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Main Authors: Ammari, Habib, Barandun, Silvio, Liu, Ping, Uhlmann, Alexander
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2405.05002
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author Ammari, Habib
Barandun, Silvio
Liu, Ping
Uhlmann, Alexander
author_facet Ammari, Habib
Barandun, Silvio
Liu, Ping
Uhlmann, Alexander
contents The aim of this paper is to illustrate both analytically and numerically the interplay of two fundamentally distinct non-Hermitian mechanisms in a deep subwavelength regime. Considering a parity-time symmetric system of one-dimensional subwavelength resonators equipped with two kinds of non-Hermiticity - an imaginary gauge potential and on-site gain and loss - we prove that all but two eigenmodes of the system decouple when going through an exceptional point. By tuning the gain-to-loss ratio, the system changes from a phase with unbroken parity-time symmetry to a phase with broken parity-time symmetry. At the macroscopic level, this is observed as a transition from symmetrical eigenmodes to condensated eigenmodes at one edge of the structure. Mathematically, it arises from a topological state change. The results of this paper open the door to the justification of a variety of phenomena arising from the interplay between non-Hermitian reciprocal and non-reciprocal mechanisms not only in subwavelength wave physics but also in quantum mechanics where the tight binding model coupled with the nearest neighbour approximation can be analysed with the same tools as those developed here.
format Preprint
id arxiv_https___arxiv_org_abs_2405_05002
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Tunable Localisation in Parity-Time-Symmetric Resonator Arrays with Imaginary Gauge Potentials
Ammari, Habib
Barandun, Silvio
Liu, Ping
Uhlmann, Alexander
Optics
Mathematical Physics
Analysis of PDEs
35B34, 47B28, 35P25, 35C20, 81Q12, 15A18, 15B05
The aim of this paper is to illustrate both analytically and numerically the interplay of two fundamentally distinct non-Hermitian mechanisms in a deep subwavelength regime. Considering a parity-time symmetric system of one-dimensional subwavelength resonators equipped with two kinds of non-Hermiticity - an imaginary gauge potential and on-site gain and loss - we prove that all but two eigenmodes of the system decouple when going through an exceptional point. By tuning the gain-to-loss ratio, the system changes from a phase with unbroken parity-time symmetry to a phase with broken parity-time symmetry. At the macroscopic level, this is observed as a transition from symmetrical eigenmodes to condensated eigenmodes at one edge of the structure. Mathematically, it arises from a topological state change. The results of this paper open the door to the justification of a variety of phenomena arising from the interplay between non-Hermitian reciprocal and non-reciprocal mechanisms not only in subwavelength wave physics but also in quantum mechanics where the tight binding model coupled with the nearest neighbour approximation can be analysed with the same tools as those developed here.
title Tunable Localisation in Parity-Time-Symmetric Resonator Arrays with Imaginary Gauge Potentials
topic Optics
Mathematical Physics
Analysis of PDEs
35B34, 47B28, 35P25, 35C20, 81Q12, 15A18, 15B05
url https://arxiv.org/abs/2405.05002