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Title: Experimental realization of extraordinary acoustic transmission using Helmholtz resonators

Journal Article · · AIP Advances
DOI:https://doi.org/10.1063/1.4908180· OSTI ID:22454449
; ;  [1];  [2];  [1]
  1. Department of Physics and Astronomy, Middle Tennessee State University, Murfreesboro, Tennessee 37132 (United States)
  2. Computational Science Program, Middle Tennessee State University, Murfreesboro, Tennessee 37132 (United States)
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The phenomenon of extraordinary acoustic transmission through a solid barrier with an embedded Helmholtz resonator (HR) is demonstrated. The Helmholtz resonator consists of an embedded cavity and two necks that protrude, one on each side of the barrier. Extraordinary transmission occurs for a narrow spectral range encompassing the resonant frequency of the Helmholtz resonator. We show that an amplitude transmission of 97.5% is achieved through a resonator whose neck creates an open area of 6.25% of the total barrier area. In addition to the enhanced transmission, we show that there is a smooth, continuous phase transition in the transmitted sound as a function of frequency. The frequency dependent phase transition is used to experimentally realize slow wave propagation for a narrow-band Gaussian wave packet centered at the maximum transmission frequency. The use of parallel pairs of Helmholtz resonators tuned to different resonant frequencies is experimentally explored as a means of increasing the transmission bandwidth. These experiments show that because of the phase transition, there is always a frequency between the two Helmholtz resonant frequencies at which destructive interference occurs whether the resonances are close or far apart. Finally, we explain how the phase transition associated with Helmholtz-resonator-mediated extraordinary acoustic transmission can be exploited to produce diffractive acoustic components including sub-wavelength thickness acoustic lenses.

OSTI ID:
22454449
Journal Information:
AIP Advances, Vol. 5, Issue 2; Other Information: (c) 2015 Author(s); Country of input: International Atomic Energy Agency (IAEA); ISSN 2158-3226
Country of Publication:
United States
Language:
English

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Related Subjects

36 MATERIALS SCIENCE
FREQUENCY DEPENDENCE
PHASE TRANSFORMATIONS
RESONANCE
RESONATORS
SOLIDS
SOUND WAVES
TRANSMISSION
WAVE PROPAGATION
WAVELENGTHS