Thermodynamic and photochemical stability of low interface state density Ga2O3–GaAs structures fabricated by in situ molecular beam epitaxy

Abstract

The thermodynamic and photochemical stability of Ga₂O₃–GaAs interfaces fabricated using in situ multiple‐chamber molecular beam epitaxy has been investigated. The Ga₂O₃ films were deposited on clean, atomically ordered (100) GaAs surfaces using a molecular beam of gallium oxide. Thermally induced degradation of electronic interface properties such as interface recombination velocity S (5750±1250 cm/s) and interface state density D_it(mid‐10¹⁰ cm⁻² eV⁻¹ range) has not been observed after rapid thermal annealing at 800 °C. Furthermore, no interface degradation has been detected during exposure to high intensity laser light. The preservation of excellent electronic interface properties and the absence of interfacial chemical reactions are attributed to As_xO_y and elemental As free Ga₂O₃–GaAs interfaces.