The acoustic Galton board

Xinchao Zhang, Ning Zheng, Fenze Guo, Hengze Lin, Qingfan Shi

Research output: Contribution to journalArticlepeer-review

Abstract

Phononic crystals are a class of materials with periodic structures that influence the propagation characteristics of acoustic waves through periodically arranged structural units. Here, we have developed the acoustic Galton board (AGB), a groundbreaking apparatus that serves as a cost-effective and user-friendly tool for demonstrating phononic crystal properties such as band gaps, Bragg scattering, and local resonance. The device comprises an elastic wave signal generator, an enhanced Galton board featuring a sophisticated pillar-nail array, and a signal receiver. The experimental results we have obtained demonstrate the significant impact of the AGB on elastic wave dispersion, effectively creating bandgaps that impede wave transmission within specific frequency ranges while allowing unhindered propagation in others. Furthermore, the AGB can simulate phononic crystals using both the Bragg scattering mechanism, achieved through the design of periodic rigid pillar-nail arrays, and the locally resonant mechanism, facilitated by the design of pillar-nail arrays with composite material structures. Additionally, the AGB can extend its applications to serve as a simulation tool for elastic metamaterials.

Original languageEnglish
Article number065503
JournalEuropean Journal of Physics
Volume45
Issue number6
DOIs
Publication statusPublished - 1 Nov 2024

Keywords

  • bandgaps
  • Bragg scattering
  • Galton board
  • locally resonance
  • phononic crystal

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