Metallic-insulator phase transitions in the extended Harper model

Abstract

In this work we investigate the transport properties of non-relativistic quantum particles on incommensurate multilayered structures with the thicknesses wn of the layers following an extended Harper model given by wn = w0 |(π a n)|. For the normal incidence case, which means an one-dimensional system, we obtained that for a specific range of energy, it is possible to see a metallic-insulator transition with the exponent . A metallic phase is supported for <1. We also obtained that for the specific value =1 there is an alternation between metallic and insulator phases as we change the disorder strength w0. When we integrate out all incidence angles, which means a two-dimensional system, the metallic-insulator transition can be seen for much larger range of energy compared to the normal incidence case.