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Phononic Coupled-Resonator Waveguide Micro-Cavities

Tingting Wang, Sylwester Bargiel, Franck Lardet-Vieudrin, Yan‐Feng Wang, Yue‐Sheng Wang, Vincent Laude

2020Applied Sciences14 citationsDOIOpen Access PDF

Abstract

Phononic coupled-resonator waveguide cavities are formed by a finite chain of defects in a complete bandgap phononic crystal slab. The sample is machined in a fused silica plate by femtosecond printing to form an array of cross-shape holes. The collective resonance of the phononic cavities, in the Megahertz frequency range, are excited by a piezoelectric vibrator and imaged by laser Doppler vibrometry. It is found that well-defined resonant cavity modes can be efficiently excited, even though the phononic cavities are distant by a few lattice spacings and are only weakly coupled through evanescent elastic waves. The results suggest the possibility of engineering the dynamical response of a set of coupled phononic cavities by an adequate layout of defects in a phononic crystal slab.

Topics & Concepts

Materials scienceResonatorAcoustic metamaterialsPiezoelectricitySlabExcited stateOpticsFemtosecondWaveguideCrystal (programming language)Photonic crystalResonance (particle physics)Band gapOptoelectronicsLaserPhysicsAtomic physicsGeophysicsComposite materialComputer scienceProgramming languageAcoustic Wave Phenomena ResearchAcoustic Wave Resonator TechnologiesPhotonic Crystals and Applications
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