Iterative substitution of the coupled Marchenko equations is a novel methodology to retrieve
the Green's functions from a source or receiver array at an acquisition surface to an arbitrary …

The Marchenko method makes it possible to compute subsurface-to-surface Green's
functions from reflection measurements at the surface. Applications of the Marchenko …

Geoscientists often have little information about earth's subsurface heterogeneities prior to
mapping them using seismic or other geophysical data. Marchenko methods are a set of …

Marchenko-based method is a novel multiple-free imaging approach for a target subsurface
area. High-density acquisition can help obtain an accurate Marchenko imaging, but will …

The Marchenko method is a subsurface approach to calculate Green's functions from the
subsurface to the surface. It requires only reflection response from the surface and direct …

Marchenko redatuming is a powerful technique which uses all orders of scattering to
construct an image of the subsurface. The algorithm is of great value when strong internal …

Ocean-bottom seismic plays a crucial role in resource exploration and monitoring. However,
despite their undoubted potential, the use of coarse receiver geometries poses challenges …

Conventional seismic imaging methods rely on the single-scattering Born approximation,
requiring the removal of multiply scattered events from reflection data prior to imaging …

Subbasalt imaging for hydrocarbon exploration faces challenges with the presence of
multiple scattering, attenuation, and mode conversion as seismic waves encounter highly …

The data‐driven Marchenko method is able to redatum wavefields to arbitrary locations in
the subsurface, and can, therefore, be used to isolate zones of specific interest. This creates …