The quantum Hall plateau transition at order 1/N

Abstract

The localization behavior of noninteracting two-dimensional electrons in a random potential and strong magnetic field is of fundamental interest for the physics of the quantum Hall effect. In order to understand the emergence of power-law delocalization near the discrete extended-state energies En = ωc (n+1/2), we study a generalization of the disorder-averaged Liouvillian framework for the lowest Landau level to N flavors of electron densities (N=1 for the physical case). We find analytically the large-N limit and 1/N corrections for all disorder strengths: at N = ∞ this gives an estimate of the critical conductivity, and at order 1/N an estimate of the localization exponent . The localization properties of the analytically tractable N 1 theory seem to be continuously connected to those of the exact quantum Hall plateau transition at N = 1.

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