Improved Breakdown Voltage and Low Damage E-Mode Operation of AlON/AlN/GaN HEMTs Using Plasma Oxidation Treatment

Low-damage plasma oxidation treatment for AlN/GaN high-electron-mobility transistors (HEMTs) was developed in this letter, with which high-performance enhancement-mode (E-mode) AlON/AlN/GaN HEMTs were demonstrated. After removal of in situ SiN cap layer within gate area, remote plasma oxidation (RPO) treatment of 4.9nm AlN barrier layer at 300 °C leads to formation of AlON insulator layer and effective depletion of 2-D electron gas channel, without etch-induced damage or serious interfacial issues compared with the commonly used gate- recess metal-insulator-semiconductor HEMTs. Thanks to the low-damage RPO treatment, the achieved E-mode HEMTs with threshold voltage of 0.4 V exhibit quite a small loss of output current (7.8%) compared with the depletion-mode devices. In addition, the AlON gate insulator layer results in a remarkable increase in breakdown voltage of devices from 20 V to 74 V, which benefits the high-voltage operation of AlN/GaN technology. Further investigation shows that the oxidation process of AlN barrier tends to be saturated with treatment time increasing, providing a promising solution to the high-performance E-mode operation of scaled GaN-based HEMTs in RF applications.