Scaling in Plateau-to-Plateau Transition: A Direct Connection of Quantum Hall Systems with Anderson Localization Model

Abstract

The quantum Hall plateau transition was studied at temperatures down to 1 mK in a random alloy disordered high mobility two-dimensional electron gas. A perfect power-law scaling with =0.42 was observed from 1.2K down to 12mK. This perfect scaling terminates sharply at a saturation temperature of Ts~10mK. The saturation is identified as a finite-size effect when the quantum phase coherence length (Lφ ~ T-p/2) reaches the sample size (W) of millimeter scale. From a size dependent study, Ts W-1 was observed and p=2 was obtained. The exponent of the localization length, determined directly from the measured and p, is =2.38, and the dynamic critical exponent z = 1.