Current Aperture Vertical $\beta$ -Ga2O3 MOSFETs Fabricated by N- and Si-Ion Implantation Doping.

Depletion-mode vertical Ga2O3 metal-oxide-semiconductor field-effect transistors featuring a current aperture were developed on a halide vapor phase epitaxial drift layer grown on a bulk $\beta $ -Ga2O3 (001) substrate. Three ion implantation steps were employed to fabricate the ${n}^{++}$ source regions, lateral ${n}$ channel, and ${p}$ current blocking layers, where Si and N were selected as the donor and deep acceptor dopant species, respectively. The transistors delivered a drain current density of 0.42 kA/cm2, a specific on-resistance of 31.5 $\text{m}\Omega \cdot \text {cm}^{2}$ , and an output current on/off ratio of over 108. High-voltage performance of the present devices was hampered by a large gate oxide field in the off-state causing high gate leakage, a limitation that can be readily overcome through optimized doping schemes and an improved gate dielectric. The demonstration of a planar-gate vertical Ga2O3 transistor based on a highly manufacturable all-ion-implanted process greatly enhances the prospects for Ga2O3-based power electronics. [ABSTRACT FROM AUTHOR]