Mimicking the cochlea with an active acoustic metamaterial | Zendy

Matthieu Rupin | Zendy; Geoffroy Lerosey | Zendy; Julien de Rosny | Zendy; Fabrice Lemoult | Zendy

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Mimicking the cochlea with an active acoustic metamaterial

Author(s) -

Matthieu Rupin,

Geoffroy Lerosey,

Julien de Rosny,

Fabrice Lemoult

Publication year - 2019

Publication title -

new journal of physics

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 1.584

H-Index - 190

ISSN - 1367-2630

DOI - 10.1088/1367-2630/ab3d8f

Subject(s) - physics , cochlea , tonotopy , resonator , acoustics , metamaterial , amplitude , optics , biology , anatomy

The human ear is a fascinating sensor, capable of detecting pressures over ten octaves of frequency and twelve orders of magnitudes. Here, following a biophysical model, we demonstrate experimentally that the physics of a living cochlea can be emulated by an active one-dimensional acoustic metamaterial. The latter solely consists on a set of subwavelength active acoustic resonators, coupled to a main propagating waveguide. By introducing a gradient in the resonators’ properties, we establish an experimental set-up which mimics the dynamical responses of both the dead and the living cochleae: the cochlear tonotopy as well as the low-amplitude sound amplifier are reproduced.

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