Hopping conductivity in the quantum Hall effect -- revival of universal scaling

Abstract

We have measured the temperature dependence of the conductivity σxx of a two-dimensional electron system deep into the localized regime of the quantum Hall plateau transition. Using variable-range hopping theory we are able to extract directly the localization length from this experiment. We use our results to study the scaling behavior of as a function of the filling factor distance |δ | to the critical point of the transition. We find for all samples a power-law behavior |δ|-γ with a universal scaling exponent γ = 2.3 as proposed theoretically.

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