We propose an efficient integration path for the fast evaluation of the three‐dimensional
spatial‐domain Green's function for electromagnetic wave propagation in layered media for …

Further developments in a Boundary Element Method model for eddy current inspection of
ideal or narrow cracks are presented. First, the required Green's function is rapidly computed …

This work focuses on Green's functions (GFs) of planar multilayered structures that may
include an arbitrary number of conductive sheets. The spectral-domain GFs are derived …

The Sommerfeld halfspace problem is revisited allowing for multilayer and plasmonic media,
with a focus on the surface field computation. Alternative field representations are discussed …

Retrieval of the subsurface electrical properties from electromagnetic induction (EMI) data
using inverse modeling relies in particular on the accuracy of the considered EMI model. We …

A robust and efficient method is presented for the computation of the electromagnetic modes
supported by planar multilayer waveguides that may comprise lossy, active, plasmonic, and …

Calculating the Green's functions in lossy layered media using the discrete complex image
method (DCIM) is challenging, due to the difficulties in extracting the surface-wave poles that …

Since its first inception, the discrete complex image method (DCIM) has been criticized for
the lack of a proper prediction algorithm of the error incurred during the process. Although …

When the fast Hankel transform (FHT) filter technique is used to calculate the spatial-domain
Green's functions for planar multilayered media, it can be difficult to obtain accurate …

A new integration scheme, specifically tailored for the first, finite, part of Sommerfeld
Integrals (SIs) arising in the electromagnetic analysis of multilayered structures, is …