Design and fabrication of a reconfigurable frequency selective surface using fluidic channels

Dong Chan Son; Hokeun Shin; Yoon Jae Kim; Ic Pyo Hong; Heoung Jae Chun; Yong Bae Park

doi:10.5370/JEET.2017.12.6.2342

Design and fabrication of a reconfigurable frequency selective surface using fluidic channels

Dong Chan Son, Hokeun Shin, Yoon Jae Kim, Ic Pyo Hong, Heoung Jae Chun, Yong Bae Park

Department of Mechanical Engineering

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

3 Citations (Scopus)

Abstract

In this study, we design a reconfigurable frequency selective surface (FSS) using fluidic channels to use the FSS in multi-frequencies. Effective permittivity can be changed using water as the fluid of fluidic channels in a dielectric slab, and the frequency characteristics of FSS can be controlled. We optimize the dimensions of the fluidic channel to design a reconfigurable FSS and measure its transmission characteristics.

Original language	English
Pages (from-to)	2342-2347
Number of pages	6
Journal	Journal of Electrical Engineering and Technology
Volume	12
Issue number	6
DOIs	https://doi.org/10.5370/JEET.2017.12.6.2342
Publication status	Published - 2017 Nov

Keywords

Fluidic channel
Reconfigurable FSS

ASJC Scopus subject areas

Electrical and Electronic Engineering

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10.5370/JEET.2017.12.6.2342

Cite this

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AU - Son, Dong Chan

AU - Shin, Hokeun

AU - Kim, Yoon Jae

AU - Hong, Ic Pyo

AU - Chun, Heoung Jae

AU - Park, Yong Bae

PY - 2017/11

Y1 - 2017/11

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AB - In this study, we design a reconfigurable frequency selective surface (FSS) using fluidic channels to use the FSS in multi-frequencies. Effective permittivity can be changed using water as the fluid of fluidic channels in a dielectric slab, and the frequency characteristics of FSS can be controlled. We optimize the dimensions of the fluidic channel to design a reconfigurable FSS and measure its transmission characteristics.

KW - Fluidic channel

KW - Reconfigurable FSS

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Design and fabrication of a reconfigurable frequency selective surface using fluidic channels

Abstract

Keywords

ASJC Scopus subject areas

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