We propose ultrathin multiband metamaterial absorbers in the microwave frequencies in which the design, analysis, fabrication, and measurement of the absorbers working in multiple bands are presented. The metamaterial absorbers consist of a periodic arrangement of different scales of electric-field-coupled-LC (ELC) resonators and a metallic background plane, separated by only 1 mm dielectric spacer. By tuning the scale factor of the ELC unit cells, we achieve independently multiple absorptions at different customized frequencies. Experiments demonstrate excellent absorption rates in the designed frequency bands over wide angles of incident waves for both transverse electric and magnetic polarizations. The explanation to the physical mechanism of the multiband metamaterial absorber is presented and verified.
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1 July 2011
Research Article|
July 12 2011
Ultrathin multiband gigahertz metamaterial absorbers
Hui Li;
Hui Li
1State Key Laboratory of Millimeter Waves,
Department of Radio Engineering, Southeast University
, Nanjing 210096, China
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Li Hua Yuan;
Li Hua Yuan
1State Key Laboratory of Millimeter Waves,
Department of Radio Engineering, Southeast University
, Nanjing 210096, China
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Bin Zhou;
Bin Zhou
1State Key Laboratory of Millimeter Waves,
Department of Radio Engineering, Southeast University
, Nanjing 210096, China
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Xiao Peng Shen;
Xiao Peng Shen
1State Key Laboratory of Millimeter Waves,
Department of Radio Engineering, Southeast University
, Nanjing 210096, China
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Qiang Cheng;
Qiang Cheng
1State Key Laboratory of Millimeter Waves,
Department of Radio Engineering, Southeast University
, Nanjing 210096, China
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Tie Jun Cui
Tie Jun Cui
a)
1State Key Laboratory of Millimeter Waves,
Department of Radio Engineering, Southeast University
, Nanjing 210096, China
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a)
Electronic mail: [email protected].
J. Appl. Phys. 110, 014909 (2011)
Article history
Received:
February 10 2011
Accepted:
June 07 2011
Citation
Hui Li, Li Hua Yuan, Bin Zhou, Xiao Peng Shen, Qiang Cheng, Tie Jun Cui; Ultrathin multiband gigahertz metamaterial absorbers. J. Appl. Phys. 1 July 2011; 110 (1): 014909. https://doi.org/10.1063/1.3608246
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