Universal flow diagram for the magnetoconductance in disordered GaAs layers
Abstract
The temperature driven flow lines of the diagonal and Hall magnetoconductance data (Gxx,Gxy) are studied in heavily Si-doped, disordered GaAs layers with different thicknesses. The flow lines are quantitatively well described by a recent universal scaling theory developed for the case of duality symmetry. The separatrix Gxy=1 (in units e2/h) separates an insulating state from a spin-degenerate quantum Hall effect (QHE) state. The merging into the insulator or the QHE state at low temperatures happens along a semicircle separatrix Gxx2+(Gxy-1)2=1 which is divided by an unstable fixed point at (Gxx,Gxy)=(1,1).
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