2022
DOI: 10.1016/j.diamond.2022.108872
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High absorption and a tunable broadband absorption based on the fractal Technology of Infrared Metamaterial Broadband Absorber

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Cited by 15 publications
(12 citation statements)
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“…According to the number of subresonators in the top patterned layer or surface structure of MAs, there are three common planer design strategies, which are 1) single resonator design approach, [271,[339][340][341][342][343] 2) combined design strategy of multiple sub-resonators, [272,344,345] and 3) fractal design approach. [273,[346][347][348][349] Single resonator design approach means that the unit cell (UC) of the surface structure of BMAs contains only one (or single) patterned resonator. The combined design strategy of multiple sub-resonators indicates that the surface structure of BMAs possesses at least two or more sub-resonators.…”
Section: Planar Design Of Broadband Metamaterials Absorbersmentioning
confidence: 99%
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“…According to the number of subresonators in the top patterned layer or surface structure of MAs, there are three common planer design strategies, which are 1) single resonator design approach, [271,[339][340][341][342][343] 2) combined design strategy of multiple sub-resonators, [272,344,345] and 3) fractal design approach. [273,[346][347][348][349] Single resonator design approach means that the unit cell (UC) of the surface structure of BMAs contains only one (or single) patterned resonator. The combined design strategy of multiple sub-resonators indicates that the surface structure of BMAs possesses at least two or more sub-resonators.…”
Section: Planar Design Of Broadband Metamaterials Absorbersmentioning
confidence: 99%
“…Due to the self-similarity of the fractal structures, they typically show multiple resonance modes, and with the increase of fractal orders, the number of exciting resonance modes tends to increase; the combining effect of these induced modes in fractal resonators could produce broadband absorption, and thus the application of fractal designs to BMAs often results in excellent broadband absorption performance. [146,273,[346][347][348][349] More importantly, the concept of fractal designs for broadband absorption can also greatly enrich and expand the design ideas of BMAs. Therefore, as an important design branch of BMAs, the fractal design method has been continuously reported.…”
Section: Planar Design Of Broadband Metamaterials Absorbersmentioning
confidence: 99%
See 1 more Smart Citation
“…In recent years, more and more researchers have focused on achieving broadband absorption. [5][6][7][8] In 2012, Cui et al 9 designed an absorber that achieved more than 95% absorption in the infrared band. In 2013, Liang et al 10 designed a metamaterial absorber with a two-dimensional pyramid structure that achieved near-perfect absorption in the band of 1000-1400 nm.…”
Section: Introductionmentioning
confidence: 99%
“…T. Xie’s and Y. Liang’s designs adopted two more complex surface metal structures. The former achieved more than 90% absorption peaks in the two atmospheric windows, respectively [ 20 ], and the latter achieved 94.3% of the average absorption in the band of 12.3–32.0 μm [ 21 ]. Meta-surface structure arrays can precisely control the absorption spectrum range by adjusting the size and morphology of surface metal structures, which are suitable for different application scenarios.…”
Section: Introductionmentioning
confidence: 99%