Finite-difference modeling of surface waves in poroelastic media and stress mirror conditions |
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| Authors: | Yu Zhang Ping Ping Shuang-Xi Zhang |
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| Institution: | 1.School of Geodesy and Geomatics,Wuhan University,Wuhan,China;2.Key Laboratory of Geospace Environment and Geodesy,Ministry of Education,Wuhan,China;3.Collaborative Innovation Center for Geospatial Technology,Wuhan University,Wuhan,China;4.State Key Laboratory of Geodesy and Earth’s Dynamics, Institute of Geodesy and Geophysics,Chinese Academy of Sciences,Wuhan,China |
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| Abstract: | During seismic wave propagation on a free surface, a strong material contrast boundary develops in response to interference by P- and S- waves to create a surfacewave phenomenon. To accurately determine the effects of this interface on surface-wave propagation, the boundary conditions must be accurately modeled. In this paper, we present a numerical approach based on the dynamic poroelasticity for a space–time-domain staggeredgrid finite-difference simulation in porous media that contain a free-surface boundary. We propose a generalized stess mirror formulation of the free-surface boundary for solids and fluids in porous media for the grid mesh on which lays the free-surface plane. Its analog is that used for elastic media, which is suitable for precise and stable Rayleigh-type surface-wave modeling. The results of our analysis of first kind of Rayleigh (R1) waves obtained by this model demonstrate that the discretization of the mesh in a similar way to that for elastic media can realize stable numerical solutions with acceptable precision. We present numerical examples demonstrating the efficiency and accuracy of our proposed method. |
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