Jiahui Zuo scite author profile

Wave-mode decomposition plays a very important role in elastic reverse-time migration (ERTM). Improved imaging quality can be achieved due to reduced wave-mode crosstalk artifacts. The current state-of-the-art methods for anisotropic wavefield separation are based on either splitting models strategy, low-rank approximation, or LU factorization. Most of these involve expensive matrix computation and Fourier transforms with strong model assumptions. Based on the anisotropic-Helmholtz (ani-Helmholtz) decomposition operator and decoupled formulations, this study proposes a novel and efficient P/S wave-mode vector decomposition method in vertical transverse isotropic (VTI) media with application in ERTM. We first review the basics of classical Helmholtz decomposition and isotropic decoupled formulations. In addition, the ani-Helmholtz decomposition operator is built from the P- and S-wave polarizations of the Christoffel equation in VTI media. We then derive novel decoupled formulations of anisotropic P/S waves based on the obtained ani-Helmholtz operator. Moreover, we use the first-order Taylor expansion to approximate the normalization term from the derived decoupled formulations and obtain an efficient ani-Helmholtz decomposition approach, which produces vector P- and S-wavefields with correct units, phases, and amplitudes. Compared with the previous studies, our approach mitigates model assumptions, avoids intricate calculations such as LU factorization or low-rank approximation and only needs three Fast Fourier transforms at each time step. In addition, the graphic processing unit (GPU) technique is employed to dramatically accelerate various functions of ERTM, such as wavefields extrapolation, decomposition, and imaging. Three synthetic examples demonstrate the effectiveness and feasibility of our proposed approach.

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Extracting angle-domain common-image gathers in VTI media using ansiotropic-Helmholtz P/S wave-mode decomposition

Zhang¹,

Zhao²,

Liu³

et al. 2023

Petroleum Science

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A 3D fast decoupled operator for anisotropic P/S wavefield decomposition for elastic reverse time migration

Zhang

Zhao

Zuo

et al. 2023

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Jiahui Zuo

Multiple source downwellings beneath eastern North China revealed by 3-D CCP migration of receiver function data

3D Anisotropic P- and S-Mode Wavefields Separation in 3D Elastic Reverse-Time Migration

A novel and efficient engine for P-/S-wave-mode vector decomposition for vertical transverse isotropic elastic reverse time migration

Extracting angle-domain common-image gathers in VTI media using ansiotropic-Helmholtz P/S wave-mode decomposition

A 3D fast decoupled operator for anisotropic P/S wavefield decomposition for elastic reverse time migration

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