Anisotropic low-temperature piezoresistance in (311)A GaAs two-dimensional holes

Abstract

We report low-temperature resistance measurements in a modulation-doped, (311)A GaAs two-dimensional hole system as a function of applied in-plane strain. The data reveal a strong but anisotropic piezoresistance whose magnitude depends on the density as well as the direction along which the resistance is measured. At a density of 1.6×1011 cm-2 and for a strain of about 2×10-4 applied along [011], e.g., the resistance measured along this direction changes by nearly a factor of two while the resistance change in the [233] direction is less than 10% and has the opposite sign. Our accurate energy band calculations indicate a pronounced and anisotropic deformation of the heavy-hole dispersion with strain, qualitatively consistent with the experimental data. The extremely anisotropic magnitude of the piezoresistance, however, lacks a quantitative explanation.