Green's theorem in seismic imaging across the scales

Green's theorem in seismic imaging across the scales

<p>The earthquake seismology and seismic exploration communities have developed a variety of seismic imaging methods for passive- and active-source data. Despite the seemingly different approaches and underlying principles, many of those methods are based in some way or another on Green...

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Main Authors: K. Wapenaar, J. Brackenhoff, J. Thorbecke
Format: Article
Language:English
Published: Copernicus Publications 2019-04-01
Series:Solid Earth
Online Access:https://www.solid-earth.net/10/517/2019/se-10-517-2019.pdf
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spelling doaj-c980776a3f664417bca41c06a5306eeb2020-11-25T00:02:54ZengCopernicus PublicationsSolid Earth1869-95101869-95292019-04-011051753610.5194/se-10-517-2019Green's theorem in seismic imaging across the scalesK. WapenaarJ. BrackenhoffJ. Thorbecke<p>The earthquake seismology and seismic exploration communities have developed a variety of seismic imaging methods for passive- and active-source data. Despite the seemingly different approaches and underlying principles, many of those methods are based in some way or another on Green's theorem. The aim of this paper is to discuss a variety of imaging methods in a systematic way, using a specific form of Green's theorem (the homogeneous Green's function representation) as a common starting point. The imaging methods we cover are time-reversal acoustics, seismic interferometry, back propagation, source–receiver redatuming and imaging by double focusing. We review classical approaches and discuss recent developments that fully account for multiple scattering, using the Marchenko method. We briefly indicate new applications for monitoring and forecasting of responses to induced seismic sources, which are discussed in detail in a companion paper.</p>https://www.solid-earth.net/10/517/2019/se-10-517-2019.pdf
collection DOAJ
language English
format Article
sources DOAJ
author K. Wapenaar
J. Brackenhoff
J. Thorbecke
spellingShingle K. Wapenaar
J. Brackenhoff
J. Thorbecke
Green's theorem in seismic imaging across the scales
Solid Earth
author_facet K. Wapenaar
J. Brackenhoff
J. Thorbecke
author_sort K. Wapenaar
title Green's theorem in seismic imaging across the scales
title_short Green's theorem in seismic imaging across the scales
title_full Green's theorem in seismic imaging across the scales
title_fullStr Green's theorem in seismic imaging across the scales
title_full_unstemmed Green's theorem in seismic imaging across the scales
title_sort green's theorem in seismic imaging across the scales
publisher Copernicus Publications
series Solid Earth
issn 1869-9510
1869-9529
publishDate 2019-04-01
description <p>The earthquake seismology and seismic exploration communities have developed a variety of seismic imaging methods for passive- and active-source data. Despite the seemingly different approaches and underlying principles, many of those methods are based in some way or another on Green's theorem. The aim of this paper is to discuss a variety of imaging methods in a systematic way, using a specific form of Green's theorem (the homogeneous Green's function representation) as a common starting point. The imaging methods we cover are time-reversal acoustics, seismic interferometry, back propagation, source–receiver redatuming and imaging by double focusing. We review classical approaches and discuss recent developments that fully account for multiple scattering, using the Marchenko method. We briefly indicate new applications for monitoring and forecasting of responses to induced seismic sources, which are discussed in detail in a companion paper.</p>
url https://www.solid-earth.net/10/517/2019/se-10-517-2019.pdf
work_keys_str_mv AT kwapenaar greenstheoreminseismicimagingacrossthescales
AT jbrackenhoff greenstheoreminseismicimagingacrossthescales
AT jthorbecke greenstheoreminseismicimagingacrossthescales
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