Correlated States of Electrons in Wide Quantum Wells at Low Fillings: The Role of Charge Distribution Symmetry

Abstract

Magneto-transport measurements on electrons confined to a 57 nm-wide, GaAs quantum well reveal that the correlated electron states at low Landau level fillings () display a remarkable dependence on the symmetry of the electron charge distribution. At a density of 1.93 × 1011 cm-2, a developing fractional quantum Hall state is observed at the even-denominator filling = 1/4 when the distribution is symmetric, but it quickly vanishes when the distribution is made asymmetric. At lower densities, as we make the charge distribution asymmetric, we observe a rapid strengthening of the insulating phases that surround the = 1/5 fractional quantum Hall state.