On the stability of a non-convolutional perfectly matched layer for isotropic elastic media |
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| Authors: | Kristel C Meza-Fajardo Apostolos S Papageorgiou |
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| Institution: | 1. Departamento de Ingeniería Civil, Universidad Nacional Autónoma de Honduras, Tegucigalpa, Honduras;2. Department of Civil Engineering, University of Patras, GR-26500 Patras, Greece |
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| Abstract: | The multi-axial perfectly matched layer (M-PML) is a material boundary condition for wave propagation problems in unbounded domains. It is obtained by extending the formulation of the split-field perfectly matched layer to a more general absorptive medium, for which damping profiles are specified along all dimensions of the problem. Under the hypothesis of small damping, it has been demonstrated that the stability of the system of partial differential equations of the M-PML can be related to the ratio of the damping profiles, and stable M-PML terminations for isotropic and orthotropic elastic media have been constructed. In the present work, we use the Routh–Horwitz determinants to demonstrate that the conclusions regarding the stability of M-PML for isotropic media for small damping are in fact valid for the more general case of damping coefficients of any (positive) value. The effectiveness of the M-PML is demonstrated by constructing stable terminations for the abovementioned media. The stability analysis is presented for 2-D in-plane (P-SV) wave propagation in elastic isotropic continua. |
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| Keywords: | Absorbing conditions Perfectly matched layer Elastic waves Isotropic media Stability analysis Seismic wave propagation |
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