Electrically reconfigurable split ring resonator covered by nematic liquid crystal droplet

Kepeng Qiu; Ning Jia; Zijun Liu; Chen Wu; Yuancheng Fan; Quanhong Fu; Fuli Zhang; Weihong Zhang

doi:10.1364/OE.24.027096

Electrically reconfigurable split ring resonator covered by nematic liquid crystal droplet

Kepeng Qiu, Ning Jia, Zijun Liu, Chen Wu, Yuancheng Fan, Quanhong Fu, Fuli Zhang, Weihong Zhang

School of Mechanical Engineering

Northwestern Polytechnical University Xian

Research output: Contribution to journal › Article › peer-review

6 Scopus citations

Abstract

In this paper, an electrically reconfigurable split ring resonator (SRR) covered by sessile droplet of nematic liquid crystal (LC) is demonstrated experimentally. The magnetic resonance of single SRR decreases gradually by 237 MHz as external bias voltage is applied, resulting from increasing fringing capacitance due to liquid crystal molecular reorientation along local electric field distribution. The transmission phase can be modulated by more than 00 degrees. Furthermore, frequency tuning range of SRR increases with the droplet height, because of the significant enhancement for SRR capacitance difference between LC states with/without bias voltage. This work will be of interest for the development of reconfigurable metasurface and related application.

Original language	English
Pages (from-to)	27096-27103
Number of pages	8
Journal	Optics Express
Volume	24
Issue number	24
DOIs	https://doi.org/10.1364/OE.24.027096
State	Published - 28 Nov 2016

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title = "Electrically reconfigurable split ring resonator covered by nematic liquid crystal droplet",

abstract = "In this paper, an electrically reconfigurable split ring resonator (SRR) covered by sessile droplet of nematic liquid crystal (LC) is demonstrated experimentally. The magnetic resonance of single SRR decreases gradually by 237 MHz as external bias voltage is applied, resulting from increasing fringing capacitance due to liquid crystal molecular reorientation along local electric field distribution. The transmission phase can be modulated by more than 00 degrees. Furthermore, frequency tuning range of SRR increases with the droplet height, because of the significant enhancement for SRR capacitance difference between LC states with/without bias voltage. This work will be of interest for the development of reconfigurable metasurface and related application.",

author = "Kepeng Qiu and Ning Jia and Zijun Liu and Chen Wu and Yuancheng Fan and Quanhong Fu and Fuli Zhang and Weihong Zhang",

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T1 - Electrically reconfigurable split ring resonator covered by nematic liquid crystal droplet

AU - Qiu, Kepeng

AU - Jia, Ning

AU - Liu, Zijun

AU - Wu, Chen

AU - Fan, Yuancheng

AU - Fu, Quanhong

AU - Zhang, Fuli

AU - Zhang, Weihong

PY - 2016/11/28

Y1 - 2016/11/28

N2 - In this paper, an electrically reconfigurable split ring resonator (SRR) covered by sessile droplet of nematic liquid crystal (LC) is demonstrated experimentally. The magnetic resonance of single SRR decreases gradually by 237 MHz as external bias voltage is applied, resulting from increasing fringing capacitance due to liquid crystal molecular reorientation along local electric field distribution. The transmission phase can be modulated by more than 00 degrees. Furthermore, frequency tuning range of SRR increases with the droplet height, because of the significant enhancement for SRR capacitance difference between LC states with/without bias voltage. This work will be of interest for the development of reconfigurable metasurface and related application.

AB - In this paper, an electrically reconfigurable split ring resonator (SRR) covered by sessile droplet of nematic liquid crystal (LC) is demonstrated experimentally. The magnetic resonance of single SRR decreases gradually by 237 MHz as external bias voltage is applied, resulting from increasing fringing capacitance due to liquid crystal molecular reorientation along local electric field distribution. The transmission phase can be modulated by more than 00 degrees. Furthermore, frequency tuning range of SRR increases with the droplet height, because of the significant enhancement for SRR capacitance difference between LC states with/without bias voltage. This work will be of interest for the development of reconfigurable metasurface and related application.

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SN - 1094-4087

VL - 24

SP - 27096

EP - 27103

JO - Optics Express

JF - Optics Express

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ER -

Electrically reconfigurable split ring resonator covered by nematic liquid crystal droplet

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