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Coexistence of dynamical delocalization and spectral localization through stochastic dissipation

Sebastian Weidemann, Mark Kremer, Stefano Longhi, Alexander Szameit

2021Nature Photonics105 citationsDOIOpen Access PDF

Abstract

Abstract Anderson’s groundbreaking discovery that the presence of stochastic imperfections in a crystal may result in a sudden breakdown of conductivity 1 revolutionized our understanding of disordered media. After stimulating decades of studies 2 , Anderson localization has found applications in various areas of physics 3–12 . A fundamental assumption in Anderson’s treatment is that no energy is exchanged with the environment. Recently, a number of studies shed new light on disordered media with dissipation 14–22 . In particular it has been predicted that random fluctuations solely in the dissipation, introduced by the underlying potential, could exponentially localize all eigenstates (spectral localization) 14 , similar to the original case without dissipation that Anderson considered. We show in theory and experiment that uncorrelated disordered dissipation can simultaneously cause spectral localization and wave spreading (dynamical delocalization). This discovery implies the breakdown of the commonly known correspondence between spectral and dynamical localization known from the Hermitian Anderson model with uncorrelated disorder.

Topics & Concepts

Anderson localizationDissipationDelocalized electronPhysicsUncorrelatedAnderson impurity modelStatistical physicsQuantum mechanicsMathematicsElectronStatisticsRandom lasers and scattering mediaQuantum chaos and dynamical systemsQuantum Mechanics and Non-Hermitian Physics