Spurious Rayleigh-wave Apparent Anisotropy Near Major Structural Boundaries: A Numerical and Theoretical Investigation

IF 2.8 3区 地球科学 Q2 GEOCHEMISTRY & GEOPHYSICS
Qicheng Zeng, Fan-Chi Lin, Victor C Tsai
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Abstract

Summary The recent developments in array-based surface-wave tomography have made it possible to directly measure apparent phase velocities through wavefront tracking. While directionally dependent measurements have been used to infer intrinsic $2\psi $ azimuthal anisotropy (with a 180° periodicity), a few studies have also demonstrated strong but spurious $1\psi $ azimuthal anisotropy (360° periodicity) near major structure boundaries particularly for long period surface waves. In such observations, Rayleigh waves propagating in the direction perpendicular to the boundary from the slow to the fast side persistently show a higher apparent velocity compared to waves propagating in the opposite direction. In this study, we conduct numerical and theoretical investigations to explore the effect of scattering on the apparent Rayleigh-wave phase velocity measurement. Using two-dimensional spectral-element numerical wavefield simulations, we first reproduce the observation that waves propagating in opposite directions show different apparent phase velocities when passing through a major velocity contrast. Based on mode coupling theory and the locked mode approximation, we then investigate the effect of the scattered fundamental-mode Rayleigh wave and body waves interfering with the incident Rayleigh wave separately. We show that scattered fundamental-mode Rayleigh waves, while dominating the scattered wavefield, mostly cause short wavelength apparent phase velocity variations that could only be studied if the station spacing is less than about one tenth of the surface wave wavelength. Scattered body waves, on the other hand, cause longer wavelength velocity variations that correspond to the existing real data observations. Because of the sensitivity of the $1\psi $ apparent anisotropy to velocity contrasts, incorporating such measurements in surface wave tomography could improve the resolution and sharpen the structural boundaries of the inverted model.
主要结构边界附近的虚假射线波明显各向异性:数值和理论研究
摘要 基于阵列的面波层析成像技术的最新发展,使得通过波前跟踪直接测量视相位速度成为可能。虽然与方向相关的测量被用来推断固有的$2\psi $方位各向异性(周期为180°),但也有一些研究表明,在主要结构边界附近,尤其是长周期面波附近,存在着强烈但虚假的$1\psi $方位各向异性(周期为360°)。在这种观测中,沿垂直于边界方向从慢速侧向快速侧传播的瑞利波,与沿相反方向传播的波相比,持续显示出更高的视速度。在本研究中,我们进行了数值和理论研究,以探讨散射对雷利波视在相速度测量的影响。利用二维谱元数值波场模拟,我们首先再现了相反方向传播的波在通过主要速度对比时显示不同视相位速度的观测结果。然后,基于模式耦合理论和锁定模式近似,我们分别研究了散射基模瑞利波和体波与入射瑞利波的干涉效应。我们的研究表明,散射基模雷利波虽然在散射波场中占主导地位,但大多会引起短波长的视相位速度变化,只有在台站间距小于表面波波长的十分之一时才能对其进行研究。而散射体波则会引起较长波长的速度变化,与现有的实际数据观测结果相符。由于 1 美元/平米表观各向异性对速度对比的敏感性,将这种测量纳入面波层析成像可以提高分辨率,并使反演模型的结构边界更加清晰。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Geophysical Journal International
Geophysical Journal International 地学-地球化学与地球物理
CiteScore
5.40
自引率
10.70%
发文量
436
审稿时长
3.3 months
期刊介绍: Geophysical Journal International publishes top quality research papers, express letters, invited review papers and book reviews on all aspects of theoretical, computational, applied and observational geophysics.
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