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Very low sheet resistance and Shubnikov–de-Haas oscillations in two-dimensional electron gases at ultrathin binary AlN∕GaN heterojunctions

2008; American Institute of Physics; Volume: 92; Issue: 15 Linguagem: Inglês

10.1063/1.2911748

1520-8842

Yu Cao, Kejia Wang, Alexei O. Orlov, Huili Grace Xing, Debdeep Jena,

Quantum and electron transport phenomena

Very low sheet resistance two-dimensional electron gases have been obtained at ultrathin AlN∕GaN heterojunctions. By investigating the molecular beam epitaxy growth conditions, the interface roughness at the heterojunction has been reduced, leading to high room-temperature electron mobilities (μ∼1400–1600cm2∕Vs) and high electron sheet densities due to spontaneous and piezoelectric polarization (ns∼1–3×1013cm−2) depending on the AlN thickness. This combination led to a large reduction of the room-temperature sheet resistance of 148Ω∕◻, a new record. The improved transport properties have made it possible to observe Shubnikov–de-Haas oscillations of the magnetoresistance of the two-dimensional electron gas at ultrathin binary AlN∕GaN heterojunctions for the first time. The results are indicative of the vast potential of high-quality AlN∕GaN structures for a variety of device applications.