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The inherently absent 2-dimensional electron gas in ultra-pure GaN/AlGaN heterostructures

2018-12-19
S. Schmult, S. Wirth, V.V. Solovyev, R. Hentschel, A. Wachowiak, A. Großer, I.V. Kukushkin, T. Mikolajick

Abstract

Gallium nitride (GaN) has emerged as an essential semiconductor material for energy-efficient lighting and electronic applications owing to its large direct bandgap of 3.4 eV. Present GaN/AlGaN heterostructures seemingly feature an inherently existing, highly-mobile 2-dimensional electron gas (2DEG), which results in normally-on transistor characteristics. Here we report on an ultra-pure GaN/AlGaN layer stack grown by molecular beam epitaxy, in which such a 2DEG is absent at 300 K in the dark, a property previously not demonstrated. Illumination with ultra-violet light however, generates a 2DEG at the GaN/AlGaN interface and the heterostructure becomes electrically conductive. At temperatures below 150 K this photo-conductivity is persistent with an insignificant dependence of the 2D channel density on the optical excitation power. Residual donor impurity concentrations below 10$^{17}$ cm$^{-3}$ in the GaN/AlGaN layer stack are one necessity for our observations. Fabricated transistors manifest that these characteristics enable a future generation of normally-off as well as light-sensitive GaN-based device concepts.

Abstract (translated by Google)
URL

https://arxiv.org/abs/1812.07942

PDF

https://arxiv.org/pdf/1812.07942


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