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Zbl 1171.74360
Prempramote, Suriyon; Song, Chongmin; Tin-Loi, Francis; Lin, Gao
High-order doubly asymptotic open boundaries for scalar wave equation. (English)
[J] Int. J. Numer. Methods Eng. 79, No. 3, 340-374 (2009). ISSN 0029-5981

Summary: High-order doubly asymptotic open boundaries are developed for transient analyses of scalar waves propagating in a semi-infinite layer with a constant depth and a circular cavity in a full-plane. The open boundaries are derived in the frequency domain as doubly asymptotic continued fraction solutions of the dynamic stiffness of the unbounded domains. Each term of the continued fraction is a linear function of the excitation frequency. The constants of the continued fraction solutions are determined recursively. The continued fraction solution is expressed in the time domain as ordinary differential equations, which can be solved by standard time-stepping schemes. No parameters other than the orders of the low- and high-frequency expansions need to be selected by users. Numerical experiments demonstrate that evanescent waves and long-time (low-frequency) responses are simulated accurately. In comparison with singly asymptotic open boundaries, significant gain in accuracy is achieved at no additional computational cost.

MSC 2000:: *74H15 Numerical approximation of solutions
74J10 Bulk waves

Keywords: open boundary; doubly asymptotic; continued fraction; wave propagation; absorbing boundary; transmitting boundary

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Zentralblatt MATH Berlin [Germany]