A truly exact perfect absorbing layer for time-harmonic acoustic wave scattering problems
In this paper, we design a truly exact perfect absorbing layer (PAL) for domain truncation of the two-dimensional Helmholtz equation in an unbounded domain with bounded scatterers. This technique is based on a complex compression coordinate transformation in polar coordinates and a judicious substit...
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sg-ntu-dr.10356-1537422023-02-28T19:57:24Z A truly exact perfect absorbing layer for time-harmonic acoustic wave scattering problems Yang, Zhiguo Wang, Li-Lian Gao, Yang School of Physical and Mathematical Sciences Science::Mathematics Perfect Absorbing Layer Perfectly Matched Layer In this paper, we design a truly exact perfect absorbing layer (PAL) for domain truncation of the two-dimensional Helmholtz equation in an unbounded domain with bounded scatterers. This technique is based on a complex compression coordinate transformation in polar coordinates and a judicious substitution of the unknown field in the artificial layer. Compared with the widely used perfectly matched layer (PML) methods, the distinctive features of PAL lie in that (i) it is truly exact in the sense that the PAL-solution is identical to the original solution in the bounded domain reduced by the truncation layer; (ii) with the substitution, the PAL-equation is free of singular coefficients and the substituted unknown field is essentially nonoscillatory in the layer; and (iii) the construction is valid for general star-shaped domain truncation. By formulating the variational formulation in Cartesian coordinates, the implementation of this technique using standard spectral-element or finite-element methods can be made easy as a usual coding practice. We provide ample numerical examples to demonstrate that this method is highly accurate and robust for very high wavenumbers and thin layers. It outperforms the classical PML and the recently advocated PML using unbounded absorbing functions. Moreover, it can fix some flaws of the PML approach. Ministry of Education (MOE) Published version The work of the first author was partially supported by the Strategic Priority Research Program of Chinese Academy of Sciences grant XDA25010402. The work of the second author was partially supported by Singapore MOE AcRF Tier 2 Grants MOE2018-T2-1-059 and MOE2017-T2- 2-144. 2022-01-20T07:09:00Z 2022-01-20T07:09:00Z 2021 Journal Article Yang, Z., Wang, L. & Gao, Y. (2021). A truly exact perfect absorbing layer for time-harmonic acoustic wave scattering problems. SIAM Journal On Scientific Computing, 43(2), A1027-A1061. https://dx.doi.org/10.1137/19M1294071 1064-8275 https://hdl.handle.net/10356/153742 10.1137/19M1294071 2-s2.0-85104244157 2 43 A1027 A1061 en MOE2018-T2-1-059 MOE2017-T2-2-144 SIAM Journal on Scientific Computing © 2021 Society for Industrial and Applied Mathematics. All rights reserved. This paper was published in SIAM Journal on Scientific Computing and is made available with permission of Society for Industrial and Applied Mathematics. application/pdf |
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Science::Mathematics Perfect Absorbing Layer Perfectly Matched Layer Yang, Zhiguo Wang, Li-Lian Gao, Yang A truly exact perfect absorbing layer for time-harmonic acoustic wave scattering problems |
| description |
In this paper, we design a truly exact perfect absorbing layer (PAL) for domain truncation of the two-dimensional Helmholtz equation in an unbounded domain with bounded scatterers. This technique is based on a complex compression coordinate transformation in polar coordinates and a judicious substitution of the unknown field in the artificial layer. Compared with the widely used perfectly matched layer (PML) methods, the distinctive features of PAL lie in that (i) it is truly exact in the sense that the PAL-solution is identical to the original solution in the bounded domain reduced by the truncation layer; (ii) with the substitution, the PAL-equation is free of singular coefficients and the substituted unknown field is essentially nonoscillatory in the layer; and (iii) the construction is valid for general star-shaped domain truncation. By formulating the variational formulation in Cartesian coordinates, the implementation of this technique using standard spectral-element or finite-element methods can be made easy as a usual coding practice. We provide ample numerical examples to demonstrate that this method is highly accurate and robust for very high wavenumbers and thin layers. It outperforms the classical PML and the recently advocated PML using unbounded absorbing functions. Moreover, it can fix some flaws of the PML approach. |
| author2 |
School of Physical and Mathematical Sciences |
| author_facet |
School of Physical and Mathematical Sciences Yang, Zhiguo Wang, Li-Lian Gao, Yang |
| format |
Article |
| author |
Yang, Zhiguo Wang, Li-Lian Gao, Yang |
| author_sort |
Yang, Zhiguo |
| title |
A truly exact perfect absorbing layer for time-harmonic acoustic wave scattering problems |
| title_short |
A truly exact perfect absorbing layer for time-harmonic acoustic wave scattering problems |
| title_full |
A truly exact perfect absorbing layer for time-harmonic acoustic wave scattering problems |
| title_fullStr |
A truly exact perfect absorbing layer for time-harmonic acoustic wave scattering problems |
| title_full_unstemmed |
A truly exact perfect absorbing layer for time-harmonic acoustic wave scattering problems |
| title_sort |
truly exact perfect absorbing layer for time-harmonic acoustic wave scattering problems |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/153742 |
| _version_ |
1759857662385717248 |