We report on fabrication and performance of sub-micrometer Ni/Au/Ge contacts to a two-dimensional electron gas in an AlGaAs/GaAs heterostructure. Utilizing scanning transmission electron microscopy, energy dispersive x-ray spectroscopy, and low temperature electrical measurements, we investigate the relationship between contact performance and the mechanical and chemical properties of the annealed metal stack. Contact geometry and crystallographic orientation significantly impact performance. Our results indicate that the spatial distribution of germanium in the annealed contact plays a central role in the creation of high transmission contacts. We characterize the transmission of our contacts at high magnetic fields in the quantum Hall regime. Our work establishes that contacts with an area of 0.5  μm2 and resistance less than 400  Ω can be fabricated with high yield.

Topics
Hall effect, Heterostructures, Two-dimensional electron gas, Ohmic contacts, Electric measurements, Plasma processing, Energy dispersive X-ray spectroscopy, Metal deposition, Transmission electron microscopy, Electron-beam lithography
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