Transport and percolation in a low-density high-mobility two-dimensional hole system

Abstract

We present a study of the temperature and density dependence of the resistivity of an extremely high quality two-dimensional hole system grown on the (100) surface of GaAs. For high densities in the metallic regime (p 4 × 109 cm-2), the nonmonotonic temperature dependence ( 50-300 mK) of the resistivity is consistent with temperature dependent screening of residual impurities. At a fixed temperature of T= 50 mK, the conductivity vs. density data indicates an inhomogeneity driven percolation-type transition to an insulating state at a critical density of 3.8× 109 cm-2.