FDTD modeling of nonperiodic antenna located above metasurface using surface impedance boundary condition

This paper investigates an FDTD modeling method for precisely calculating the characteristics of a single, that is, a nonperiodic antenna located above a metasurface that consists of an infinite periodic conducting element on a flat dielectric substrate. The original FDTD method requires enormous co...

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Bibliographic Details
Main Authors: Uno Toru, Arima Takuji, Kurahara Akihide
Format: Article
Language:English
Published: EDP Sciences 2019-01-01
Series:EPJ Applied Metamaterials
Online Access:https://epjam.edp-open.org/articles/epjam/full_html/2019/01/epjam180008/epjam180008.html
Description
Summary:This paper investigates an FDTD modeling method for precisely calculating the characteristics of a single, that is, a nonperiodic antenna located above a metasurface that consists of an infinite periodic conducting element on a flat dielectric substrate. The original FDTD method requires enormous computational resources to analyze such structures because an appropriate periodic boundary condition (PBC) is not supported, and a brute force approach has to be used for this reason. Another option is to use the array scanning method in which a single source is synthesized from a superposition of infinite phased array of point sources. In this method, some problems such as a mutual coupling between the single antenna and the metasurface, a computational error contained in a numerical integration over the Brillouin zone and so on have not been resolved yet. In order to resolve these difficulties and to reduce computational resources, a surface impedance boundary condition (SIBC) is incorporated into the FDTD method in this paper. The validity of the method is numerically confirmed by calculating an input impedance and a radiation pattern of a horizontal dipole antenna located above the metasurface.
ISSN:2272-2394