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Autori principali: Ma, Huaijin, Liu, Te, Sheng, Jiachen, Cao, Kaiyan, Yang, Jinpeng, Wang, Jian
Natura: Preprint
Pubblicazione: 2025
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Accesso online:https://arxiv.org/abs/2512.06891
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author Ma, Huaijin
Liu, Te
Sheng, Jiachen
Cao, Kaiyan
Yang, Jinpeng
Wang, Jian
author_facet Ma, Huaijin
Liu, Te
Sheng, Jiachen
Cao, Kaiyan
Yang, Jinpeng
Wang, Jian
contents Topological quasiparticles, such as merons and bimerons, are characterized by non-trivial textures that exhibit remarkably robust transport against deformation, offering significant potential for information processing. While these phenomena have been explored in various systems, acoustic realizations remain challenging. Here, we report that acoustic meron topological textures were successfully realized using designed Archimedeanlike square spiral metastructures via the excitation of spoof surface acoustic waves (SSAWs). By applying mirror-symmetric combinatorial operations to the unit structures, we further construct composite chiral metastructures that enable both one-dimensional and two-dimensional stable transport of acoustic bimerons. It is further revealed that bimeron transport originates from the locked opposite phase differences of SSAWs, induced by the handedness of the cavity resonant modes. The intrinsic robustness of the meron textures against structural defects is confirmed through the calculation of their topological charge. Our findings establish stable acoustic bimeron transport as a topologically resilient foundation for future acoustic information processing and storage technologies.
format Preprint
id arxiv_https___arxiv_org_abs_2512_06891
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Observation of Stable Bimeron Transport Driven by Spoof Surface Acoustic Waves on Chiral Metastructures
Ma, Huaijin
Liu, Te
Sheng, Jiachen
Cao, Kaiyan
Yang, Jinpeng
Wang, Jian
Materials Science
Applied Physics
00-01
J.2
Topological quasiparticles, such as merons and bimerons, are characterized by non-trivial textures that exhibit remarkably robust transport against deformation, offering significant potential for information processing. While these phenomena have been explored in various systems, acoustic realizations remain challenging. Here, we report that acoustic meron topological textures were successfully realized using designed Archimedeanlike square spiral metastructures via the excitation of spoof surface acoustic waves (SSAWs). By applying mirror-symmetric combinatorial operations to the unit structures, we further construct composite chiral metastructures that enable both one-dimensional and two-dimensional stable transport of acoustic bimerons. It is further revealed that bimeron transport originates from the locked opposite phase differences of SSAWs, induced by the handedness of the cavity resonant modes. The intrinsic robustness of the meron textures against structural defects is confirmed through the calculation of their topological charge. Our findings establish stable acoustic bimeron transport as a topologically resilient foundation for future acoustic information processing and storage technologies.
title Observation of Stable Bimeron Transport Driven by Spoof Surface Acoustic Waves on Chiral Metastructures
topic Materials Science
Applied Physics
00-01
J.2
url https://arxiv.org/abs/2512.06891