Annealing of Proton and Alpha Particle Damage in Au-W/β-Ga2O3 Rectifiers

Abstract

Vertical geometry Ga2O3 rectifiers were irradiated with 18 MeV alpha particles to fluences of 1–3 × 1013 cm−2 or 10 MeV protons to fluences of 1–3 × 1014 cm−2 and then annealed to establish the thermal stability of the radiation damage. The rectifiers employed Au/W rectifying contacts to achieve the requisite thermal stability to allow for annealing studies. The carrier removal rates were ∼900 cm−1 for the α-particles and ∼200 for the protons. Annealing at 500°C was found to restore the carrier concentration in the α-particle irradiated devices, while 450°C annealing brought substantial recovery of the proton irradiated devices. This is a similar temperature range as established for annealing of plasma-induced damage in Ga2O3, suggesting a common origin of point defects, predominantly Ga vacancies and their complexes. The reverse breakdown voltages and diode on/off ratios are also significantly recovered by annealing after irradiation.