An Optimal Sixth-Order Finite Difference Scheme for the Helmholtz Equation in One-Dimension

Xu Liu; Haina Wang; Jing Hu

doi:10.13447/j.1674-5647.2019.03.07

An Optimal Sixth-Order Finite Difference Scheme for the Helmholtz Equation in One-Dimension

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In this paper, we present an optimal 3-point finite difference scheme for solving the 1D Helmholtz equation. We provide a convergence analysis to show that the scheme is sixth-order in accuracy. Based on minimizing the numerical dispersion, we propose a refined optimization rule for choosing the scheme's weight parameters. Numerical results are presented to demonstrate the efficiency and accuracy of the optimal finite difference scheme.

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Helmholtz equation finite difference method numerical dispersion

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10.13447/j.1674-5647.2019.03.07

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An Optimal Sixth-Order Finite Difference Scheme for the Helmholtz Equation in One-Dimension. (2019). Communications in Mathematical Research, 35(3), 264-272. https://doi.org/10.13447/j.1674-5647.2019.03.07

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An Optimal Sixth-Order Finite Difference Scheme for the Helmholtz Equation in One-Dimension

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