Dispersion Engineering by Hybridizing the Back-Folded Soft Mode of Monomode Elastic Metamaterials with Stiff Acoustic Modes.
back-folded modes
dispersion engineering
mode hybridization
monomode elastic metamaterials
roton-like bands
soft modes
Journal
Advanced materials (Deerfield Beach, Fla.)
ISSN: 1521-4095
Titre abrégé: Adv Mater
Pays: Germany
ID NLM: 9885358
Informations de publication
Date de publication:
28 Sep 2023
28 Sep 2023
Historique:
revised:
12
09
2023
received:
28
07
2023
pubmed:
29
9
2023
medline:
29
9
2023
entrez:
28
9
2023
Statut:
aheadofprint
Résumé
In many cases, the hybridization of two or more excitation modes in solids has led to new and useful dispersion relations of waves. Well-studied examples are phonon polaritons, plasmon polaritons, particle-plasmon polaritons, cavity polaritons, and magnetic resonances at optical frequencies. In all of these cases, the lowest propagating mode couples to a finite-frequency localized resonance. Herein, the unusual metamaterial phonon dispersion relations arising from the hybridization of an ordinary acoustical phonon mode with a back-folded soft or easy phonon mode of a monomode elastic metamaterial are discussed. Conceptually, the single easy mode can have strictly zero wave velocity. In reality, its wave velocity is very much smaller than that of all other modes. Considering polymeric three-dimensional printed elastic monomode metamaterials at ultrasound frequencies, it is shown theoretically and experimentally that the resulting pronounced avoided crossing, with a frequency splitting comparable to the mid-frequency, leads to backward-wave behavior for the lowest band over a broad frequency range, conceptually at zero loss.
Identifiants
pubmed: 37769647
doi: 10.1002/adma.202307553
doi:
Types de publication
Journal Article
Langues
eng
Sous-ensembles de citation
IM
Pagination
e2307553Subventions
Organisme : Deutsche Forschungsgemeinschaft
ID : EXC-2082/1-390761711
Organisme : Carl-Zeiss-Foundation
Organisme : Helmholtz program
Organisme : ANR PNanoBot
ID : ANR-21-CE33-0015
Organisme : ANR OPTOBOTS project
ID : ANR-21-CE33-0003
Informations de copyright
© 2023 The Authors. Advanced Materials published by Wiley-VCH GmbH.
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