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Experimental investigation of amplification, via a mechanical delay-line, in a rainbow-based metamaterial for energy harvesting

J. M. De Ponti, A. Colombi, E. Riva, R. Ardito, F. Braghin, A. Corigliano, R. V. Craster

2020Applied Physics Letters79 citationsDOIOpen Access PDF

Abstract

We experimentally demonstrate that a rainbow-based metamaterial, created by a graded array of resonant rods attached to an elastic beam, operates as a mechanical delay-line by slowing down surface elastic waves to take advantage of wave interaction with resonance. Experiments demonstrate that the rainbow effect reduces the amplitude of the propagating wave in the host structure. At the same time, it dramatically increases both the period of interaction between the waves and the resonators and the wavefield amplitude in the rod endowed with the harvester. Increased energy is thus fed into the resonators over time: we show the enhanced energy harvesting capabilities of this system.

Topics & Concepts

ResonatorEnergy harvestingMetamaterialAmplitudeRodMaterials scienceEnergy (signal processing)Surface waveAcousticsOptoelectronicsOpticsMechanical energyMechanical waveEnergy transformationWave propagationElastic energyPhysicsElectromagnetic radiationRainbowSplit-ring resonatorPiezoelectricityAcoustic Wave Phenomena ResearchMetamaterials and Metasurfaces ApplicationsCellular and Composite Structures
Experimental investigation of amplification, via a mechanical delay-line, in a rainbow-based metamaterial for energy harvesting | Litcius