2017
DOI: 10.1039/c7mh00129k
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Optimal sound-absorbing structures

Abstract: Causal nature of the acoustic response, for any materials or structures, dictates an inequality that relates the absorption spectrum of the sample to its thickness. We present a general recipe for constructing sound-absorbing structures that can attain near-equality for the causal relation with very high absorption performance; such structures are denoted "optimal." Our strategy involves using carefully designed acoustic metamaterials as backing to a thin layer of conventional sound absorbing material, e.g., a… Show more

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Cited by 451 publications
(312 citation statements)
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“…In both cases we find our optimal structures to have better absorption within the target frequency range (1,2). Such advantage is the result of the design strategy.…”
Section: Comparison With Traditional Sound Absorbing Materials/structmentioning
confidence: 88%
“…In both cases we find our optimal structures to have better absorption within the target frequency range (1,2). Such advantage is the result of the design strategy.…”
Section: Comparison With Traditional Sound Absorbing Materials/structmentioning
confidence: 88%
“…In particular, the resonance-induced narrow working bandwidth and inherent losses are limiting factors for the applications of acoustic metamaterials. One possible solution could be the designed integration of resonances as in the realization of the broadband acoustic absorber [194]. Another possible solution is to utilize tunable active metamaterials [211,212].…”
Section: Discussionmentioning
confidence: 99%
“…Many attempts have been made along this direction [195][196][197]; however, the lack of a central integration principle results in only limited success. Recently, work on the causally optimal broadband absorber (COBA) has solved the problem by integrating the causal constraint, equation (7), into the absorbers' design strategy [194]. A causally optimal absorber is the one that can take the equals sign in equation (7).…”
Section: Sound Absorptionmentioning
confidence: 99%
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“…This makes the optimization on intrinsic structures of the SAMs targeting maximum sound absorptivity a challenging task, and also makes previous efforts to prefer to use flow resistance as the intermediate variable, instead of the material morphology, in SAM optimization. 8 Recently, metamaterials or metasurfaces [9][10][11][12] based SAMs providing manageable and adaptable performance are attracting growing interest; some may provide dark acoustic effect at low frequency 11 or ultra-broadband acoustic absorption. 12 These SAMs possess well-defined and organized microstructures.…”
Section: Introductionmentioning
confidence: 99%