshold voltage is obtained, while the lower channel retains its high 2DEG mobility as the heterojunction is preserved. The fabricated device delivers a small on-resistance, large current, high breakdown voltage, and sharp subthreshold swing. The large tolerance for gate recess depth is also confirmed by both simulation and experiment.