From Flexible and Stretchable Meta-Atom to Metamaterial: A Wearable Microwave Meta-Skin with Tunable Frequency Selective and Cloaking Effects

Yang, Siming; Liu, Peng; Yang, Mingda; Wang, Qiugu; Song, Jiming; Dong, Liang

doi:10.1038/srep21921

Cited by 107 publications

(57 citation statements)

References 51 publications

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“…In 2015, Alam et al suggested an 8 × 8-mm 2 "hexagonal" DNG metamaterial, where the bandwidth was 1.75 GHz (from 1.68-3.43 GHz) and 0.96 GHz (from 5.04-6.0 GHz) [4]. In 2016, Yang et al demonstrated a "ring-shaped" 5 × 5-mm 2 meta-atom for wearable, flexible and stretchable microwave meta-skin, with clocking effects from 8-13 GHz and an effective medium ratio of six [5]. In 2016, Du et al presented a left-handed metamaterial created by the combination of ferrite sheets and dielectric rods to investigate the electromagnetic properties for X-band applications [20].…”

Section: Introductionmentioning

confidence: 99%

“…The dimensions of the designed meta-atom are 10 × 10 mm 2 , which is compact in size according to the effective medium ratio and comparison with [5,17,19,[21][22][23]. The proposed meta-atom unit cell and arrays also exhibit more frequency bands with a wider bandwidth than [1, 4,5,16,17,[19][20][21][22][23]. Moreover, the proposed meta-atom is used for enhancing the antenna bandwidth, number of frequency bands and gain because the number of frequency bands, bandwidth and gain of the antenna can be improved by using the partial or slotted or fractal or meta-atom integrated ground plane.…”

Section: Introductionmentioning

confidence: 99%

“…Benefiting from these novel properties, meta-atoms have produced many exotic effects in several applications, such as negative permeability, sub-wavelength imaging super-lens, electromagnetic absorbers [1], negative refraction [2], filter design [3], antenna performance enhancing, SAR reduction [4] and invisible cloaking [5]. The development of the meta-atoms utilizes the intrinsic loss of the system, with the help of structural design, to obtain a wide bandwidth or sharp resonance at a certain frequency.…”

Section: Introductionmentioning

confidence: 99%

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Compact Left-Handed Meta-Atom for S-, C- and Ku-Band Application

2017

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Abstract:A new compact left-handed meta-atom for S-, C-and Ku-band applications is presented in this paper. The proposed structure provides a wide bandwidth and exhibits left-handed characteristics at 0 • , 90 • , 180 • and 270 • (xy-axes) rotations. Besides, the left-handed characteristics and wide bandwidth of 1 × 2, 2 × 2, 3 × 3 and 4 × 4 arrays are also investigated at the above-mentioned rotation angles. In this study, the meta-atom is designed by creating splits at the outer and inner square-shaped ring resonators, and a metal arm is placed at the middle of the inner ring resonator. The arm is also connected to the upper and lower portions of the inner ring resonator, and later, the design appears as an I-shaped split ring resonator. The commercially available, finite integration technique (FIT)-based electromagnetic simulator CST Microwave Studio is used for design and simulation purposes. The measured data comply well with the simulated data of the unit cell for 1 × 2, 2 × 2, 3 × 3 and 4 × 4 arrays at every rotation angle. Owing to the effective medium ratio (EMR) of 8.50 at 0 • and 180 • rotations, the proposed meta-atom structure is compact in size. Moreover, due to the quality factor of 82, the designed meta-atom is flexible for high-performance antenna, filter and sensor applications. Therefore, the meta-atom integrated antenna shows multi frequency bands with the highest peak gain of 5 dBi, which is used as the long distance radio communication frequency.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Compact Left-Handed Meta-Atom for S-, C- and Ku-Band Application

2017

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“…From Table 8, the bandwidth of the designed meta atom is 3.70 GHz, which is almost threefold of that in [8]. However, the bandwidth has increased by almost 12.16%, 61.89%, 28.38%, and 58.64% of those in [9], [10], [11], and [12], respectively. …”

