Cube2sph :使用 SPECFEM3D_Cartesian 软件包进行灵活准确的大陆尺度地震波模拟的工具包

IF 4.2 2区 地球科学 Q1 COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS
Tianshi Liu , Kai Wang , Yujiang Xie , Bin He , Ting Lei , Nanqiao Du , Ping Tong , Yingjie Yang , Catherine A. Rychert , Nicholas Harmon , Giovanni Grasselli , Qinya Liu
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引用次数: 0

摘要

为了使用开源 SPECFEM3D_Cartesian 软件包,基于谱元法灵活准确地模拟大陆尺度(10°-60°)的地震波,我们开发了一个工具包 Cube2sph,允许生成考虑到地球曲率的定制球形网格。该工具包允许使用完全匹配层(PML)吸收边界条件,即使人工边界与坐标轴不一致。为了验证该工具包的有效性,我们进行了一系列数值实验。通过这些数值实验,我们得出以下结论:(1) 通过在适当深度截断网格,可以更有效地进行大陆尺度的地震波模拟,尤其是面波模拟,而不会损失精度;(2) 在大陆尺度的地震波模拟中,可以使用曲线网格 PML 来有效抑制人工反射;(3) 要获得大于 8° 的研究区域的精确模拟结果,需要对地球球面几何进行精确网格划分。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Cube2sph : A toolkit enabling flexible and accurate continental-scale seismic wave simulations using the SPECFEM3D_Cartesian package

To enable flexible and accurate seismic wave simulations at continental scales (10°60°) based on the spectral-element method using the open-source SPECFEM3D_Cartesian package, we develop a toolkit, Cube2sph, that allows the generation of customized spherical meshes that account for the Earth’s curvature. This toolkit enables the usage of the perfectly matched layer (PML) absorbing boundary condition even when the artificial boundaries do not align with the coordinate axes. A series of numerical experiments are presented to validate the effectiveness of this toolkit. From these numerical experiments, we conclude that (1) continental-scale seismic wave simulations, especially surface wave simulations, can be more efficiently performed without the loss of accuracy by truncating the mesh at an appropriate depth, (2) curvilinear-grid PML can be used to effectively suppress artificial reflections for seismic wave simulations at continental scales, and (3) the Earth’s spherical geometry needs to be accurately meshed in order to obtain accurate simulation results for study regions larger than 8°.

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来源期刊
Computers & Geosciences
Computers & Geosciences 地学-地球科学综合
CiteScore
9.30
自引率
6.80%
发文量
164
审稿时长
3.4 months
期刊介绍: Computers & Geosciences publishes high impact, original research at the interface between Computer Sciences and Geosciences. Publications should apply modern computer science paradigms, whether computational or informatics-based, to address problems in the geosciences.
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