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Primary terms
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Africa
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North Africa
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Libya
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Sirte Basin (1)
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Atlantic Ocean
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North Atlantic
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Gulf of Mexico (1)
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South Atlantic
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Santos Basin (1)
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Europe
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Central Europe
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Germany
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Brandenburg Germany
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Ketzin Germany (1)
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Hungary
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Budapest Hungary (1)
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Danube River (1)
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Western Europe
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Scandinavia
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Finland
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North Karelia Finland (1)
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Extracting small time-lapse traveltime changes in a reservoir using primaries and internal multiples after Marchenko-based target zone isolation
Enhancing subsalt imaging through advanced identification and suppression of interbed multiples and mode-converted reflections — Gulf of Mexico and Brazil case studies
Marchenko redatuming, imaging, and multiple elimination and their mutual relations
Implementation of the Marchenko multiple elimination algorithm
Data-driven internal multiple elimination and its consequences for imaging: A comparison of strategies
Transmission compensated primary reflection retrieval in the data domain and consequences for imaging
Automatic 3D illumination-diagnosis method for large- N arrays: Robust data scanner and machine-learning feature provider
Implementation of the Marchenko method
Accounting for free-surface multiples in Marchenko imaging
Inversion of controlled-source electromagnetic reflection responses
An illustration of adaptive Marchenko imaging
Studying CO 2 storage with ambient-noise seismic interferometry: A combined numerical feasibility study and field-data example for Ketzin, Germany
The electromagnetic response in a layered vertical transverse isotropic medium: A new look at an old problem
Marchenko imaging
Nongeometrically converted shear waves in marine streamer data
Deblending by direct inversion
Controlled-source interferometric redatuming by crosscorrelation and multidimensional deconvolution in elastic media
Reflection images from ambient seismic noise
Simulating migrated and inverted seismic data by filtering a geologic model
Abstract In 1968, Jon Claerbout showed that the reflection response of a 1D acoustic medium can be reconstructed by autocorrelating the transmission response. Since then, several authors have derived relationships for reconstructing Green’s functions at the surface, using crosscorrelations of (noise) recordings that were taken at the surface and that derived from subsurface sources. For acoustic media, we review relations between the reflection response and the transmission response in 3D inhomogeneous lossless media. These relations are derived from a one-way wavefield reciprocity theorem. We use modeling results to show how to reconstruct the reflection response in the presence of transient subsurface sources with distinct excitation times, as well as in the presence of simultaneously acting noise sources in the subsurface. We show that the quality of reconstructed reflections depends on the distribution of the subsurface sources. For a situation with enough subsurface sources — that is, for a distribution that illuminates the subsurface area of interest from nearly all directions — the reconstructed reflection responses and the migrated depth image exhibit all the reflection events and the subsurface structures of interest, respectively. With only a few subsurface sources, that is, with insufficient illumination, the reconstructed reflection responses are noisy and can even become kinematically incorrect. At the same time, however, the depth image, which was obtained from their migration, still shows clearly all the illuminated subsurface structures at their correct positions. For the elastic case, we review a relationship between the reflection Green’s functions and the transmission Green’s functions derived from a two-way wavefield reciprocity theorem. Using modeling examples, we show how to reconstruct the different components of the particle velocity observed at the surface and resulting from a surface traction source. This reconstruciton is achieved using crosscorrelations of particle velocity components measured at the surface and resulting from separate P- and S-wave sources in the subsurface.