Abstract
In this report, we introduce a stable metamaterial perfect absorber at GHz frequency based on a novel design of a Mie-type resonance. A single perfect absorption peak is achieved at 9.54 GHz, and the influence of the structural parameters on the absorption behavior is studied; the results were consistent with dielectric-resonator theory. The absorption is demonstrated to be polarizationinsensitive; furthermore, the absorber structure can work for a wide incident angle without any change in the resonance peak. Our absorber structure can also control 47% of the resonance peak’s position by changing the temperature of the dielectric layer. Our absorber structure can also be applied as an electromagnetic-wave absorber for wide-incident-angle, thermally-controllable devices.
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Dung, N.V., Tung, B.S., Khuyen, B.X. et al. Metamaterial perfect absorber using the magnetic resonance of dielectric inclusions. Journal of the Korean Physical Society 68, 1008–1013 (2016). https://doi.org/10.3938/jkps.68.1008
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DOI: https://doi.org/10.3938/jkps.68.1008