基于伴随方法的横向非均质性对二维瑞利波ZH比灵敏度核的影响:综合与反演实例

IF 2.9 3区 地球科学 Earth and Planetary Physics Pub Date : 2020-09-18 DOI:10.26464/epp2020050
Ting Lei, HuaJian Yao, Chao Zhang
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引用次数: 1

摘要

瑞利波垂直振幅与径向振幅之比(以下简称瑞利波ZH比)是用来约束地震台站下结构的重要参数。以往的一些研究是通过联合反演瑞利波ZH比和面波频散来探测地壳和上地幔结构。然而,所有这些研究都使用了一维深度敏感核,当结构横向变化很大时,这种核可能缺乏精度。本文基于伴随波场法对二维瑞利波ZH比核进行了系统的研究,并利用新核进行了两次综合试验。二维ZH比核与传统的一维灵敏度核一致,但具有朝向源的优先取向的不对称模式。从二维非均质模型计算出的核可以清楚地看出非均质导致的主要影响,这证实了在一些复杂区域使用新的二维核的必要性。利用合成数据进行的反演试验表明,二维ZH比核具有解决小型异常和复杂横向构造的潜力。
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Effect of lateral heterogeneity on 2-D Rayleigh wave ZH ratio sensitivity kernels based on the adjoint method: Synthetic and inversion examples

The ratio between vertical and radial amplitudes of Rayleigh waves (hereafter, the Rayleigh wave ZH ratio) is an important parameter used to constrain structures beneath seismic stations. Some previous studies have explored crust and upper mantle structures by joint inversion of the Rayleigh wave ZH ratio and surface wave dispersion. However, all these studies have used a 1-D depth sensitivity kernel, and this kernel may lack precision when the structure varies a great deal laterally. Here, we present a systematic investigation of the two-dimensional (2-D) Rayleigh wave ZH ratio kernel based on the adjoint-wavefield method and perform two synthetic tests using the new kernel. The 2-D ZH ratio kernel is consistent with the traditional 1-D sensitivity kernel but has an asymmetric pattern with a preferred orientation toward the source. The predominant effect caused by heterogeneity can clearly be seen from kernels calculated from models with 2-D heterogeneities, which confirms the necessity of using the new 2-D kernel in some complex regions. Inversion tests using synthetic data show that the 2-D ZH ratio kernel has the potential to resolve small anomalies as well as complex lateral structures.

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来源期刊
Earth and Planetary Physics
Earth and Planetary Physics GEOSCIENCES, MULTIDISCIPLINARY-
自引率
17.20%
发文量
174
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