Correlated states of 2D electrons near the Landau level filling =1/7

Abstract

The ground state of two-dimensional electron systems (2DESs) at low Landau level filling factors (1/6) has long been a topic of interest and controversy in condensed matter. Following the recent breakthrough in the quality of ultra-high-mobility GaAs 2DESs, we revisit this problem experimentally and investigate the impact of reduced disorder. In a GaAs 2DES sample with density n=6.1×1010 /cm2 and mobility μ=25×106 cm2/Vs, we find a deep minimum in the longitudinal magnetoresistance (Rxx) at =1/7 when T104 mK. There is also a clear sign of a developing minimum in the Rxx at =2/13. While insulating phases are still predominant when 1/6, these minima strongly suggest the existence of fractional quantum Hall states at filling factors that comply with the Jain sequence =p/(2mp1) even in the very low Landau level filling limit. The magnetic field dependent activation energies deduced from the relation Rxx eEA/2kT corroborate this view, and imply the presence of pinned Wigner solid states when ≠ p/(2mp1). Similar results are seen in another sample with a lower density, further generalizing our observations.