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完全匹配层在数值模拟孔隙介质声波传播中的应用
引用本文:Song Ruolong Ma Jun Wang Kexie. 完全匹配层在数值模拟孔隙介质声波传播中的应用[J]. 应用地球物理, 2005, 2(4): 216-222. DOI: 10.1007/s11770-005-0027-3
作者姓名:Song Ruolong Ma Jun Wang Kexie
作者单位:College of Physics, Jilin University, Changchun 130023, China.
基金项目:This research was supported by Natural Science Foundation of China ( No. 403740043).
摘    要:The nonsplitting perfectly matched layer (NPML) absorbing boundary condition (ABC) was first provided by Wang and Tang (2003) for the finite-difference simulation of elastic wave propagation in solids. In this paper, the method is developed to extend the NPML to simulating elastic wave propagation in poroelastic media. Biot's equations are discretized and approximated to a staggered-grid by applying a fourth-order accurate central difference in space and a second-order accurate central difference in time. A cylindrical twolayer seismic model and a borehole model are chosen to validate the effectiveness of the NPML. The results show that the numerical solutions agree well with the solutions of the discrete wavenumber (DW) method.

关 键 词:弹性波传播 数值模拟 边界吸收 超声波 地球物理勘探
收稿时间:2005-09-02
修稿时间:2005-09-022005-10-11

The application of the nonsplitting perfectly matched layer in numerical modeling of wave propagation in poroelastic media
Song Ruolong,Ma Jun,Wang Kexie. The application of the nonsplitting perfectly matched layer in numerical modeling of wave propagation in poroelastic media[J]. Applied Geophysics, 2005, 2(4): 216-222. DOI: 10.1007/s11770-005-0027-3
Authors:Song Ruolong  Ma Jun  Wang Kexie
Affiliation:(1) College of Physics, Jilin University, 130023 Changchun, China
Abstract:The nonsplitting perfectly matched layer (NPML) absorbing boundary condition (ABC) was first provided by Wang and Tang (2003) for the finite-difference simulation of elastic wave propagation in solids. In this paper, the method is developed to extend the NPML to simulating elastic wave propagation in poroelastic media. Biot's equations are discretized and approximated to a staggered-grid by applying a fourth-order accurate central difference in space and a second-order accurate central difference in time. A cylindrical two-layer seismic model and a borehole model are chosen to validate the effectiveness of the NPML. The results show that the numerical solutions agree well with the solutions of the discrete wavenumber (DW) method.
Keywords:finite-difference   numerical simulation   absorbing boundary condition   and perfectly matched layer.
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