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Fano‐Like Acoustic Resonance for Subwavelength Directional Sensing: 0–360 Degree Measurement

Taehwa Lee, Tsuyoshi Nomura, Xiaoshi Su, Hideo Iizuka

2020Advanced Science55 citationsDOIOpen Access PDF

Abstract

Directional sound sensing plays a critical role in many applications involving the localization of a sound source. However, the sensing range limit and fabrication difficulties of current acoustic sensing technologies pose challenges in realizing compact subwavelength direction sensors. Here, a subwavelength directional sensor is demonstrated, which can detect the angle of an incident wave in a full angle range (0°∼360°). The directional sensing is realized with acoustic coupling of Helmholtz resonators each supporting a monopolar resonance, which are monitored by conventional microphones. When these resonators scatter sound into free-space acoustic modes, the scattered waves from each resonator interfere, resulting in a Fano-like resonance where the spectral responses of the constituent resonators are drastically different from each other. This work provides a critical understanding of resonant coupling as well as a viable solution for directional sensing.

Topics & Concepts

ResonatorAcousticsCoupling (piping)Resonance (particle physics)OpticsAcoustic waveHelmholtz resonatorFano resonancePhysicsOptoelectronicsMaterials sciencePlasmonMetallurgyParticle physicsAcoustic Wave Phenomena ResearchSpeech and Audio ProcessingAcoustic Wave Resonator Technologies
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