Reducing disorder in Ge quantum wells by using thick SiGe barriers

Abstract

We investigate the disorder properties of two-dimensional hole gases in Ge/SiGe heterostructures grown on Ge wafers, using thick SiGe barriers to mitigate the influence of the semiconductor-dielectric interface. Across several heterostructure field effect transistors we measure an average maximum mobility of (4.4 0.2) × 106~cm2/Vs at a saturation density of (1.72 0.03) × 1011~cm-2, corresponding to a long mean free path of (30 1)~μ m. The highest measured mobility is 4.68 × 106~cm2/Vs. We identify uniform background impurities and interface roughness as the dominant scattering mechanisms limiting mobility in a representative device, and we evaluate a percolation-induced critical density of (4.5 0.1)× 109 ~cm-2. This low-disorder heterostructure, according to simulations, may support the electrostatic confinement of holes in gate-defined quantum dots.

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