Review on Metamaterial Perfect Absorbers and Their Applications to IoT

Amiri, Majid; Tofigh, Farzad; Shariati, Negin; Lipman, Justin

doi:10.1109/jiot.2020.3025585

Cited by 63 publications

(43 citation statements)

References 194 publications

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“…Using advance design system (ADS) software, the lumped circuit of the proposed MMA has been illustrated in Fig. 8 5 . As designed, the MMA unit cell is shown in Fig.…”

Section: Results Analysismentioning

confidence: 99%

“…This feature results in a negative refractive index 3 . DNG property of metamaterial depends on its structure, which empowers it for different use like absorbers 4 , 5 , antennas, SAR (specific absorption ratio) 6 , filters 7 , waveguides 8 , invisible clocks 6 , mobile applications 9 , polarization converters 10 , lenses 11 , THz optical applications 12 – 14 and different types of sensor 5 , 15 – 17 . After the first successful ascertainment of metamaterial absorber (MMA) properties, numerous studies are ongoing to design MMA for several applications like GPS positioning application 18 , noise reduction by improving MIMO antenna isolation 19 , reduction of radar cross-section 20 , stealth technology for military use 21 , underwater sound absorption 22 , cryptography 23 , thermal and wavelength selectable microbolometers 24 , cancer cell detection or biosensing 16 , 25 , 26 , imaging 27 , 28 and detection for explosive materials 29 .…”

Section: Introductionmentioning

confidence: 99%

“…The conductive material patch and ground plane are placed on the opposite side of the dialectic substrate, and the substrate generates coupling capacitance between ground and patch. Double-layer 30 and multilayer 5 , 22 models are also used for MMA design. To achieve a good encirclement of EM wave, the symmetrical structure is used for high absorption and distribution of surface current 31 .…”

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Polarization insensitive symmetrical structured double negative (DNG) metamaterial absorber for Ku-band sensing applications

Hakim

Alam

Soliman

et al. 2022

Sci Rep

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Metamaterial absorber (MMA) is now attracting significant interest due to its attractive applications, such as thermal detection, sound absorption, detection for explosive, military radar, wavelength detector, underwater sound absorption, and various sensor applications that are the vital part of the internet of things. This article proposes a modified square split ring resonator MMA for Ku-band sensing application, where the metamaterial structure is designed on FR-4 substrate material with a dielectric constant of 4.3 and loss tangent of 0.025. Perfect absorption is realized at 14.62 GHz and 16.30 GHz frequency bands, where peak absorption is about 99.99% for both frequency bands. The proposed structure shows 70% of the average absorption bandwidth of 420 MHz (14.42–14.84 GHz) and 480 MHz (16.06–16.54 GHz). The metamaterial property of the proposed structure is investigated for transverse electromagnetic mode (TEM) and achieved negative permittivity, permeability, and refractive index property for each absorption frequency band at 0°, 45°, and 90° polarization angles. Interference theory is also investigated to verify the absorption properties. Moreover, the permittivity sensor application is investigated to verify the sensor performance of the proposed structure. Finally, a comparison with recent works is performed, which shows that the proposed MMA can be a good candidate for Ku-band perfect absorber and sensing applications.

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“…Using advance design system (ADS) software, the lumped circuit of the proposed MMA has been illustrated in Fig. 8 5 . As designed, the MMA unit cell is shown in Fig.…”

Section: Results Analysismentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Polarization insensitive symmetrical structured double negative (DNG) metamaterial absorber for Ku-band sensing applications

Hakim

Alam

Soliman

et al. 2022

Sci Rep

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show abstract

“…[ 12 ] The hyperbolic behavior of materials is particularly relevant in the visible range for application such as superlenses, [ 13 ] cloaking, [ 14 ] sub‐wavelength imaging, [ 15,16 ] and perfect‐absorbers for IoT. [ 17 ] In addition, the potential for highly directional propagation of electromagnetic modes localized at subwavelength scales, for example, volume plasmon polaritons, [ 18,19 ] opens a new route into several nanophotonic applications as fluorescence engineering, [ 20 ] super‐Planckian thermal emission, [ 21 ] subsurface sensing, [ 22 ] cryptography, [ 23 ] and Dyakonov plasmons. [ 24 ]…”

