The Influence of Percolation in the generalized Chalker-Coddington Model

Abstract

We numerically investigate the influence of classical percolation on the quantum Hall localization-delocalization transition. This is accomplished within the framework of the generalized Chalker--Coddington network model which allows us to control the number of classical saddle points by setting the width W of the saddle point distribution. It is found that increasing this width causes a new microscopic length scale to appear which depends on W and scales with the exponent X≈ 1.36 which indicates a close connection to the classical percolation length and its exponent p=4/3. Furthermore, the influence of an increase in W on the spectral statistics of the quasienergies of the network model is investigated. An effect similar to the increase of the potential correlation length in the Landau model is seen.

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