Ultra-low and ultra-broad-band nonlinear acoustic metamaterials

Abstract : Linear acoustic metamaterials (LAMs) are widely used to manipulate sound; however, it is challenging to obtain bandgaps with a generalized width (ratio of the bandgap width to its start frequency) >1 through linear mechanisms. Here we adopt both theoretical and experimental approaches to describe the nonlinear chaotic mechanism in both one-dimensional (1D) and two-dimensional (2D) nonlinear acoustic metamaterials (NAMs). This mechanism enables NAMs to reduce wave transmissions by as much as 20–40 dB in an ultra-low and ultra-broad band that consists of bandgaps and chaotic bands. With subwavelength cells, the generalized width reaches 21 in a 1D NAM and it goes up to 39 in a 2D NAM, which overcomes the bandwidth limit for wave suppression in current LAMs. This work enables further progress in elucidating the dynamics of NAMs and opens new avenues in double-ultra acoustic manipulation.
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Article dans une revue
Nature Communications, Nature Publishing Group, 2017, 8 (1), pp.1288. 〈10.1038/s41467-017-00671-9〉
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Xin Fang, Jihong Wen, Bernard Bonello, Jianfei Yin, Dianlong Yu. Ultra-low and ultra-broad-band nonlinear acoustic metamaterials. Nature Communications, Nature Publishing Group, 2017, 8 (1), pp.1288. 〈10.1038/s41467-017-00671-9〉. 〈hal-01636912〉



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