Topological Phase Transition in the Non-Hermitian Coupled Resonator Array

Yutian Ao; Xiaoyong Hu; Yilong You; Cuicui Lu; Yulan Fu; Xingyuan Wang; Qihuang Gong

doi:10.1103/PhysRevLett.125.013902

Topological Phase Transition in the Non-Hermitian Coupled Resonator Array

Yutian Ao, Xiaoyong Hu^*, Yilong You, Cuicui Lu^*, Yulan Fu, Xingyuan Wang^*, Qihuang Gong

^*Corresponding author for this work

School of Physics

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

58 Citations (Scopus)

Abstract

In a two-dimensional non-Hermitian topological photonic system, the physics of topological states is complicated, which brings great challenges for clarifying the topological phase transitions and achieving precise active control. Here, we prove the topological phase transition exists in a two-dimensional parity-time-symmetric coupled-resonator optical waveguide system. We reveal the inherent condition of the appearance of topological phase transition, which is described by the analytical algebraic relation of coupling strength and the quantity of gain-loss. In this framework, the system can be switched between the topological and trivial states by pumping the site rings. This work provides a new degree of freedom to control topological states and offers a scheme for studying non-Hermitian topological photonics.

Original language	English
Article number	013902
Journal	Physical Review Letters
Volume	125
Issue number	1
DOIs	https://doi.org/10.1103/PhysRevLett.125.013902
Publication status	Published - 3 Jul 2020

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10.1103/PhysRevLett.125.013902

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abstract = "In a two-dimensional non-Hermitian topological photonic system, the physics of topological states is complicated, which brings great challenges for clarifying the topological phase transitions and achieving precise active control. Here, we prove the topological phase transition exists in a two-dimensional parity-time-symmetric coupled-resonator optical waveguide system. We reveal the inherent condition of the appearance of topological phase transition, which is described by the analytical algebraic relation of coupling strength and the quantity of gain-loss. In this framework, the system can be switched between the topological and trivial states by pumping the site rings. This work provides a new degree of freedom to control topological states and offers a scheme for studying non-Hermitian topological photonics.",

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AU - You, Yilong

AU - Lu, Cuicui

AU - Fu, Yulan

AU - Wang, Xingyuan

AU - Gong, Qihuang

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Y1 - 2020/7/3

N2 - In a two-dimensional non-Hermitian topological photonic system, the physics of topological states is complicated, which brings great challenges for clarifying the topological phase transitions and achieving precise active control. Here, we prove the topological phase transition exists in a two-dimensional parity-time-symmetric coupled-resonator optical waveguide system. We reveal the inherent condition of the appearance of topological phase transition, which is described by the analytical algebraic relation of coupling strength and the quantity of gain-loss. In this framework, the system can be switched between the topological and trivial states by pumping the site rings. This work provides a new degree of freedom to control topological states and offers a scheme for studying non-Hermitian topological photonics.

AB - In a two-dimensional non-Hermitian topological photonic system, the physics of topological states is complicated, which brings great challenges for clarifying the topological phase transitions and achieving precise active control. Here, we prove the topological phase transition exists in a two-dimensional parity-time-symmetric coupled-resonator optical waveguide system. We reveal the inherent condition of the appearance of topological phase transition, which is described by the analytical algebraic relation of coupling strength and the quantity of gain-loss. In this framework, the system can be switched between the topological and trivial states by pumping the site rings. This work provides a new degree of freedom to control topological states and offers a scheme for studying non-Hermitian topological photonics.

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Topological Phase Transition in the Non-Hermitian Coupled Resonator Array

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