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Main Authors: Yin, Shunda, Zhou, Qiuyan, Xi, Yuxiang, Deng, Weiyin, Chen, Wei, Lu, Jiuyang, Ke, Manzhu, Liu, Zhengyou
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2510.21359
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author Yin, Shunda
Zhou, Qiuyan
Xi, Yuxiang
Deng, Weiyin
Chen, Wei
Lu, Jiuyang
Ke, Manzhu
Liu, Zhengyou
author_facet Yin, Shunda
Zhou, Qiuyan
Xi, Yuxiang
Deng, Weiyin
Chen, Wei
Lu, Jiuyang
Ke, Manzhu
Liu, Zhengyou
contents Non-Hermitian physics characterized by complex band spectra has established a new paradigm in condensed matter systems and metamaterials. Recently, non-Hermitian gain and nonreciprocity are deliberately introduced to valley manipulation, leading to various phenomena beyond the Hermitian scenarios, such as the amplified topological whispering gallery modes as an acoustic laser. In contrast, pure loss is inevitable in practice and generally regarded as a detrimental factor. Here, we reveal that the coupling loss can manipulate valley degrees of freedom in a phononic metamaterial. Three distinct valley-related effects, including valley-resolved nonreciprocity that functions as a valley filter, valley-dependent skin effects where bulk states from different valleys localize at opposite boundaries, and valley-projected edge states with boundary-dependent lifetimes that leads to an anomalous beam splitting, are demonstrated through theoretical analysis and airborne sound experiments. Owing to the easy preparation of loss, our findings shed light on both non-Hermitian and valley physics and may facilitate innovative applications of valley-related devices.
format Preprint
id arxiv_https___arxiv_org_abs_2510_21359
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Lossy phononic metamaterials for valley manipulation
Yin, Shunda
Zhou, Qiuyan
Xi, Yuxiang
Deng, Weiyin
Chen, Wei
Lu, Jiuyang
Ke, Manzhu
Liu, Zhengyou
Materials Science
Non-Hermitian physics characterized by complex band spectra has established a new paradigm in condensed matter systems and metamaterials. Recently, non-Hermitian gain and nonreciprocity are deliberately introduced to valley manipulation, leading to various phenomena beyond the Hermitian scenarios, such as the amplified topological whispering gallery modes as an acoustic laser. In contrast, pure loss is inevitable in practice and generally regarded as a detrimental factor. Here, we reveal that the coupling loss can manipulate valley degrees of freedom in a phononic metamaterial. Three distinct valley-related effects, including valley-resolved nonreciprocity that functions as a valley filter, valley-dependent skin effects where bulk states from different valleys localize at opposite boundaries, and valley-projected edge states with boundary-dependent lifetimes that leads to an anomalous beam splitting, are demonstrated through theoretical analysis and airborne sound experiments. Owing to the easy preparation of loss, our findings shed light on both non-Hermitian and valley physics and may facilitate innovative applications of valley-related devices.
title Lossy phononic metamaterials for valley manipulation
topic Materials Science
url https://arxiv.org/abs/2510.21359