Design, implementation and application of the Marchenko Plane-wave algorithm
Abstract
The Marchenko algorithm can suppress the disturbing effects of internal multiples that are present in seismic reflection data. To achieve this, a set of coupled equations with four unknowns is solved. These coupled equations are separated into a set of two equations with two unknowns using a time window. The two unknown focusing functions can be resolved by an iterative or direct method. These focusing functions, when applied to reflection data, create virtual point-sources inside the medium. Combining individual virtual point-sources into a plane-wave leads to an efficient computation of images without internal multiples. In this study the internal multiples are eliminated in a redatuming step which is part of the imaging algorithm. To use the Marchenko algorithm with plane-wave focusing functions, the time window that separates the unknowns must be adapted. The design of the plane-wave Marchenko algorithm is explained and illustrated with numerically modeled and measured reflection data.
Cite
@article{arxiv.2305.17639,
title = {Design, implementation and application of the Marchenko Plane-wave algorithm},
author = {Jan Thorbecke and Mohammed Almobarak and Johno van IJsseldijk and Joeri Brackenhoff and Giovanni Meles and Kees Wapenaar},
journal= {arXiv preprint arXiv:2305.17639},
year = {2025}
}
Comments
20 pages, 13 figures