We present a surface integral equation (SIE) to model the electromagnetic behavior of
metallic objects at optical frequencies. The electric and magnetic current combined field …

A surface integral equation-method of moments (SIE-MoM) approach is presented for the
solution of multiple homogeneous penetrable bodies. The problem is formulated using …

We consider accurate full‐wave solutions of plasmonic problems using the multilevel fast
multipole algorithm (MLFMA). Metallic structures at optical frequencies are modeled by …

A surface integral equation together with the multilevel fast multipole algorithm is
successfully applied to fast and accurate resolution of plasmonic problems involving a large …

This paper presents a discontinuous Galerkin (DG) integral equation (IE) method for the
electromagnetic analysis of arbitrarily-shaped plasmonic assemblies. The use of …

Optical nanocouplers matching a fiber microwaveguide to a plasmonic nanowaveguide are
essential components for practical applications of nanophotonic systems. In this Letter we …

In this paper, we present a judicious combination of two renowned surface integral equation
(SIE)-based techniques, namely, the multilevel fast multipole algorithm (MLFMA) and the …

In this paper, we introduce an efficient numerical method based on surface integral
equations to characterize the scattering of a zero-order Bessel beam by arbitrarily shaped …

Accurate electromagnetic modeling of complicated optical structures poses several
challenges. Optical metamaterial and plasmonic structures are composed of multiple …

In this paper, we introduce the use of the multilevel fast multipole algorithm (MLFMA) in
synergy with a multilevel nonoverlapping additive Schwarz domain decomposition (DD) …