Weighted residual solutions in the time domain

## Abstract The numerical solution of field substructures in time domain diakoptics requires an interation time consistent with the numerical accuracy required. When storing and reconnecting the substructures, the information required can be obtained from considerably fewer samples. This paper show

## Abstract In this article, we propose a new stable solution for the time domain electric field integral equation (TD‐EFIE) for arbitrarily shaped conducting structures, which utilizes weighted Laguerre polynomials as temporal basis functions, which means that the unknown surface currents are expa

This paper is a review discussing properties of "eld solutions produced by various "nite di!erence schemes in the time domain. Considered algorithms include standard FDTD as well as its modi"cations based on di!erent sets of electromagnetic equations and/or di!erent discretization in space. By devel

Time domain solutions applicable to the GC pulse dispersion experiment are presented in the form of dimensionless numerical plots. It is shown that when the particles are nonporous, or diffusion in both the macro-and micropore systems is rapid, a Gaussian peak results. In this case the peak broadeni