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Main Authors: Ge, Zixun, Liao, Junke, Han, Linkang, Duan, Qilin, Wang, Xiaofan, Dai, Mengwei, Zhu, Shan, Chen, Huanyang
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2508.05458
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author Ge, Zixun
Liao, Junke
Han, Linkang
Duan, Qilin
Wang, Xiaofan
Dai, Mengwei
Zhu, Shan
Chen, Huanyang
author_facet Ge, Zixun
Liao, Junke
Han, Linkang
Duan, Qilin
Wang, Xiaofan
Dai, Mengwei
Zhu, Shan
Chen, Huanyang
contents Water waves present both opportunities and hazards, which demand precise control to effectively exploit their energy and mitigate their destructive effects. Leveraging the unique propagation characteristic of negative refraction enables versatile strategies for achieving such control. Here, we propose a Veselago-Pendry double negative metamaterial (DNM) for water waves constructed by nested gears and split tubes. This uniform array structure realizes effective negative water depth and gravity distributions, enabling tunable negative refraction that resolves the unclear structure-propagation relationships and stringent layout requirements of prior negative refraction structures. By employing coherent potential approximation (CPA), negative effective water depth ue and gravity ge are predicted. The predicted DNM parameters align well with band structures, and are validated by simulations of isolation, wave bending and all-angle imaging with surface waves excitation. A simplified experiment demonstrating water wave bending was successfully performed, matching the analytical predictions and simulation results well. Through quantitative mapping between structural parameters and propagation properties that enables tunable bandgaps and controllable negative refraction, DNMs furnish a transformative toolkit for coastal engineering, and are able to calm harbors, boost wave-energy harvesters, and steer river-bend currents to curb erosion.
format Preprint
id arxiv_https___arxiv_org_abs_2508_05458
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Double Negative Metamaterials in Water Waves
Ge, Zixun
Liao, Junke
Han, Linkang
Duan, Qilin
Wang, Xiaofan
Dai, Mengwei
Zhu, Shan
Chen, Huanyang
Applied Physics
Water waves present both opportunities and hazards, which demand precise control to effectively exploit their energy and mitigate their destructive effects. Leveraging the unique propagation characteristic of negative refraction enables versatile strategies for achieving such control. Here, we propose a Veselago-Pendry double negative metamaterial (DNM) for water waves constructed by nested gears and split tubes. This uniform array structure realizes effective negative water depth and gravity distributions, enabling tunable negative refraction that resolves the unclear structure-propagation relationships and stringent layout requirements of prior negative refraction structures. By employing coherent potential approximation (CPA), negative effective water depth ue and gravity ge are predicted. The predicted DNM parameters align well with band structures, and are validated by simulations of isolation, wave bending and all-angle imaging with surface waves excitation. A simplified experiment demonstrating water wave bending was successfully performed, matching the analytical predictions and simulation results well. Through quantitative mapping between structural parameters and propagation properties that enables tunable bandgaps and controllable negative refraction, DNMs furnish a transformative toolkit for coastal engineering, and are able to calm harbors, boost wave-energy harvesters, and steer river-bend currents to curb erosion.
title Double Negative Metamaterials in Water Waves
topic Applied Physics
url https://arxiv.org/abs/2508.05458