During the past three years, Wapenaar, Snieder, Broggini and others have developed an algorithm to compute the Green’s function for any point inside a medium to points on the surface from measurements on that surface only. Their algorithm is based on focusing an incoming wavefield to a single point in order to create a virtual source at the focus. The procedure has been justified only by heuristic arguments. In this paper I am using simple physical arguments to prove an integral equation for single-sided, higher-dimensional inverse scattering. This integral equation is equivalent to the Wapenaar iteration algorithm. The equation will be exact, including all internal multiple reflections. The derivation makes use of time-invariance but does ...
summary Recently we introduced a new approach for retrieving the Green’s response to a virtual sourc...
Abstract. In this paper we discuss the inverse scattering algorithm for predicting in-ternal multipl...
In mathematics an inverse scattering transformation is a method for solving some nonlinear equations...
In wave theory, the homogeneous Green’s function consists of the impulse response to a point source,...
The Marchenko integral, key to inverse scattering problems across many disciplines, is a long-standi...
Green's theorem plays a fundamental role in a diverse range of wavefield imaging applications, such ...
The one-dimensional Marchenko equation forms the basis for inverse scattering problems in which the ...
The homogeneous Green’s function (i.e., the Green’s function and its time-reversed counterpart) play...
In nondestructive evaluation, one attempts to obtain information about the parameters of a medium by...
Recently it has been shown that acoustic Green’s functions from sources inside of a medium can be re...
Consider the inverse acoustic scattering problem for a spherically symmetric inhomogeneity of compac...
Abstract: The Marchenko equation has since long been used by mathematical physicists as a basis for ...
AbstractTwo particular inverse scattering problems are of special interest. The first concerns the d...
Wavefield focusing is often achieved by time-reversal mirrors, where wavefields emitted by a source ...
Recent work on the Marchenko equation has shown that the scalar 3-D Green’s function for a virtual s...
summary Recently we introduced a new approach for retrieving the Green’s response to a virtual sourc...
Abstract. In this paper we discuss the inverse scattering algorithm for predicting in-ternal multipl...
In mathematics an inverse scattering transformation is a method for solving some nonlinear equations...
In wave theory, the homogeneous Green’s function consists of the impulse response to a point source,...
The Marchenko integral, key to inverse scattering problems across many disciplines, is a long-standi...
Green's theorem plays a fundamental role in a diverse range of wavefield imaging applications, such ...
The one-dimensional Marchenko equation forms the basis for inverse scattering problems in which the ...
The homogeneous Green’s function (i.e., the Green’s function and its time-reversed counterpart) play...
In nondestructive evaluation, one attempts to obtain information about the parameters of a medium by...
Recently it has been shown that acoustic Green’s functions from sources inside of a medium can be re...
Consider the inverse acoustic scattering problem for a spherically symmetric inhomogeneity of compac...
Abstract: The Marchenko equation has since long been used by mathematical physicists as a basis for ...
AbstractTwo particular inverse scattering problems are of special interest. The first concerns the d...
Wavefield focusing is often achieved by time-reversal mirrors, where wavefields emitted by a source ...
Recent work on the Marchenko equation has shown that the scalar 3-D Green’s function for a virtual s...
summary Recently we introduced a new approach for retrieving the Green’s response to a virtual sourc...
Abstract. In this paper we discuss the inverse scattering algorithm for predicting in-ternal multipl...
In mathematics an inverse scattering transformation is a method for solving some nonlinear equations...