DocumentCode
14842
Title
Reconfigurable Terahertz Leaky-Wave Antenna Using Graphene-Based High-Impedance Surface
Author
Xu-Chen Wang ; Wen-Sheng Zhao ; Jun Hu ; Wen-Yan Yin
Author_Institution
Centre for Opt. & EM Res., Zhejiang Univ., Hangzhou, China
Volume
14
Issue
1
fYear
2015
fDate
Jan. 2015
Firstpage
62
Lastpage
69
Abstract
The concept of graphene-based two-dimensional leaky-wave antenna (LWA), allowing both frequency tuning and beam steering in the terahertz band, is proposed in this paper. In its design, a graphene sheet is used as a tuning part of the high-impedance surface (HIS) that acts as the ground plane of such 2-D LWA. It is shown that, by adjusting the graphene conductivity, the reflection phase of the HIS can be altered effectively, thus controlling the resonant frequency of the 2-D LWA over a broad band. In addition, a flexible adjustment of its pointing direction can be achieved over a wide range, while keeping the operating frequency fixed. Transmission-line methods are used to accurately predict the antenna reconfigurable characteristics, which are further verified by means of commercial full-wave analysis tools.
Keywords
beam steering; electrical conductivity; frequency control; frequency selective surfaces; graphene devices; leaky wave antennas; terahertz wave devices; transmission lines; HIS; antenna reconfigurable characteristic prediction; beam steering; flexible pointing direction adjustment; frequency selective surface; frequency tuning; full-wave analysis tools; graphene conductivity adjustment; graphene sheet; graphene-based 2D leaky-wave antenna; graphene-based high-impedance surface; reconfigurable terahertz leaky-wave antenna; reflection phase; resonant frequency control; terahertz band; transmission-line methods; Cavity resonators; Chemicals; Graphene; Impedance; Integrated circuit modeling; Reflection; Resonant frequency; Frequency selective surface (FSS); Graphene; frequency selective surface (FSS); graphene; high-impedance surface (HIS); leaky-wave antenna (LWA); reconfigurable characteristics; tunability;
fLanguage
English
Journal_Title
Nanotechnology, IEEE Transactions on
Publisher
ieee
ISSN
1536-125X
Type
jour
DOI
10.1109/TNANO.2014.2365205
Filename
6937199
Link To Document