A new staggered grid finite difference scheme optimised in the space domain for the first order acoustic wave equation

被引：5

作者：

Liang, Wenquan ^{[1
]}

Wu, Xiu ^{[1
]}

Wang, Yanfei ^{[2
]}

Cao, Jingjie ^{[3
]}

Wu, Chaofan ^{[1
]}

He, Baoqing ^{[4
]}

机构：

[1] Longyan Univ, Coll Resource Engn, Longyan 364000, Peoples R China

[2] Chinese Acad Sci, Inst Geol & Geophys, Key Lab Petr Resources Res, Beijing 100029, Peoples R China

[3] Hebei GEO Univ, Shijiazhuang 050031, Hebei, Peoples R China

[4] China Natl Petr Corp, Bur Geophys Prospecting, Zhuozhou 072750, Hebei, Peoples R China

来源：

EXPLORATION GEOPHYSICS | 2018年 / 49卷 / 06期

基金：

中国国家自然科学基金;

关键词：

acoustic wave equation; finite difference scheme; finite difference time domain; numerical dispersion; staggered grid; REVERSE-TIME MIGRATION; HETEROGENEOUS MEDIA; PROPAGATION;

D O I：

10.1071/EG17088

中图分类号：

P3 [地球物理学]; P59 [地球化学];

学科分类号：

0708 ; 070902 ;

摘要：

Staggered grid finite difference (FD) methods are widely used to synthesise seismograms theoretically, and are also the basis of reverse time migration and full waveform inversion. Grid dispersion is one of the key problems for FD methods. It is desirable to have a FD scheme which can accelerate wave equation simulation while still preserving high accuracy. In this paper, we propose a totally new staggered grid FD scheme which uses different staggered grid FD operators for different first order spatial derivatives in the first order acoustic wave equation. We determine the FD coefficient in the space domain with the least-squares method. The dispersion analysis and numerical simulation demonstrated the effectiveness of the proposed method.

引用

页码：898 / 905

页数：8

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