Abstract
The highly reactive GaSb surface was passivated with a thin InAs layer to limit interface trap state density (Dit) at the III–V/high-k oxide interface. This InAs surface was subjected to various cleaning processes to effectively reduce native oxides before atomic layer deposition (ALD). Ammonium sulfide pre-cleaning and trimethylaluminum/water ALD were used in conjunction to provide a clean interface and annealing in forming gas (FG) at 350°C resulted in an optimized fabrication for n-GaSb/InAs/high-k gate stacks. Interface trap density, Dit≈2–3×1012cm−2eV−1 resided near the n-GaSb conductance band which was extracted and compared with three different methods. Conductance–voltage–frequency plots showed efficient Fermi level movement and a sub-threshold slope of 200mV/dec. A composite high-k oxide process was also developed using ALD of Al2O3 and HfO2 resulting in a Dit≈6–7×1012cm−2eV−1. Subjecting these samples to a higher (450°C) processing temperature results in increased oxidation and a thermally unstable interface. p-GaSb displayed very fast minority carrier generation/recombination likely due to a high density of bulk traps in GaSb.
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