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Proceedings. Mathematical, physical, and engineering sciences
Jun, 2022;478 (2262): 20210765.

Robustness of subwavelength devices: a case study of cochlea-inspired rainbow sensors.

Bryn Davies, Laura Herren
Author Information
  1. Bryn Davies: Department of Mathematics, Imperial College London, 180 Queen's Gate, London SW7 2AZ, UK. ORCID
  2. Laura Herren: Department of Statistics and Data Science, Yale University, New Haven, CT 06511, USA.
PMID: 35702593 DOI: 10.1098/rspa.2021.0765

Abstract

We derive asymptotic formulae describing how the properties of subwavelength devices are changed by the introduction of errors and imperfections. As a demonstrative example, we study a class of cochlea-inspired rainbow sensors. These are graded metamaterials which have been designed to mimic the frequency separation performed by the cochlea. The device considered here has similar dimensions to the cochlea and has a resonant spectrum that falls within the range of audible frequencies. We show that the device's properties (including its role as a signal filtering device) are stable with respect to small imperfections in the positions and sizes of the resonators. Additionally, under suitable assumptions, if the number of resonators is sufficiently large, then the device's properties are stable under the removal of a resonator.

Keywords

Helmholtz scattering asymptotic expansions boundary integral methods capacitance matrix graded metamaterials hearing

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Journal Article

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