Localization Transition in Multilayered Disordered Systems

Abstract

The Anderson delocalization-localization transition is studied in multilayered systems with randomly placed interlayer bonds of density p and strength t. In the absence of diagonal disorder (W=0), following an appropriate perturbation expansion, we estimate the mean free paths in the main directions and verify by scaling of the conductance that the states remain extended for any finite p, despite the interlayer disorder. In the presence of additional diagonal disorder (W > 0) we obtain an Anderson transition with critical disorder Wc and localization length exponent independently of the direction. The critical conductance distribution Pc(g) varies, however, for the parallel and the perpendicular directions. The results are discussed in connection to disordered anisotropic materials.

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