Polarization angle independent metamaterial absorber based on circle-shaped resonators with interference theory

Furkan Dincer; Muharrrem Karaaslan; Oguzhan Akgol; Emin Unal; Cumali Sabah

doi:10.1142/S0217984915501882

Polarization angle independent metamaterial absorber based on circle-shaped resonators with interference theory

Furkan Dincer
, Muharrrem Karaaslan
, Oguzhan Akgol
, Emin Unal
, Cumali Sabah

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

Abstract

We theoretically and numerically designed a perfect metamaterial absorber at microwave frequencies. The proposed design has a very simple geometry, wide band properties and provides perfect absorption for all polarization angles which is one of the most desired properties for an absorber structure to be used in the applications where the source polarization is unknown. In order to explain the absorption mechanism both numerical and theoretical analyses are carried out. Designed structure offers a perfect absorption at around 9.8 GHz. The resonance frequency does not change depending on the source wave polarization. In addition, it can be easily reconfigured for THz and infrared regimes for different applications such as sensors, defense systems and stealth technologies.

Original language	English
Article number	1550188
Journal	Modern Physics Letters B
Volume	29
Issue number	30
DOIs	https://doi.org/10.1142/S0217984915501882
Publication status	Published - Nov 10 2015
Externally published	Yes

Keywords

circle shape
interference theory
Metamaterial absorbers
perfect MA
polarization independency

ASJC Scopus subject areas

Statistical and Nonlinear Physics
Condensed Matter Physics

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10.1142/S0217984915501882

Cite this

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title = "Polarization angle independent metamaterial absorber based on circle-shaped resonators with interference theory",

abstract = "We theoretically and numerically designed a perfect metamaterial absorber at microwave frequencies. The proposed design has a very simple geometry, wide band properties and provides perfect absorption for all polarization angles which is one of the most desired properties for an absorber structure to be used in the applications where the source polarization is unknown. In order to explain the absorption mechanism both numerical and theoretical analyses are carried out. Designed structure offers a perfect absorption at around 9.8 GHz. The resonance frequency does not change depending on the source wave polarization. In addition, it can be easily reconfigured for THz and infrared regimes for different applications such as sensors, defense systems and stealth technologies.",

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author = "Furkan Dincer and Muharrrem Karaaslan and Oguzhan Akgol and Emin Unal and Cumali Sabah",

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AU - Dincer, Furkan

AU - Karaaslan, Muharrrem

AU - Akgol, Oguzhan

AU - Unal, Emin

AU - Sabah, Cumali

PY - 2015/11/10

Y1 - 2015/11/10

N2 - We theoretically and numerically designed a perfect metamaterial absorber at microwave frequencies. The proposed design has a very simple geometry, wide band properties and provides perfect absorption for all polarization angles which is one of the most desired properties for an absorber structure to be used in the applications where the source polarization is unknown. In order to explain the absorption mechanism both numerical and theoretical analyses are carried out. Designed structure offers a perfect absorption at around 9.8 GHz. The resonance frequency does not change depending on the source wave polarization. In addition, it can be easily reconfigured for THz and infrared regimes for different applications such as sensors, defense systems and stealth technologies.

AB - We theoretically and numerically designed a perfect metamaterial absorber at microwave frequencies. The proposed design has a very simple geometry, wide band properties and provides perfect absorption for all polarization angles which is one of the most desired properties for an absorber structure to be used in the applications where the source polarization is unknown. In order to explain the absorption mechanism both numerical and theoretical analyses are carried out. Designed structure offers a perfect absorption at around 9.8 GHz. The resonance frequency does not change depending on the source wave polarization. In addition, it can be easily reconfigured for THz and infrared regimes for different applications such as sensors, defense systems and stealth technologies.

KW - circle shape

KW - interference theory

KW - Metamaterial absorbers

KW - perfect MA

KW - polarization independency

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Polarization angle independent metamaterial absorber based on circle-shaped resonators with interference theory

Abstract

Keywords

ASJC Scopus subject areas

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