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Main Authors: van der Neut, Joost, Brackenhoff, Joeri, Meles, Giovanni, Zhang, Lele, Slob, Evert, Wapenaar, Kees
Format: Preprint
Published: 2022
Subjects:
Online Access:https://arxiv.org/abs/2203.16143
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author van der Neut, Joost
Brackenhoff, Joeri
Meles, Giovanni
Zhang, Lele
Slob, Evert
Wapenaar, Kees
author_facet van der Neut, Joost
Brackenhoff, Joeri
Meles, Giovanni
Zhang, Lele
Slob, Evert
Wapenaar, Kees
contents A Green's function in an acoustic medium can be retrieved from reflection data by solving a multidimensional Marchenko equation. This procedure requires a-priori knowledge of the initial focusing function, which can be interpreted as the inverse of a transmitted wavefield as it would propagate through the medium, excluding (multiply) reflected waveforms. In practice, the initial focusing function is often replaced by a time-reversed direct wave, which is computed with help of a macro velocity model. Green's functions that are retrieved under this (direct-wave) approximation typically lack forward-scattered waveforms and their associated multiple reflections. We examine whether this problem can be mitigated by incorporating transmission data. Based on these transmission data, we derive an auxiliary equation for the forward-scattered components of the initial focusing function. We demonstrate that this equation can be solved in an acoustic medium with mass density contrast and constant propagation velocity. By solving the auxiliary and Marchenko equation successively, we can include forward-scattered waveforms in our Green's function estimates, as we demonstrate with a numerical example.
format Preprint
id arxiv_https___arxiv_org_abs_2203_16143
institution arXiv
publishDate 2022
record_format arxiv
spellingShingle On the retrieval of forward-scattered waveforms from acoustic reflection and transmission data with the Marchenko equation
van der Neut, Joost
Brackenhoff, Joeri
Meles, Giovanni
Zhang, Lele
Slob, Evert
Wapenaar, Kees
Applied Physics
A Green's function in an acoustic medium can be retrieved from reflection data by solving a multidimensional Marchenko equation. This procedure requires a-priori knowledge of the initial focusing function, which can be interpreted as the inverse of a transmitted wavefield as it would propagate through the medium, excluding (multiply) reflected waveforms. In practice, the initial focusing function is often replaced by a time-reversed direct wave, which is computed with help of a macro velocity model. Green's functions that are retrieved under this (direct-wave) approximation typically lack forward-scattered waveforms and their associated multiple reflections. We examine whether this problem can be mitigated by incorporating transmission data. Based on these transmission data, we derive an auxiliary equation for the forward-scattered components of the initial focusing function. We demonstrate that this equation can be solved in an acoustic medium with mass density contrast and constant propagation velocity. By solving the auxiliary and Marchenko equation successively, we can include forward-scattered waveforms in our Green's function estimates, as we demonstrate with a numerical example.
title On the retrieval of forward-scattered waveforms from acoustic reflection and transmission data with the Marchenko equation
topic Applied Physics
url https://arxiv.org/abs/2203.16143