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W4224299713 abstract "Synthetic fractals have a large potential to achieve tunability and broadband serviceability for multimodal microwave devices owing to their scale-invariant property that generate strongly enhanced local fields with multiscale spatial distributions over multi-spectral ranges. Herein, we demonstrate a microwave metasurface absorber consist of periodic supercells of Fibonacci spiral capable of achieving highly efficient absorptions in a certain bandwidth and several discrete frequencies. Multiple absorption modes are achieved through the synergistic effect of multiple LC-resonances and cross-coupling of the patterned elements, and a broadband operation is completed by adjusting the thickness of dielectric layer based on interface interference theory. Experimental microwave average absorptivity over 82.9% (reflection loss, RL≤−7 dB) covering the 10.82–14.18 GHz region is obtained and the maximum absorptivity exceeds 99.8% with sub-wavelength thickness (0.039 λ0). These results demonstrate that the synthetic fractal metasurface can be a good candidate absorber for microwave applications like sensing, multiband detecting and filtering." @default.
W4224299713 created "2022-04-26" @default.
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W4224299713 date "2022-09-01" @default.
W4224299713 modified "2023-10-14" @default.
W4224299713 title "Tailoring the resonances on Fibonacci spiral fractal metasurface for miniaturized multi-band microwave applications" @default.
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W4224299713 doi "https://doi.org/10.1016/j.optcom.2022.128353" @default.
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