A general-purpose simulator for metamaterials with three-dimensional elements

Author

Mittra, Raj ; Pelletti, Chiara ; Arya, Ravi Kumar ; Dong, T. ; Bianconi, Giacomo

Author_Institution

EMC Lab., Pennsylvania State Univ., University Park, PA, USA

fYear

2013

Firstpage

78

Lastpage

80

Abstract

In this paper we present two simulation techniques for modeling periodic structures with three-dimensional elements in general. The first of these is based on the Method of Moments (MoM) and is suitable for thin-wire structures, which could be either PEC or plasmonic, e.g., nanowires at optical wavelengths. The second is a Finite Difference Time Domain (FDTD)-based approach, which is well suited for handling arbitrary, inhomogeneous, three-dimensional periodic structures. Neither of the two approaches make use of the “traditional” Periodic Boundary Conditions (PBCs), and are free from the difficulties encountered in the application of the PBC, as for instance slowness in convergence (MoM) and instabilities (FDTD).

Keywords

convergence of numerical methods; finite difference time-domain analysis; inhomogeneous media; metamaterials; method of moments; FDTD-based approach; MoM; PBC; PEC structures; finite difference time domain-based approach; general-purpose simulator; inhomogeneous three-dimensional periodic structure handling; metamaterials; method of moments; periodic boundary conditions; periodic structure modeling; plasmonic structures; thin-wire structures; three-dimensional elements; Finite difference methods; Finite element analysis; Frequency selective surfaces; Method of moments; Periodic structures; Solid modeling; Time-domain analysis;

fLanguage

English

Publisher

ieee

Conference_Titel

Electromagnetic Theory (EMTS), Proceedings of 2013 URSI International Symposium on

Print_ISBN

978-1-4673-4939-0

Type

conf

Filename

6565679