INSTITUTIONAL DIGITAL REPOSITORY

Design of an ultra-thin hepta-band metamaterial absorber for sensing applications

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dc.contributor.author Jain, P.
dc.contributor.author Prakash, K.
dc.contributor.author Sardana, N.
dc.contributor.author Kumar, S.
dc.contributor.author Gupta, N.
dc.contributor.author Singh, A.K.
dc.date.accessioned 2022-11-22T15:46:37Z
dc.date.available 2022-11-22T15:46:37Z
dc.date.issued 2022-11-22
dc.identifier.uri http://localhost:8080/xmlui/handle/123456789/4223
dc.description.abstract An ultra-thin metamaterial absorber (MMA) comprises of a split-ring-cross (SRC)-shaped resonator coupled with graphene and dielectric layer backed by metallic ground plane is presented theoretically and numerically for hepta-band applications. The proposed absorber demonstrates multiple absorption peaks at 2.33, 5.24, 7.74, 8.25, 10.05, 10.97, and 12.61 THz with average absorption of more than 96%. The physical mechanism of the hepta-band absorption is analyzing by electric field distribution and attributed to the combination of dipolar and LC resonance. Furthermore, the effect of geometric parameters is analyzed to validate the optimal selection of the structural parameters. In addition, the proposed MMA is analyzed for different incident and polarization angles suggesting that absorption response is insensitive to polarization angles. Compared with the previously reported MMAs, the proposed design is ultra-thin (0.036λ) and compact (0.21λ) at the lowest operational frequency. The absorptivity at 12.61 THz is 99.81% and the corresponding quality (Q) factor is 31.52 for a bandwidth of 0.40 THz. The proposed absorber can be potentially utilized in detection, sensing, and imaging. Moreover, the sensing performance of the proposed MMA has been investigated using overlayer thickness and overlayer permittivity. en_US
dc.language.iso en_US en_US
dc.subject Graphene en_US
dc.subject Hepta-band en_US
dc.subject Metamaterial absorber en_US
dc.subject Overlayer en_US
dc.subject Polarization insensitive en_US
dc.subject Sensor en_US
dc.title Design of an ultra-thin hepta-band metamaterial absorber for sensing applications en_US
dc.type Article en_US


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