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Main Authors: Xu, Jia-Rui, Xiong, Zhan, Deng, Kai, Wang, Hai-Xiao, Liu, Shiyang, Qian, Yixian, Jiang, Jian-Hua
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2512.19078
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author Xu, Jia-Rui
Xiong, Zhan
Deng, Kai
Wang, Hai-Xiao
Liu, Shiyang
Qian, Yixian
Jiang, Jian-Hua
author_facet Xu, Jia-Rui
Xiong, Zhan
Deng, Kai
Wang, Hai-Xiao
Liu, Shiyang
Qian, Yixian
Jiang, Jian-Hua
contents Antichiral surface states, characterized by unidirectional propagation on parallel surfaces, offer unique potential for controlling classical waves. However, their realization typically relies on complex implementations of the two-dimensional modified Haldane model, limiting practical applications. Here, we propose a simplified scheme to realize such states within the nodal-line semimetal phase of a single-layer honeycomb lattice, by emulating the essential physics of the modified Haldane model through an introduced layer degree of freedom. Furthermore, we demonstrate that unequal vertical interlayer couplings can generate valley higher-order topological partial bandgaps, hosting coexisting one-dimensional hinge states and gapped antichiral surface states. We numerically verify these multiple topological states in acoustic crystals, establishing a versatile platform for advanced wave manipulation.
format Preprint
id arxiv_https___arxiv_org_abs_2512_19078
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Antichiral surface states and higher-order topological states based on a modified Haldane model
Xu, Jia-Rui
Xiong, Zhan
Deng, Kai
Wang, Hai-Xiao
Liu, Shiyang
Qian, Yixian
Jiang, Jian-Hua
Applied Physics
Antichiral surface states, characterized by unidirectional propagation on parallel surfaces, offer unique potential for controlling classical waves. However, their realization typically relies on complex implementations of the two-dimensional modified Haldane model, limiting practical applications. Here, we propose a simplified scheme to realize such states within the nodal-line semimetal phase of a single-layer honeycomb lattice, by emulating the essential physics of the modified Haldane model through an introduced layer degree of freedom. Furthermore, we demonstrate that unequal vertical interlayer couplings can generate valley higher-order topological partial bandgaps, hosting coexisting one-dimensional hinge states and gapped antichiral surface states. We numerically verify these multiple topological states in acoustic crystals, establishing a versatile platform for advanced wave manipulation.
title Antichiral surface states and higher-order topological states based on a modified Haldane model
topic Applied Physics
url https://arxiv.org/abs/2512.19078