Long-Time Performance of Unsplit PMLs with Explicit Second Order Schemes |
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Authors: | S Abarbanel H Qasimov S Tsynkov |
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Affiliation: | (1) Department of Computer Engineering, Eastern Mediterranean University, Gazi Magusa, Mersin, 10, Turkey; |
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Abstract: | A gradual long-time growth of the solution in perfectly matched layers (PMLs) has been previously reported in the literature.
This undesirable phenomenon may hamper the performance of the layer, which is designed to truncate the computational domain
for unsteady wave propagation problems. For unsplit PMLs, prior studies have attributed the growth to the presence of multiple
eigenvalues in the amplification matrix of the governing system of differential equations. In the current paper, we analyze
the temporal behavior of unsplit PMLs for some commonly used second order explicit finite-difference schemes that approximate
the Maxwell’s equations. Our conclusion is that on top of having the PML as a potential source of long-time growth, the type
of the layer and the choice of the scheme play a major role in how rapidly this growth may manifest itself and whether or
not it manifests itself at all. |
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