Abstract
Gate dielectric plays an integral role in advancing the performance and reliability of GaN-based transistors. Si-alloying of aluminum oxide (Al2O3) dielectrics have been shown to provide a promising route to improve gate dielectric properties in GaN. In this letter, we report on the first demonstration of a GaN FET with aluminum silicon oxide (AlSiO) as the gate dielectric. Vertical normally-off GaN MOSFETs were fabricated on bulk GaN substrate. Excellent dc performance was achieved with a breakdown voltage of 1.2 kV, an ON-resistance of 2 $\text{m}\Omega $ .cm2, and a threshold voltage of 1.5 V (defined at $I_{\textsf {DS}} =1\,\,\mu \text{A}$ /mm). A high breakdown electric-field of 2.3 MV/cm was calculated in these devices. In addition to vertical GaN MOSFET results, a comparative study of Al2O3 and AlSiO-based in situ GaN MOS capacitors, including time-dependent dielectric breakdown characteristics is also presented.
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