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Delocalization and scaling properties of low-dimensional quasiperiodic systems

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arxiv 1409.1677 v1 pith:5J6VCW4N submitted 2014-09-05 cond-mat.mes-hall cond-mat.dis-nn

Delocalization and scaling properties of low-dimensional quasiperiodic systems

classification cond-mat.mes-hall cond-mat.dis-nn
keywords scalingsystemslocalizationpropertiesquasiperiodicchainscouplinghopping
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In this paper, we explore the localization transition and the scaling properties of both quasi-one-dimensional and two-dimensional quasiperiodic systems, which are constituted from coupling several Aubry-Andr\'{e} (AA) chains along the transverse direction, in the presence of next-nearest-neighbor (NNN) hopping. The localization length, two-terminal conductance, and participation ratio are calculated within the tight-binding Hamiltonian. Our results reveal that a metal-insulator transition could be driven in these systems not only by changing the NNN hopping integral but also by the dimensionality effects. These results are general and hold by coupling distinct AA chains with various model parameters. Furthermore, we show from finite-size scaling that the transport properties of the two-dimensional quasiperiodic system can be described by a single parameter and the scaling function can reach the value 1, contrary to the scaling theory of localization of disordered systems. The underlying physical mechanism is discussed.

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