Dynamics of Anderson localization in open 3D media

S.E. Skipetrov; B.A. van Tiggelen

arXiv:cond-mat/0508726·cond-mat.dis-nn·May 23, 2007

Dynamics of Anderson localization in open 3D media

S.E. Skipetrov, B.A. van Tiggelen

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TL;DR

This paper presents a self-consistent theoretical framework to analyze the time-dependent behavior and decay rate distribution of Anderson localized states in open 3D disordered media, especially near the mobility edge.

Contribution

It introduces a novel self-consistent approach to study the dynamics of Anderson localization in open 3D systems, focusing on time-dependent transmission, reflection, and decay rates.

Findings

01

Analyzes the dynamics of Anderson localization in 3D media.

02

Provides insights into decay rate distributions near the mobility edge.

03

Develops a theoretical model for open disordered systems.

Abstract

We develop a self-consistent theoretical approach to the dynamics of Anderson localization in open three-dimensional (3D) disordered media. The approach allows us to study time-dependent transmission and reflection, and the distribution of decay rates of quasi-modes of 3D disordered slabs near the Anderson mobility edge.

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