Electron beam probing of non-equilibrium carrier dynamics in 18 MeV alpha particle- And 10 MeV proton-irradiated Si-doped β -Ga2O3Schottky rectifiers

Sushrut Modak; Leonid Chernyak; Alfons Schulte; Minghan Xian; Fan Ren; Stephen J. Pearton; Igor Lubomirsky; Arie Ruzin; Sergey S. Kosolobov; Vladimir P. Drachev

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Electron beam probing of non-equilibrium carrier dynamics in 18 MeV alpha particle- And 10 MeV proton-irradiated Si-doped β -Ga2O3Schottky rectifiers

Applied Physics Letters (2021) 118(20)

DOI: 10.1063/5.0052601

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Abstract

Minority hole diffusion length and lifetime were measured in independent experiments by electron beam-induced current and time-resolved cathodoluminescence in Si-doped β-Ga2O3 Schottky rectifiers irradiated with 18 MeV alpha particles and 10 MeV protons. Both diffusion length and lifetime exhibited a decrease with increasing temperature. The non-equilibrium minority hole mobility was calculated from the independently measured diffusion length and lifetime, indicating that the so-called hole self-trapping is most likely irrelevant in the 77-295 K temperature range.

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Modak, S., Chernyak, L., Schulte, A., Xian, M., Ren, F., Pearton, S. J., … Drachev, V. P. (2021). Electron beam probing of non-equilibrium carrier dynamics in 18 MeV alpha particle- And 10 MeV proton-irradiated Si-doped β -Ga2O3Schottky rectifiers. Applied Physics Letters, 118(20). https://doi.org/10.1063/5.0052601

Electron beam probing of non-equilibrium carrier dynamics in 18 MeV alpha particle- And 10 MeV proton-irradiated Si-doped β -Ga2O3Schottky rectifiers

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