Metamaterials and Their Application in the Performance Enhancement of Reconfigurable Antennas: A Review

Hussain, Mohamed Azlan; Awan, Wahaj Abbas; Alzaidi, Mohammed S.; Hussain, Niamat; Ali, Esraa Mousa; Falcone, Francisco

doi:10.3390/mi14020349

Cited by 37 publications

(19 citation statements)

References 163 publications

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“…The most important parameter is the distance or gap (G) between the antenna and FSS, which establishes the constructive interface of wave reflecting back from the FSS with the waves radiating from the proposed UWB antenna. The equation given below is used to adjust the gap between the antenna and FSS [ 42 ]. 𝜑 − 2𝛽G = 2𝑛π, where 𝑛 = … −1, 0, 1 … …”

Section: Design and Methodology Of Proposed Fss-loaded Ultra-wideband...mentioning

confidence: 99%

Bandwidth and Gain Enhancement of a CPW Antenna Using Frequency Selective Surface for UWB Applications

et al. 2023

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In this article, a single-layer frequency selective surface (FSS)-loaded compact coplanar waveguide (CPW)-fed antenna is proposed for very high-gain and ultra-wideband applications. At the initial stage, a geometrically simple ultra-wideband (UWB) antenna is designed which contains CPW feed lines and a multi-stub-loaded hexagonal patch. The various stubs are inserted to improve the bandwidth of the radiator. The antenna operates at 5–17 GHz and offers 6.5 dBi peak gain. Subsequently, the proposed FSS structure is designed and loaded beneath the proposed UWB antenna to improve bandwidth and enhance gain. The antenna loaded with FSS operates at an ultra-wideband of 3–18 GHz and offers a peak gain of 10.5 dBi. The FSS layer contains 5 × 5 unit cells with a total dimension of 50 mm × 50 mm. The gap between the FSS layer and UWB antenna is 9 mm, which is fixed to obtain maximum gain. The proposed UWB antenna and its results are compared with the fabricated prototype to verify the results. Moreover, the performance parameters such as bandwidth, gain, operational frequency, and the number of FSS layers used in the proposed antenna are compared with existing literature to show the significance of the proposed work. Overall, the proposed antenna is easy to fabricate and has a low profile and simple geometry with a compact size while offering a very wide bandwidth and high gain. Due to all of its performance properties, the proposed antenna system is a strong candidate for upcoming wideband and high-gain applications.

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Section: Design and Methodology Of Proposed Fss-loaded Ultra-wideband...mentioning

confidence: 99%

Bandwidth and Gain Enhancement of a CPW Antenna Using Frequency Selective Surface for UWB Applications

et al. 2023

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“…According to their function, FSSs may be classified into low‐pass, high‐pass, band‐stop, and bandpass filters, FSSs design typically involves creating periodic arrays of metal elements (patches and notches) printed on a substrate 30,31 . The most crucial move in the configuration process is determining the proper FSSs array arrangements, dimensions, shapes, and substrate materials 32,33 …”

Section: Fss Unit Cell Designmentioning

confidence: 99%

A curved single‐layer FSS design for gain improvement of a compact size CPW‐fed UWB monopole antenna

Daira,

Lashab,

Berkani

et al. 2023

Micro & Optical Tech Letters

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A Novel design of a curved single‐layered frequency selective surface with an 11 × 11 array of a 13 × 13 mm‐sized unit cell has been merged with a miniaturized, CPW‐fed ultra‐wideband monopole of dimensions (20 × 25 mm2) for gain enhancement. The suggested prototype, crafted on an FR‐4 dielectric substrate and demonstrates a very broad bandwidth starting from 2.66 to 17.98 GHz (148%), which covers the entire UWB frequency band. The combined antenna‐curved FSS reflector shows a very important gain improvement from 0.2–5.4 dB to 8.8–14.9 dB, having a peak gain increase of 10 dB at 10.6 GHz. Basic design features were studied and discussed through simulations, yielding promising results The proposed structure can be used in UWB and GPR applications.

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“…[8][9][10][11][12][13][14] This structural dependency of their properties offers potential for designing groundbreaking devices catering to various microwave and optical applications. [15][16][17][18][19][20][21][22][23][24][25] Among the various types of metamaterials, perfect metamaterial absorbers (PMAs) have attracted significant attention. [26][27][28] Recent research has broadened the scope of PMAs, culminating in the design of absorbers capable of functioning across diverse regions of the electromagnetic spectrum, including microwave, millimeter-waves, terahertz, and visible regimes.…”

Section: Introductionmentioning

confidence: 99%

“… – 14 This structural dependency of their properties offers potential for designing groundbreaking devices catering to various microwave and optical applications 15 – 25 …”

Section: Introductionmentioning

confidence: 99%

Liquid crystal-enabled tunability of Yagi-Uda antenna resonant properties

Yakovkin,

Reshetnyak

2023

J. Optical Microsystems

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We demonstrate the application of liquid crystals to modulate the resonance properties of Yagi-Uda metamaterial absorbers. The absorbance and reflectance peak frequencies and amplitudes were found to be adjustable by reorienting the liquid crystal, irrespective of the polarization of the incident light. Notably, the lowest resonant frequencies were observed when the liquid crystal was in the homeotropic orientation, whereas a reorientation toward the y -axis showed a significant frequency increase, up to 1 GHz. Incorporating liquid crystals to the Yagi-Uda antenna arrays can also serve as a method for eliminating undesired modes, not associated with the antenna resonance. This can be achieved by taking advantage of the sensitivity differences of these modes to refractive index components. The results presented in this study highlight the potential of liquid crystals to deliver dynamic manipulation and real-time adaptability of Yagi-Uda antennas.

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Metamaterials and Their Application in the Performance Enhancement of Reconfigurable Antennas: A Review

Cited by 37 publications

References 163 publications

Bandwidth and Gain Enhancement of a CPW Antenna Using Frequency Selective Surface for UWB Applications

Bandwidth and Gain Enhancement of a CPW Antenna Using Frequency Selective Surface for UWB Applications

A curved single‐layer FSS design for gain improvement of a compact size CPW‐fed UWB monopole antenna

Liquid crystal-enabled tunability of Yagi-Uda antenna resonant properties

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