Graphene based metasurface with near unity broadband absorption in the terahertz gap

Ghosh, Sambit Kumar; Das, Santanu; Bhattacharyya, Somak

doi:10.1002/mmce.22436

Cited by 40 publications

(16 citation statements)

References 60 publications

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“…14 Ghosh et al presented a near-unity graphene metamaterial-based absorber in THz-gap with nearperfect absorption in 9.74 THz bandwidth with possible applications in next-gen 5G communication devices. 15 Sharma and coauthors presented magnetically tunable metasurface consisting of InSb-patched, InAs-patched, and unpatched pixels with an average tuning rate of 0.3 THz T −1 . 16 We presented a sensor to detect glucose levels in human blood so that the severity of diabetic patients can be determined.…”

Section: Introductionmentioning

confidence: 99%

“…Abdulkarim et al reported a square‐shaped water metamaterial‐based perfect solar absorber in a microwave regime with ultra‐broadband absorption response and with possible applications in the energy harvesting field 14 . Ghosh et al presented a near‐unity graphene metamaterial‐based absorber in THz‐gap with near‐perfect absorption in 9.74 THz bandwidth with possible applications in next‐gen 5G communication devices 15 . Sharma and coauthors presented magnetically tunable metasurface consisting of InSb‐patched, InAs‐patched, and unpatched pixels with an average tuning rate of 0.3 THz T −1 16 …”

Section: Introductionmentioning

confidence: 99%

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Metamaterial‐based refractive index sensor using Ge₂Sb₂Te₅ substrate for glucose detection

Patel

Parmar

Surve

et al. 2022

Micro & Optical Tech Letters

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This study aims to design a metamaterial sensor to detect glucose levels in the human body so that the severity of diabetic patients can be determined.The biomolecules are placed over gold metamaterial to observe the behavior of the sensor. The proposed model is analyzed for both phases of GST (amorphous GST [aGST] phase and crystalline GST [cGST] phase). The design is analyzed for parameters like absorption, angle of incidence of light, the concentration of glucose biomolecules, substrate, tuning of the wavelength spectrum, and resonator thickness. The sensor with cGST provides better performance. Observing angle of incidence, 95% absorption is noticed with 48-60°radians for wavelength range 0.85-0.98 μm and with 42-69°radians for wavelength range 0.85-0.98 μm. The analysis depicts that the proposed phase change material-based biosensor in general and with cGST, in particular, is suitable for glucose detection in the blood of diabetic patients.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Metamaterial‐based refractive index sensor using Ge₂Sb₂Te₅ substrate for glucose detection

Patel

Parmar

Surve

et al. 2022

Micro & Optical Tech Letters

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“…Frequency selective surface (FSS) is widely used in wireless and satellite communication as a periodic surface that can transmit or reflect the electromagnetic (EM) signal. 1 FSS founds different applications as microwave absorber, 2,3 radar cross section reduction, 4 antenna radome, 5 polarization converter, 6 sub reflector in cassegrain horn, 7 EM cloaking, 8 and as antenna superstrate for directivity enhancement. 9 Recently, circular array radiation theory is applied to represent the scattered field from a conducting cylindrical surface and the theory is extended for concentric array geometry to realize active cloaking at microwave frequency.…”

Section: Introductionmentioning

confidence: 99%

Miniaturized dual stop band frequency selective surface with broadband linear co to cross polarization conversion ability

Dey

Koul

2021

Int J RF Microw Comput Aided Eng

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This work presents a miniaturized angularly stable frequency selective surface (FSS) on a single layer substrate. Unit cell comprises of convoluted circular rings connected cross dipole and linear arrow headed dipole printed on both sides of the substrate. A closely spaced dual stop band resonances are obtained at 10 and 14.3 GHz with frequency ratio of 1.43. FSS shows a À 10 dB stopband bandwidth (BW) from 7.32 to 11.05 GHz (40.61%) and 12.68 to 15.97 GHz (22.97%) with >30 dB stop band rejection at center frequencies. FSS poses the features of stable performance under change in polarization and angularly stable response up to 60 incident angle. Later the proposed FSS is printed on grounded thick dielectric substrate and it shows broadband reflection type co to cross polarization conversion from 7.2 to 17.32 GHz (82.54%) with polarization conversion ratio >80% and oblique angle stability up to 35 . To the best of authors' knowledge, this is the first time in literature a single unit cell geometry with two different properties, spatial filtering on transmission and polarization conversion on reflection have been designed and analyzed in details. A finite array with size 25 Â 25 of the proposed FSS is fabricated and the measured filter response shows a good agreement with simulated performance at normal and oblique incidences. The proposed FSS is used as a reflector of a dual band monopole antenna and the simulation results shows gain improvement of 5.51 and 3.8 dB at the two stopband frequencies.

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“…In the terahertz frequency band, graphene-based metasurface design is suitable for antennas and absorbers. [3][4][5] In theory, the properties of new graphene can evole into the properties of bulk graphite in less than 10 layers. 6 In this paper, multilayer graphene specimen was prepare from bulk graphene crystals by mechanical exfoliation method.…”

Section: Introductionmentioning

confidence: 99%

Multilayer graphene fundamental wave mixer under DC voltage bias

Cui

Zhong

Fang

et al. 2021

Int J RF Mic Comp-Aid Eng

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In this paper, a multilayer graphene mixer with inductor-capacitor resonators (LCR) and microstrip reflector stubs (MRS) loaded with direct-current (DC) voltage bias is presented. As a multifunctional material, multilayer graphene is especially suitable for mixer because of its nonlinearity. The experimental and simulation results show that the effect of bias voltage on multilayer graphene is significant. When the bias voltage is applied, the mixer is converted from subharmonic mixer to fundamental wave mixer. The measured minimum conversion loss with DC-load fundamental wave mixer is 18.9 dB at P LO = 16 dBm, f LO = 800 MHz, p RF = 0 dBm, f RF = 2 GHz which is about 1.2 dB lower than that DC-free subharmonic mixer. In addition, the nonlinear model of graphene is established by simplifying the approximate conductivity.

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Graphene based metasurface with near unity broadband absorption in the terahertz gap

Cited by 40 publications

References 60 publications

Metamaterial‐based refractive index sensor using Ge₂Sb₂Te₅ substrate for glucose detection

Metamaterial‐based refractive index sensor using Ge₂Sb₂Te₅ substrate for glucose detection

Miniaturized dual stop band frequency selective surface with broadband linear co to cross polarization conversion ability

Multilayer graphene fundamental wave mixer under DC voltage bias

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Graphene based metasurface with near unity broadband absorption in the terahertz gap

Cited by 40 publications

References 60 publications

Metamaterial‐based refractive index sensor using Ge2Sb2Te5 substrate for glucose detection

Metamaterial‐based refractive index sensor using Ge2Sb2Te5 substrate for glucose detection

Miniaturized dual stop band frequency selective surface with broadband linear co to cross polarization conversion ability

Multilayer graphene fundamental wave mixer under DC voltage bias

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Product

Resources

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Metamaterial‐based refractive index sensor using Ge₂Sb₂Te₅ substrate for glucose detection

Metamaterial‐based refractive index sensor using Ge₂Sb₂Te₅ substrate for glucose detection