Interesting applications of metamaterials have been proposed in the recent past, and in several cases the use of double-negative (DNG) slabs is appealing. Consequently, a detailed analysis of the propagation of electromagnetic fields inside DNG slabs is critical, and suitable numerical methods are needed. To this aim, a state-of-the-art FDTD approach is here proposed. It is based on a variable-mesh strategy, on the top of a parallel design, compatible with grid-computing technologies. It embeds the Drude model, and a wide variety of sources. Results demonstrate the accuracy and high-performance of the tool, and propose a detailed characterization of DNG slabs
A Parallel-Grid-Enabled Variable-Mesh FDTD Approach for the Analysis of Slabs of Double-Negative Metamaterials
CATARINUCCI, Luca;MONTI, GIUSEPPINA;TARRICONE, Luciano
2005-01-01
Abstract
Interesting applications of metamaterials have been proposed in the recent past, and in several cases the use of double-negative (DNG) slabs is appealing. Consequently, a detailed analysis of the propagation of electromagnetic fields inside DNG slabs is critical, and suitable numerical methods are needed. To this aim, a state-of-the-art FDTD approach is here proposed. It is based on a variable-mesh strategy, on the top of a parallel design, compatible with grid-computing technologies. It embeds the Drude model, and a wide variety of sources. Results demonstrate the accuracy and high-performance of the tool, and propose a detailed characterization of DNG slabsI documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
