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Journal of Synthetic Crystals, Volume. 51, Issue 11, 1836(2022)

Band Gap Characteristics of Composite Structure Based on Helmholtz Resonator

TANG Rongjiang1、*, LU Taoqi1, PAN Chaoyuan1, ZHENG Weiguang2, and PANG Yi3
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  • 1[in Chinese]
  • 2[in Chinese]
  • 3[in Chinese]
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    [1] [1] LIAO G X, LUAN C C, WANG Z W, et al. Acoustic metamaterials: a review of theories, structures, fabrication approaches, and applications[J]. Advanced Materials Technologies, 2021, 6(5): 2000787.

    [2] [2] RADOSZ J. Acoustic performance of noise barrier based on sonic crystals with resonant elements[J]. Applied Acoustics, 2019, 155: 492-499.

    [3] [3] NORRIS A N, WICKHAM G. Elastic Helmholtz resonators[J]. The Journal of the Acoustical Society of America, 1993, 93(2): 617-630.

    [4] [4] SUGIMOTO N, HORIOKA T. Dispersion characteristics of sound waves in a tunnel with an array of Helmholtz resonators[J]. The Journal of the Acoustical Society of America, 1995, 97(3): 1446-1459.

    [5] [5] HU X H, CHAN C T, ZI J. Two-dimensional sonic crystals with Helmholtz resonators[J]. Physical Review E, Statistical, Nonlinear, and Soft Matter Physics, 2005, 71(5 Pt 2): 055601.

    [6] [6] HIRSEKORN M, DELSANTO P P, BATRA N K, et al. Modelling and simulation of acoustic wave propagation in locally resonant sonic materials[J]. Ultrasonics, 2004, 42(1/2/3/4/5/6/7/8/9): 231-235.

    [7] [7] MURRAY A R J, SUMMERS I R, SAMBLES J R, et al. An acoustic double fishnet using Helmholtz resonators[J]. The Journal of the Acoustical Society of America, 2014, 136(3): 980.

    [8] [8] WANG Y, ZHU X, ZHANG T S, et al. A renewable low-frequency acoustic energy harvesting noise barrier for high-speed railways using a Helmholtz resonator and a PVDF film[J]. Applied Energy, 2018, 230: 52-61.

    [11] [11] GUAN D, ZHAO D, REN Z X. Aeroacoustic attenuation performance of a Helmholtz resonator with a rigid baffle implemented in the presence of a grazing flow[J]. International Journal of Aerospace Engineering, 2020, 2020: 1916239.

    [14] [14] JING L, WU J H, GUAN D, et al. Multilayer-split-tube resonators with low-frequency band gaps in phononic crystals[J]. Journal of Applied Physics, 2014, 116(10): 103514.

    [16] [16] ELFORD D P, CHALMERS L, KUSMARTSEV F V, et al. Matryoshka locally resonant sonic crystal[J]. The Journal of the Acoustical Society of America, 2011, 130(5): 2746-2755.

    [17] [17] CAVALIERI T, CEBRECOS A, GROBY J P, et al. Three-dimensional multiresonant lossy sonic crystal for broadband acoustic attenuation: application to train noise reduction[J]. Applied Acoustics, 2019, 146: 1-8.

    [19] [19] YU K P, CHEN T N, WANG X P. Large band gaps in two-dimensional phononic crystals with neck structures[J]. Journal of Applied Physics, 2013, 113(13): 134901.

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    TANG Rongjiang, LU Taoqi, PAN Chaoyuan, ZHENG Weiguang, PANG Yi. Band Gap Characteristics of Composite Structure Based on Helmholtz Resonator[J]. Journal of Synthetic Crystals, 2022, 51(11): 1836

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    Paper Information

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    Received: Jun. 27, 2022

    Accepted: --

    Published Online: Jan. 3, 2023

    The Author Email: TANG Rongjiang (251444972@qq.com)

    DOI:

    CSTR:32186.14.

    Topics

    laser devices and laser physics
    Lasers and Laser Optics
    Laser physics
    laser manufacturing
    Instrumentation, Measurement and Metrology