Theoretical analysis and design of ultrathin broadband optically transparent microwave metamaterial absorbers

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Abstract

Optically Transparent Microwave Metamaterial Absorber (OTMMA) is of significant use in both civil and military field. In this paper, equivalent circuit model is adopted as springboard to navigate the design of OTMMA. The physical model and absorption mechanisms of ideal lightweight ultrathin OTMMA are comprehensively researched. Both the theoretical value of equivalent resistance and the quantitative relation between the equivalent inductance and equivalent capacitance are derived for design. Frequency-dependent characteristics of theoretical equivalent resistance are also investigated. Based on these theoretical works, an effective and controllable design approach is proposed. To validate the approach, a wideband OTMMA is designed, fabricated, analyzed and tested. The results reveal that high absorption more than 90% can be achieved in the whole 6~18 GHz band. The fabricated OTMMA also has an optical transparency up to 78% at 600 nm and is much thinner and lighter than its counterparts.

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Deng, R., Li, M., Muneer, B., Zhu, Q., Shi, Z., Song, L., & Zhang, T. (2018). Theoretical analysis and design of ultrathin broadband optically transparent microwave metamaterial absorbers. Materials, 11(1). https://doi.org/10.3390/ma11010107

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