Boundary-Induced Topological Chiral Extended States in Weyl Metamaterial Waveguides

Ning Han; Fujia Chen; Mingzhu Li; Rui Zhao; Wenhao Li; Qiaolu Chen; Li Zhang; Yuang Pan; Yuze Hu; Mingyu Tong; Lu Qi; Jingwen Ma; Zhi Ming Yu; Hongsheng Chen; Yihao Yang

doi:10.1103/PhysRevLett.134.196601

Boundary-Induced Topological Chiral Extended States in Weyl Metamaterial Waveguides

Ning Han, Fujia Chen, Mingzhu Li, Rui Zhao, Wenhao Li, Qiaolu Chen, Li Zhang, Yuang Pan, Yuze Hu, Mingyu Tong, Lu Qi, Jingwen Ma, Zhi Ming Yu, Hongsheng Chen^*, Yihao Yang^*

^*Corresponding author for this work

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

Abstract

In topological physics, it is commonly understood that the existence of the boundary states of a topological system is inherently dictated by its bulk. A classic example is that the surface Fermi-arc states of a Weyl system are determined by the chiral charges of Weyl points within the bulk. Contrasting with this established perspective, here, we theoretically and experimentally discover a family of topological chiral bulk states extending over photonic Weyl metamaterial waveguides, solely induced by the waveguide boundaries, independently of the waveguide width. Notably, these chiral bulk states showcase discrete momenta and function as tunnels that connect Fermi-arc surface states living in different two-dimensional spaces via a third dimension. Our work offers an alternative mechanism for robust chiral bulk transport of waves and highlights the boundaries as a new degree of freedom to regulate bulk Weyl quasiparticles.

Original language	English
Article number	196601
Journal	Physical Review Letters
Volume	134
Issue number	19
DOIs	https://doi.org/10.1103/PhysRevLett.134.196601
Publication status	Published - 16 May 2025
Externally published	Yes

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abstract = "In topological physics, it is commonly understood that the existence of the boundary states of a topological system is inherently dictated by its bulk. A classic example is that the surface Fermi-arc states of a Weyl system are determined by the chiral charges of Weyl points within the bulk. Contrasting with this established perspective, here, we theoretically and experimentally discover a family of topological chiral bulk states extending over photonic Weyl metamaterial waveguides, solely induced by the waveguide boundaries, independently of the waveguide width. Notably, these chiral bulk states showcase discrete momenta and function as tunnels that connect Fermi-arc surface states living in different two-dimensional spaces via a third dimension. Our work offers an alternative mechanism for robust chiral bulk transport of waves and highlights the boundaries as a new degree of freedom to regulate bulk Weyl quasiparticles.",

author = "Ning Han and Fujia Chen and Mingzhu Li and Rui Zhao and Wenhao Li and Qiaolu Chen and Li Zhang and Yuang Pan and Yuze Hu and Mingyu Tong and Lu Qi and Jingwen Ma and Yu, {Zhi Ming} and Hongsheng Chen and Yihao Yang",

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AU - Han, Ning

AU - Chen, Fujia

AU - Li, Mingzhu

AU - Zhao, Rui

AU - Li, Wenhao

AU - Chen, Qiaolu

AU - Zhang, Li

AU - Pan, Yuang

AU - Hu, Yuze

AU - Tong, Mingyu

AU - Qi, Lu

AU - Ma, Jingwen

AU - Yu, Zhi Ming

AU - Chen, Hongsheng

AU - Yang, Yihao

PY - 2025/5/16

Y1 - 2025/5/16

N2 - In topological physics, it is commonly understood that the existence of the boundary states of a topological system is inherently dictated by its bulk. A classic example is that the surface Fermi-arc states of a Weyl system are determined by the chiral charges of Weyl points within the bulk. Contrasting with this established perspective, here, we theoretically and experimentally discover a family of topological chiral bulk states extending over photonic Weyl metamaterial waveguides, solely induced by the waveguide boundaries, independently of the waveguide width. Notably, these chiral bulk states showcase discrete momenta and function as tunnels that connect Fermi-arc surface states living in different two-dimensional spaces via a third dimension. Our work offers an alternative mechanism for robust chiral bulk transport of waves and highlights the boundaries as a new degree of freedom to regulate bulk Weyl quasiparticles.

AB - In topological physics, it is commonly understood that the existence of the boundary states of a topological system is inherently dictated by its bulk. A classic example is that the surface Fermi-arc states of a Weyl system are determined by the chiral charges of Weyl points within the bulk. Contrasting with this established perspective, here, we theoretically and experimentally discover a family of topological chiral bulk states extending over photonic Weyl metamaterial waveguides, solely induced by the waveguide boundaries, independently of the waveguide width. Notably, these chiral bulk states showcase discrete momenta and function as tunnels that connect Fermi-arc surface states living in different two-dimensional spaces via a third dimension. Our work offers an alternative mechanism for robust chiral bulk transport of waves and highlights the boundaries as a new degree of freedom to regulate bulk Weyl quasiparticles.

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Boundary-Induced Topological Chiral Extended States in Weyl Metamaterial Waveguides

Abstract

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