High-Mobility Tri-Gate β-Ga2O3 MESFETs with a Power Figure of Merit over 0.9 GW/cm2

Abstract

In this letter, fin-shape tri-gate β-Ga2O3 lateral MESFETs are demonstrated with a high power figure of merit of 0.95 GW/cm2 - a record high for any β-Ga2O3 transistor to date. A low-temperature undoped buffer-channel stack design is developed which demonstrates record high Hall and drift electron mobilities in doped β-Ga2O3 channels allowing for low ON resistances RON in β-Ga2O3 MESFETs. Fin-widths (Wfin) were 1.2-1.5 μm and there were 25 fins (Nfin) per device with a trench depth of 1μm. A β-Ga2O3 MESFET with a source-drain length of 6.4 μm exhibits a high ON current (187 mA/mm), low RON (20.5 .mm) and a high average breakdown field (4.2 MV/cm). All devices show very low reverse leakage until catastrophic breakdown for breakdown voltages scaled from 1.1kV to 3kV. This work demonstrates the potential of channel engineering in improving β-Ga2O3 device performance toward lower conduction losses for low-to-medium voltage applications.