Detail publikace

Time-domain characterization of antennas in metamaterial media

Originální název

Time-domain characterization of antennas in metamaterial media

Anglický název

Time-domain characterization of antennas in metamaterial media

Jazyk

en

Originální abstrakt

In this paper a wire dipole embedded within a double-negative (DNG) medium is numerically analyzed using the time-domain integral equation method (TDIE). The antenna is excited by a narrow Gaussian pulse in order to obtain responses within a wider frequency band. The transient current distribution on the antenna is processed so as to obtain a time-domain radiation pattern and to compute the gain. Time-domain parameters are obtained by calculating mean-value quantities which are then compared with the conventional frequency-domain parameters using Parseval’s theorem.

Anglický abstrakt

In this paper a wire dipole embedded within a double-negative (DNG) medium is numerically analyzed using the time-domain integral equation method (TDIE). The antenna is excited by a narrow Gaussian pulse in order to obtain responses within a wider frequency band. The transient current distribution on the antenna is processed so as to obtain a time-domain radiation pattern and to compute the gain. Time-domain parameters are obtained by calculating mean-value quantities which are then compared with the conventional frequency-domain parameters using Parseval’s theorem.

Dokumenty

BibTex


@article{BUT43404,
  author="Zbyněk {Raida} and Jaroslav {Láčík} and Jiří {Horák} and Lukáš {Oliva}",
  title="Time-domain characterization of antennas in metamaterial media",
  annote="In this paper a wire dipole embedded within a double-negative (DNG) medium is numerically analyzed using the time-domain integral equation method (TDIE). The antenna is excited by a narrow Gaussian pulse in order to obtain responses within a wider frequency band. The transient current distribution on the antenna is processed so as to obtain a time-domain radiation pattern and to compute the gain. Time-domain parameters are obtained by calculating mean-value quantities which are then compared with the conventional frequency-domain parameters using Parseval’s theorem.",
  chapter="43404",
  journal="Microwave and Optical Technology Letters",
  number="12",
  volume="48",
  year="2006",
  month="september",
  pages="2530",
  type="journal article - other"
}