David C. Dixon, Keith R. Wald, Paul L. McEuen, M. R. Melloch
Published 1997-01-07Version 1
We have used gated GaAs/AlGaAs heterostructures to explore nonlinear transport between spin-resolved Landau level (LL) edge states over a submicron region of two-dimensional electron gas (2DEG). The current I flowing from one edge state to the other as a function of the voltage V between them shows diode-like behavior---a rapid increase in I above a well-defined threshold V_t under forward bias, and a slower increase in I under reverse bias. In these measurements, a pronounced influence of a current-induced nuclear spin polarization on the spin splitting is observed, and supported by a series of NMR experiments. We conclude that the hyperfine interaction plays an important role in determining the electronic properties at the edge of a 2DEG.
Comments: 8 pages RevTeX, 7 figures (GIF); submitted to Phys. Rev. B
Gauge field for edge state in graphene
Phase Transition to Insulating State from Quantum Hall State by Current-Induced Nuclear Spin Polarization
Optically erasing disorder in semiconductor microcavities with dynamic nuclear polarization
