The methodology of Green’s function retrieval by cross-correlation has led to many interesting applications for passive and controlled-source acoustic measurements. In all applications, a virtual source is created at the position of a receiver. Here a method is discussed for Green’s function retrieval from controlled-source reflection data, which circumvents the requirement of having an actual receiver at the position of the virtual source. The method requires, apart from the reflection data, an estimate of the direct arrival of the Green’s function. A single-sided three-dimensional (3D) Marchenko equation underlies the method. This equation relates the reflection response, measured at one side of the medium, to the scattering coda of a so-...
In recent work we showed with heuristic arguments that the Green's response to a virtual source in t...
With the acoustic single-sided Marchenko method it is possible to retrieve the Green’s function of a...
Green’s functions in an unknown medium can be retrieved from single-sided reflection data by solving...
summary Recently we introduced a new approach for retrieving the Green’s response to a virtual sourc...
The Marchenko integral, key to inverse scattering problems across many disciplines, is a long-standi...
An iterative method is presented that allows one to retrieve the Green's function originating from a...
Iterative substitution of the coupled Marchenko equations is a novel methodology to retrieve the Gre...
Iterative substitution of the coupled Marchenko equations is a novel methodology to retrieve the Gre...
Recent research showed that the Marchenko equation can be used to construct the Green’s function for...
A Green's function in an acoustic medium can be retrieved from reflection data by solving a multidim...
The cross-correlation of acoustic wave fields at two receivers yields the exact Green's function bet...
To enhance monitoring of the subsurface, virtual sources and receivers inside the subsurface can be ...
Recent work on autofocusing with the Marchenko equation has shown how the Green’s function for a vir...
Single-sided Marchenko equations for Green’s function construction and imaging relate the measured r...
In recent work we showed with heuristic arguments that the Green’s response to a virtual source in t...
In recent work we showed with heuristic arguments that the Green's response to a virtual source in t...
With the acoustic single-sided Marchenko method it is possible to retrieve the Green’s function of a...
Green’s functions in an unknown medium can be retrieved from single-sided reflection data by solving...
summary Recently we introduced a new approach for retrieving the Green’s response to a virtual sourc...
The Marchenko integral, key to inverse scattering problems across many disciplines, is a long-standi...
An iterative method is presented that allows one to retrieve the Green's function originating from a...
Iterative substitution of the coupled Marchenko equations is a novel methodology to retrieve the Gre...
Iterative substitution of the coupled Marchenko equations is a novel methodology to retrieve the Gre...
Recent research showed that the Marchenko equation can be used to construct the Green’s function for...
A Green's function in an acoustic medium can be retrieved from reflection data by solving a multidim...
The cross-correlation of acoustic wave fields at two receivers yields the exact Green's function bet...
To enhance monitoring of the subsurface, virtual sources and receivers inside the subsurface can be ...
Recent work on autofocusing with the Marchenko equation has shown how the Green’s function for a vir...
Single-sided Marchenko equations for Green’s function construction and imaging relate the measured r...
In recent work we showed with heuristic arguments that the Green’s response to a virtual source in t...
In recent work we showed with heuristic arguments that the Green's response to a virtual source in t...
With the acoustic single-sided Marchenko method it is possible to retrieve the Green’s function of a...
Green’s functions in an unknown medium can be retrieved from single-sided reflection data by solving...