Section: Parametric Studies Analysismentioning

confidence: 97%

“…the bandwidths cover 3.70 GHz and 2.22 GHz, respectively. The proposed meta-atom unit cell shows a larger bandwidth than the reference prototypes [8][9][10][11][12] and exhibits double negative characteristics of the resonance frequency. Besides, here a parametric study has been performed to demonstrate the effects of inductance and capacitance on resonance frequencies.…”

mentioning

confidence: 99%

Parametric studies on split S-shaped composite meta atom for X-band communication

Hasan

Faruque

Islam

2017

Bulletin of the Polish Academy of Sciences Technical Sciences

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Abstract. The aim of this paper is to describe a split S-shaped composite meta atom which shows double negative characteristics at resonance frequency. The proposed meta-atom structure exhibits an almost 3.70 GHz bandwidth when the operating frequency from 8 to 14 GHz (X-band). In this study, the ring width, split width, size of substrate material, and the substrate material itself are varying to investigate their effect on the resonance frequencies. Metal strips of the outer resonator are the splits and the inner ring resonator is designed in a way that it forms a split S-shaped structure on the epoxy resin fibre (FR-4) substrate material. The CST Microwave Studio electromagnetic simulator software was used for the design and simulation purposes, and an Agilent N5227A vector network analyser was used for practical measurements.Key words: Capacitance, DNG, inductance, meta atom.Parametric studies on split S-shaped composite meta atom for X-band communication Mallik et al. in 2013 [7]. Moreover, a "Z-shaped" meta atom working only in a single band with a single negative property was introduced by Dhouibi et al. in 2012 [8]. A "V-shaped" metamaterial structure, displaying a 450 MHz bandwidth from 8.05 to 8.50 GHz, was presented by Ekmekci et al. in 2007 [9]. Later, an "S-shaped", 15£15 mm chiral metamaterial for X and Ku bands, yet with the effective medium ratio less than 4, was designed by Zhimou et al. in 2015 [10]. Furthermore, a "Π-shaped" metamaterial applicable for X-band, whose dimensions were 10£10 mm and the effective medium ratio was less than 4, was exhibited by Islam et al. in 2015 [5]. However, a "ring-shaped" meta atom for wearable microwave meta-skin and cloaking effects with a range from 8.0 to 10 GHz was suggested by Yang et al. in 2016 [11]. A modified double negative "Z-shaped" metamaterial was developed for wideband operations, but the bandwidth was 2.17 GHz (from 7.87 to 10.04 GHz). This metamaterial structure, compact in size and applicable for C-and X-band applications, was proposed by Hasan et al. in 2016 [12].In this paper, the designed meta-atom structure is comprised of a split S-shaped ring resonator with an outer square-shaped ring resonator made out of copper. The proposed unit cell exhibits resonances at X-band with negative refractive index from 8.0 to 11.70 GHz and 11.78 to 14.0 GHz, i.e. the bandwidths cover 3.70 GHz and 2.22 GHz, respectively. The proposed meta-atom unit cell shows a larger bandwidth than the reference prototypes [8][9][10][11][12] and exhibits double negative characteristics of the resonance frequency. Besides, here a parametric study has been performed to demonstrate the effects of inductance and capacitance on resonance frequencies. By increasing the length or width of the metal strip, the inductive effect is raised and the LC resonance frequency is decreased. Consequently, the splits are creating capacitance, but with an increase of split width sequentially, the capacitive effect is reducd and the LC

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Antenna Miniaturization for IoT Applications

Vijay¹,

Chauhan

2021

Next‐Generation Antennas

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From Flexible and Stretchable Meta-Atom to Metamaterial: A Wearable Microwave Meta-Skin with Tunable Frequency Selective and Cloaking Effects

Cited by 107 publications

References 51 publications

Compact Left-Handed Meta-Atom for S-, C- and Ku-Band Application

Compact Left-Handed Meta-Atom for S-, C- and Ku-Band Application

Parametric studies on split S-shaped composite meta atom for X-band communication

Antenna Miniaturization for IoT Applications

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