Section: Introductionmentioning

confidence: 99%

“…[12] The hyperbolic behavior of materials is particularly relevant in the visible range for application such as superlenses, [13] cloaking, [14] sub-wavelength imaging, [15,16] and perfect-absorbers for IoT. [17] In addition, the potential for highly directional propagation of electromagnetic modes localized at subwavelength scales, for example, volume plasmon polaritons, [18,19] opens a new route into several nanophotonic applications as fluorescence engineering, [20] super-Planckian thermal emission, [21] subsurface sensing, [22] cryptography, [23] and Dyakonov plasmons. [24] The outstanding optical value of HMMs for applications cannot be disentangled by their mechanical properties, especially when the devices are expected to perform at extreme conditions such as high temperature, high pressure, under large tensile strain, and so on.…”

mentioning

confidence: 99%

Hyperbolic Metamaterials with Extreme Mechanical Hardness

Calzolari

Catellani

Nardelli

et al. 2021

Advanced Optical Materials

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Hyperbolic metamaterials (HMMs) are highly anisotropic optical materials that behave as metals or as dielectrics depending on the direction of propagation of light. They are becoming essential for a plethora of applications, ranging from aerospace to automotive, from wireless to medical and IoT. These applications often work in harsh environments or may sustain remarkable external stresses. This calls for materials that show enhanced optical properties as well as tailorable mechanical properties. Depending on their specific use, both hard and ultrasoft materials can be required, although the combination with optical hyperbolic response is rarely addressed. Here, the possibility to combine optical hyperbolicity and tunable mechanical properties in the same (meta)material is demonstrated, focusing on the case of extreme mechanical hardness. Using high‐throughput calculations from first principles and effective medium theory, a large class of layered materials with hyperbolic optical activity in the near‐IR and visible range is explored, and a reduced number of ultrasoft and hard HMMs is identified among more than 1800 combinations of transition metal rocksalt crystals. Once validated by the experiments, this new class of metamaterials may foster previously unexplored optical/mechanical applications.

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Review of Broadband Metamaterial Absorbers: From Principles, Design Strategies, and Tunable Properties to Functional Applications

Wang

Duan

et al. 2023

Adv Funct Materials

111

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Metamaterial absorbers have been widely studied and continuously concerned owing to their excellent resonance features of ultra-thin thickness, light-weight, and high absorbance. Their applications, however, are typically restricted by the intrinsic dispersion of materials and strong resonant features of patterned arrays (mainly referring to narrow absorption bandwidth). It is, therefore essential to reassert the principles of building broadband metamaterial absorbers (BMAs). Herein, the research progress of BMAs from principles, design strategies, tunable properties to functional applications are comprehensively and deeply summarized. Physical principles behind broadband absorption are briefly discussed, typical design strategies in realizing broadband absorption are further emphasized, such as top-down lithography, bottom-up self-assembly, and emerging 3D printing technology. Diversified active components choices, including optical response, temperature response, electrical response, magnetic response, mechanical response, and multi-parameter responses, are reviewed in achieving dynamically tuned broadband absorption. Following this, the achievements of various interdisciplinary applications for BMAs in energy-harvesting, photodetectors, radar-IR dual stealth, bolometers, noise absorbing, imaging, and fabric wearable are summarized. Finally, the challenges and perspectives for future development of BMAs are discussed.

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Review on Metamaterial Perfect Absorbers and Their Applications to IoT

Cited by 63 publications

References 194 publications

Polarization insensitive symmetrical structured double negative (DNG) metamaterial absorber for Ku-band sensing applications

Polarization insensitive symmetrical structured double negative (DNG) metamaterial absorber for Ku-band sensing applications

Hyperbolic Metamaterials with Extreme Mechanical Hardness

Review of Broadband Metamaterial Absorbers: From Principles, Design Strategies, and Tunable Properties to Functional Applications

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