Delocalization of electrons in a Random Magnetic Field

Abstract

Delocalization problem for a two-dimensional non-interacting electron system is studied under a random magnetic field. With the presence of a random magnetic field, the Hall conductance carried by each eigenstate can become nonzero and quantized in units of e2/h. Extended states are characterized by nonzero Hall conductance, and by studying finite-size scaling of the density of extended states, an insulator-metal phase transition is revealed. The metallic phase is found at the center of energy band which is separated from the localized states at the band tails by critical energies Ec. Both localization exponent and the critical energy Ec are shown to be dependent on the strength of random magnetic field.

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