Journal ArticleDOI
The singularity expansion method: background and developments
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TLDR
The singularity expansion method (SEM) as mentioned in this paper is based on the observation that the transient response of complex electromagnetic scatterers appeared to be dominated by a small number of damped sinusoids.Abstract:
The singularity expansion method (SEM) arose from the observation that the transient response of complex electromagnetic scatterers appeared to be dominated by a small number of damped sinusoids. In the complex frequency plane, these damped sinusoids are poles of the Laplace-transformed response. The question is then one of characterizing the object response (time and frequency domains) in terms of all the singularities (poles, branch cuts, entire functions) in the complex frequency plane (hence singularity expansion method). Building on the older concept of natural frequencies, formulae were developed for the pole terms from an integral-equation formulation of the scattering process. The resulting factoring of the pole terms has important application consequences. Later developments include the eigenmode expansion method (EEM) which diagonalizes the integral-equation kernels and which can be used as an intermediate step in ordering the SEM terms. Additional concepts which have appeared include e...read more
Citations
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Journal ArticleDOI
The singularity expansion method and its application to target identification
TL;DR: The singularity expansion method (SEM) for quantifying the transient electromagnetic (EM) scattering from targets illuminated by pulsed EM radiation is reviewed in this paper, where the aspect-independent (extinction) E-pulse and (single-mode) Spulse discriminant waveforms which, when convolved with the late-time pulse response of a matched target, produce null or mono-mode responses, respectively, through naturalmode annihilation.
Journal ArticleDOI
A wavefront interpretation of the singularity expansion method
Ehud Heyman,Leopold B. Felsen +1 more
TL;DR: The singularity expansion method (SEM) as mentioned in this paper represents transient scattering by superposition of damped oscillatory fields corresponding to the complex resonant frequencies of the scatterer.
Journal ArticleDOI
Complex frequency poles of radar scattering from coated conducting spheres
W.E. Howell,H. Uberall +1 more
TL;DR: In this paper, the authors present pole patterns in the complex-frequency plane for dielectrically-coated spheres, and obtain the movement of the poles under changes of the thickness and dielectric constant of the coating.
Journal ArticleDOI
Perturbation of the sem-pole parameters of an object by a mirror object
TL;DR: In this paper, the authors considered the case that the second object is symmetrical with respect to the first with a plane of symmetry between them, and a perturbation of the natural frequencies was found which is applicable to an intermediate range of spacing between them.
Journal ArticleDOI
Application of singularity expansion method for monitoring the deployment of arterial stents
TL;DR: A novel methodology to estimate diameter of the stent during and after deployment in the artery by applying the singularity expansion method (SEM); according to SEM, the transient electromagnetic signal scattered from bodies can be described by poles and residues.
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