Miniaturized ultra-thin metamaterial absorber for low frequency using the technique of shifted opposite layers

Fu, Bin; Wan, Guobin; Ma, Xiaoqian; Chen, Yu-Xu; Jiao, Xin‐Hui; Wang, Lu

doi:10.1063/5.0107570

Cited by 4 publications

(1 citation statement)

References 29 publications

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“…Nowadays, microwave absorbers (MAs) are widely used in the areas of electromagnetic compatibility (EMC), electromagnetic interference (EMI), radio frequency identification (RFID), and military stealth technology. [1][2][3] Belonging to resonant structures, the typical MAs suffer from the drawbacks of large thickness and narrow bandwidth. 4,5 Therefore, stratified MAs emerge to broaden the absorbing bandwidth such as Jaunman absorbers but at the cost of larger thickness.…”

Section: Introductionmentioning

confidence: 99%

A novel mapping approach to design FSS‐based microwave absorbers for relaxed manufacturing tolerances

Wan

et al. 2023

Micro & Optical Tech Letters

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A novel mapping approach is proposed to relax the manufacturing tolerances of FSS‐based microwave absorbers (MAs). A general reverse formulation for multilayered FSS‐based MAs is first deduced, and then the design objective of reflection coefficient |Γ| is mapped to a solution region of FSS's surface impedance Zs. Together with HFSS, the base FSS configuration with maximum acceptable tolerance can be identified through optimization, where target parameters have the widest variations with Zs located in the solution regions. Compared with the conventional overdesign‐before‐verification strategy for tolerances, the proposed approach explicitly visualizes the design solutions and achieves the maximum acceptable tolerances without an empirical trial‐and‐error process. Finally, aiming at the standard manufacturing tolerance of sheet resistance R□, the proposed approach is experimentally verified by a wideband absorber designed with a maximum R□ tolerance of ±21.4%. The measured result shows that the structure can easily fulfill the objective under the standard ±20% R□ tolerance.

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Section: Introductionmentioning

confidence: 99%

A novel mapping approach to design FSS‐based microwave absorbers for relaxed manufacturing tolerances

Wan

et al. 2023

Micro & Optical Tech Letters

Self Cite

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A 2.5-D miniaturized metamaterial absorber with minimal frequency deviation at large incident angles for both TE and TM modes at low frequency

Wan

et al. 2023

Optics Communications

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Low-frequency magnetic microwave absorber using reactive ground for extended bandwidth

Wan

et al. 2023

Journal of Applied Physics

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A design method to extend the operating bandwidth of a low-frequency magnetic microwave absorber is presented. According to the mapped impedance distribution from the design objective, a synthesized reactive ground consisting of a triple-ring array, instead of the perfect electric conductor (PEC), is conveniently placed at the back of a commercially available magnetic sheet to realize impedance matching. Compared with the conventional PEC, the reactive ground extends the operating bandwidth of reflection coefficient being less than −10 dB by introducing four consecutive absorption peaks so that the optimized structure achieves broadband absorption from 2.3 to 4.3 GHz with a thickness of 0.027 times the free-space wavelength at the lowest operating frequency and a 60.6% fractional bandwidth which is nearly two times that of the conventional structure. The physical mechanism is further investigated through the distributions of current flow and power loss. Finally, a prototype is fabricated and measured. The good agreement between the simulated and measured results verifies the effectiveness of the presented design method.

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Miniaturized ultra-thin metamaterial absorber for low frequency using the technique of shifted opposite layers

Cited by 4 publications

References 29 publications

A novel mapping approach to design FSS‐based microwave absorbers for relaxed manufacturing tolerances

A novel mapping approach to design FSS‐based microwave absorbers for relaxed manufacturing tolerances

A 2.5-D miniaturized metamaterial absorber with minimal frequency deviation at large incident angles for both TE and TM modes at low frequency

Low-frequency magnetic microwave absorber using reactive ground for extended bandwidth

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