Applied Sciences (Mar 2021)

A Green’s Function for Acoustic Problems in Pekeris Waveguide Using a Rigorous Image Source Method

  • Zhiwen Qian,
  • Dejiang Shang,
  • Yuan Hu,
  • Xinyang Xu,
  • Haihan Zhao,
  • Jingsheng Zhai

DOI
https://doi.org/10.3390/app11062722
Journal volume & issue
Vol. 11, no. 6
p. 2722

Abstract

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The Green’s function (GF) directly eases the efficient computation for acoustic radiation problems in shallow water with the use of the Helmholtz integral equation. The difficulty in solving the GF in shallow water lies in the need to consider the boundary effects. In this paper, a rigorous theoretical model of interactions between the spherical wave and the liquid boundary is established by Fourier transform. The accurate and adaptive GF for the acoustic problems in the Pekeris waveguide with lossy seabed is derived, which is based on the image source method (ISM) and wave acoustics. First, the spherical wave is decomposed into plane waves in different incident angles. Second, each plane wave is multiplied by the corresponding reflection coefficient to obtain the reflected sound field, and the field is superposed to obtain the reflected sound field of the spherical wave. Then, the sound field of all image sources and the physical source are summed to obtain the GF in the Pekeris waveguide. The results computed by this method are compared with the standard wavenumber integration method, which verifies the accuracy of the GF for the near- and far-field acoustic problems. The influence of seabed attenuation on modal interference patterns is analyzed.

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