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We report on the power performance of GaN-on-Si metal–oxide–semiconductor high electron mobility transistors (MOSHEMTs) with a high- k ZrO 2 gate dielectric formed by atomic layer deposition. As a result of the high-quality ZrO 2 and ZrO 2 /AlGaN interface, the MOSHEMTs demonstrate an excellent ON/OFF current ratio of 5 10^10, a steep subthreshold slope of 66 mV/dec, a small hysteresis of ~0. 05 V, and a high breakdown voltage of 1084 V at 1~ A /mm. Effective suppression of current collapse with a dynamic-to-static ON-resistance ratio of 1. 78 at a drain bias of 600 V is also achieved in the device. Benefiting from the highly uniform gate stack, large-area devices with a gate width of 20 mm were also demonstrated using the ZrO 2 gate dielectric, exhibiting a maximum output current of 7. 4 A, a low ON-resistance of 0. 66~, and a high breakdown voltage of 650 V at an OFF-state drain current of 1~ A /mm.
Jiang et al. (Thu,) studied this question.