Thermally Activated Deviations from Quantum Hall Plateaus

Abstract

The Hall conductivity σ xy of a two-dimensional electron system is quantized in units of e2/h when the Fermi level is located in the mobility gap between two Landau levels. We consider the deviation of σ xy from a quantized value caused by the thermal activation of electrons to the extended states for the case of a long range random potential. This deviation is of the form σ xy*(-/T). The prefactor σ xy* is equal to e2/h at temperatures above a characteristic temperature T2. With the temperature decreasing below T2, σ xy* decays according to a power law: σ xy* = e2h(T/T2)γ. Similar results are valid for a fractional Hall plateau near filling factor p/q if e is replaced by the fractional charge e/q.

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