Localization in Quasi-1D Systems with Random Magnetic Field

Abstract

We investigate the localization of electrons hopping on quasi-1D strips in the presence of random magnetic field. In the weak-disorder region, by perturbative analytical techniques, we derive scaling laws for the localization length, , of the form 1wη, where w is the size of magnetic disorder and the exponent η assumes different values in the various energy ranges. Moreover, in the neighborhood of the energies where a new channel opens a certain rearrangement of the perturbation expansion leads to scaling functions for . Although the latter are in general quantitatively wrong, they correctly reproduce the corresponding η exponents and the form of the scaling variables and are therefore useful for understanding the behavior of .

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