Effective Hamiltonian for Photonic Topological Insulator with Non-Hermitian Domain Walls

Yandong Li; Chongxiao Fan; Xiaoyong Hu; Yutian Ao; Cuicui Lu; C. T. Chan; Dante M. Kennes; Qihuang Gong

doi:10.1103/PhysRevLett.129.053903

Effective Hamiltonian for Photonic Topological Insulator with Non-Hermitian Domain Walls

Yandong Li, Chongxiao Fan, Xiaoyong Hu^*, Yutian Ao, Cuicui Lu^*, C. T. Chan^*, Dante M. Kennes, Qihuang Gong

^*Corresponding author for this work

School of Physics

Research output: Contribution to journal › Article › peer-review

23 Citations (Scopus)

Abstract

The gain and loss in photonic lattices provide possibilities for many functional phenomena. In this Letter, we consider photonic topological insulators with different types of gain-loss domain walls, which will break the translational symmetry of the lattices. A method is proposed to construct effective Hamiltonians, which accurately describe states and the corresponding energies at the domain walls for different types of photonic topological insulators and domain walls with arbitrary shapes. We also consider domain-induced higher-order topological states in two-dimensional non-Hermitian Aubry-André-Harper lattices and use our method to explain such phenomena successfully. Our results reveal the physics in photonic topological insulators with gain-loss domain walls, which provides advanced pathways for manipulation of non-Hermitian topological states in photonic systems.

Original language	English
Article number	053903
Journal	Physical Review Letters
Volume	129
Issue number	5
DOIs	https://doi.org/10.1103/PhysRevLett.129.053903
Publication status	Published - 29 Jul 2022

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10.1103/PhysRevLett.129.053903

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title = "Effective Hamiltonian for Photonic Topological Insulator with Non-Hermitian Domain Walls",

abstract = "The gain and loss in photonic lattices provide possibilities for many functional phenomena. In this Letter, we consider photonic topological insulators with different types of gain-loss domain walls, which will break the translational symmetry of the lattices. A method is proposed to construct effective Hamiltonians, which accurately describe states and the corresponding energies at the domain walls for different types of photonic topological insulators and domain walls with arbitrary shapes. We also consider domain-induced higher-order topological states in two-dimensional non-Hermitian Aubry-Andr{\'e}-Harper lattices and use our method to explain such phenomena successfully. Our results reveal the physics in photonic topological insulators with gain-loss domain walls, which provides advanced pathways for manipulation of non-Hermitian topological states in photonic systems.",

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AU - Li, Yandong

AU - Fan, Chongxiao

AU - Hu, Xiaoyong

AU - Ao, Yutian

AU - Lu, Cuicui

AU - Chan, C. T.

AU - Kennes, Dante M.

AU - Gong, Qihuang

PY - 2022/7/29

Y1 - 2022/7/29

N2 - The gain and loss in photonic lattices provide possibilities for many functional phenomena. In this Letter, we consider photonic topological insulators with different types of gain-loss domain walls, which will break the translational symmetry of the lattices. A method is proposed to construct effective Hamiltonians, which accurately describe states and the corresponding energies at the domain walls for different types of photonic topological insulators and domain walls with arbitrary shapes. We also consider domain-induced higher-order topological states in two-dimensional non-Hermitian Aubry-André-Harper lattices and use our method to explain such phenomena successfully. Our results reveal the physics in photonic topological insulators with gain-loss domain walls, which provides advanced pathways for manipulation of non-Hermitian topological states in photonic systems.

AB - The gain and loss in photonic lattices provide possibilities for many functional phenomena. In this Letter, we consider photonic topological insulators with different types of gain-loss domain walls, which will break the translational symmetry of the lattices. A method is proposed to construct effective Hamiltonians, which accurately describe states and the corresponding energies at the domain walls for different types of photonic topological insulators and domain walls with arbitrary shapes. We also consider domain-induced higher-order topological states in two-dimensional non-Hermitian Aubry-André-Harper lattices and use our method to explain such phenomena successfully. Our results reveal the physics in photonic topological insulators with gain-loss domain walls, which provides advanced pathways for manipulation of non-Hermitian topological states in photonic systems.

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Effective Hamiltonian for Photonic Topological Insulator with Non-Hermitian Domain Walls

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