4.4 Article

Phononic Crystals Applied to Localised Surface Haptics

期刊

IEEE TRANSACTIONS ON HAPTICS
卷 14, 期 3, 页码 668-674

出版社

IEEE COMPUTER SOC
DOI: 10.1109/TOH.2021.3072566

关键词

Photonic band gap; Lattices; Acoustics; Surface impedance; Surface waves; Haptic interfaces; Scattering; Haptics; ultrasonic lubrication; metamaterials

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Metamaterials are solid lattices with periodicities matching desired wavelengths, capable of endowing bulk materials with unique properties like negative refraction indices. Mesoscale metamaterials and phononic crystals can induce band gaps in the ultrasonic domain, allowing for the design of surface haptic interfaces with localized friction modulation.
Metamaterials are solid lattices with periodicities commensurate with desired wavelengths. Their geometric features can endow the bulk material with unusual properties, such as inter alia, negative indices of refraction or unique absorbing qualities. Mesoscale metamaterials and phononic crystals can be designed to cause the occurence of band gaps in the ultrasonic domain. These localised phenomena induce fixed boundary conditions that correspond to acoustic mirrors which, in turn, can be used to establish waveguides in thin plates. Ultrasonic lubrication has been successfully applied to create haptic interfaces that operate by modulating the apparent friction of a surface. In this article, we demonstrate that phononic crystals can be designed to localise the modulation of friction in specific portions of the surface of a thin plate, opening novel possibilities for the design of surface haptic interfaces.

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