The electrical and photoelectric characteristics of the Ga2O3/n-GaAs structures have been studied. A gallium oxide film was obtained by RF-magnetron sputtering on n-GaAs epitaxial layers with a concentration of Nd = 9.5ˑ1014 cm-3. The thickness of the oxide film was 120 nm. Measurements at a frequency of 106 Hz have shown that the capacitance-voltage and voltage-siemens dependences are described by curves characteristic of metal-insulator-semiconductor structures and exhibit low sensitivity to radiation with λ = 254 nm. The samples exhibit the properties of a photodiode and are able to work offline when operating on a constant signal. The photoelectric characteristics of the detectors during continuous exposure to radiation with λ = 254 nm are determined by the high density of traps at the Ga2O3/GaAs interface and in the bulk of the oxide film.
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