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We report an enhancement-mode (E-mode) p -channel GaN heterojunction field-effect transistor with a metal-insulator-semiconductor gate structure. A 60 mV/dec subthreshold swing is experimentally achieved in the E-mode GaN p -channel transistors on an unintentionally doped GaN interlayer for the first time by using a low-power plasma gate recessing etch and gate dielectric deposition pre-treatment. The fabricated p -channel transistors exhibit excellent E-mode performance with a threshold voltage of −1. 53 V, an effective on-resistance of 1. 0 k. mm, a peak transconductance of 1. 0 mS/mm, and a high I ₎₍/I ₎₅₅ ratio > 10 7. Bi-directional gate sweep measurements on the p-channel devices show a threshold voltage shift of 0. 12 V and an increased subthreshold swing of 107 mV/dec. In addition, the dual-channel conduction mechanism in the p -channel GaN transistors is presented and discussed.
Yin et al. (Wed,) studied this question.
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