Non-Hermitian extensions of the Anderson and Aubry-André-Harper models are attracting considerable interest as platforms to study localization phenomena, metal-insulator, and topological phase transitions in disordered non-Hermitian systems. Most of the available studies, however, resort to numerical results, while few analytical and rigorous results are available owing to the extraordinary complexity of the underlying problem. Here we consider a parity-time symmetric extension of the Aubry-André-Harper model, undergoing a topological metal-insulator phase transition, and provide rigorous analytical results of energy spectrum, symmetry breaking phase transition, and localization length. In particular, by extending to the non-Hermitian realm the Thouless result relating localization length and density of states, we derive an analytical form of the localization length in the insulating phase, showing that-like in the Hermitian Aubry-André-Harper model-the localization length is independent of energy.

Metal-insulator phase transition in a non-Hermitian Aubry-André-Harper model

Longhi S.
2019-01-01

Abstract

Non-Hermitian extensions of the Anderson and Aubry-André-Harper models are attracting considerable interest as platforms to study localization phenomena, metal-insulator, and topological phase transitions in disordered non-Hermitian systems. Most of the available studies, however, resort to numerical results, while few analytical and rigorous results are available owing to the extraordinary complexity of the underlying problem. Here we consider a parity-time symmetric extension of the Aubry-André-Harper model, undergoing a topological metal-insulator phase transition, and provide rigorous analytical results of energy spectrum, symmetry breaking phase transition, and localization length. In particular, by extending to the non-Hermitian realm the Thouless result relating localization length and density of states, we derive an analytical form of the localization length in the insulating phase, showing that-like in the Hermitian Aubry-André-Harper model-the localization length is independent of energy.
2019
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11311/1127159
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