Interlayer tuning of X-band frequency-selective surface using liquid crystal

Author

Ebrahimi, Amir ; Yaghmaee, P. ; Withayachumnankul, Withawat ; Fumeaux, Christophe ; Al-Sarawi, Said ; Abbott, Derek

Author_Institution

Sch. of Electr. & Electron. Eng., Univ. of Adelaide, Adelaide, SA, Australia

fYear

2013

fDate

5-8 Nov. 2013

Firstpage

1118

Lastpage

1120

Abstract

In this paper, a new concept of a voltage-controlled tunable frequency-selective surface (FSS) is introduced based on liquid crystal technology. The designed FSS consists of two periodically patterned metallic layers, separated by a thin dielectric substrate. Tunability is achieved by integrating liquid crystal cells within the substrate for each unit cell, producing interlayer capacitors. By applying a bias voltage between the front and back metallic arrays, the anisotropy axis of the liquid crystal molecules can be re-oriented, and thus the effective relative permittivity of the liquid crystals can be modified to cause a frequency shift in transmission response. Electromagnetic simulations predict 5.6% of continuous frequency tuning for this multi-layer FSS.

Keywords

dielectric losses; frequency selective surfaces; liquid crystals; X band frequency selective surface; anisotropy axis; bias voltage; continuous frequency tuning; effective relative permittivity; electromagnetic simulations; frequency shift; interlayer capacitors; interlayer tuning; liquid crystal molecules; liquid crystal technology; periodically patterned metallic layers; thin dielectric substrate; transmission response; unit cell; voltage controlled tunable frequency selective surface; Dielectrics; Frequency selective surfaces; Integrated circuit modeling; Liquid crystals; Permittivity; Substrates; Tuning; Frequency-selective surface; liquid crystal; reconfigurable; tunable;

fLanguage

English

Publisher

ieee

Conference_Titel

Microwave Conference Proceedings (APMC), 2013 Asia-Pacific

Conference_Location

Seoul

Type

conf

DOI

10.1109/APMC.2013.6695040

Filename

6695040