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Novel quadruple-band microwave metamaterial absorber
Wang, Nan1,2; Tong, Junmin4; Zhou, Weicheng1,3; Jiang, Wei; Li, Jinlong; Dong, Xiaochun; Hu, Song
Source PublicationIEEE Photonics Journal
Volume7Issue:1Pages:7029014
2015
Language英语
ISSN1943-0655
DOI10.1109/JPHOT.2015.2399356
Indexed BySCI ; Ei
WOS IDWOS:000349678100037
Subtype期刊论文
AbstractIn this paper, we report the design, analysis, and simulation of a novel quadruple-band metamaterial absorber at microwave frequencies. The absorber is composed of delicate periodic patterned structures and a metallic background plane, which are separated by a dielectric substrate. By manipulating the periodic patterned structures, nearly perfect absorption can be obtained at four specific resonance frequencies. Moreover, the significantly high absorptions of quadruple peaks are insensitive to polarization independence, and the influence of the incident angle on the absorption for both TE and TM modes was also analyzed. To explain the absorption mechanism of the suggested structures, the electric and magnetic field distributions and the resistance matching principle were given. Importantly, the design idea has the ability to be extended to other frequencies, such as terahertz, infrared, and optical frequencies. © 2009-2012 IEEE.; In this paper, we report the design, analysis, and simulation of a novel quadruple-band metamaterial absorber at microwave frequencies. The absorber is composed of delicate periodic patterned structures and a metallic background plane, which are separated by a dielectric substrate. By manipulating the periodic patterned structures, nearly perfect absorption can be obtained at four specific resonance frequencies. Moreover, the significantly high absorptions of quadruple peaks are insensitive to polarization independence, and the influence of the incident angle on the absorption for both TE and TM modes was also analyzed. To explain the absorption mechanism of the suggested structures, the electric and magnetic field distributions and the resistance matching principle were given. Importantly, the design idea has the ability to be extended to other frequencies, such as terahertz, infrared, and optical frequencies. © 2009-2012 IEEE.
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Cited Times:1[WOS]   [WOS Record]     [Related Records in WOS]
Document Type期刊论文
Identifierhttp://ir.ioe.ac.cn/handle/181551/7335
Collection微电子装备总体研究室(四室)
Corresponding AuthorDong, Xiaochun
Affiliation1. Institute of Optics and Electronics, Chinese Academy of Sciences, Chengdu, China
2. University of Chinese Academy of Sciences, Beijing, China
3. School of Optoelectronic Information, University of Electronic Science and Technology of China, Chengdu, China
4. Xuchang Vocational and Technical College, Xuchang, China
Recommended Citation
GB/T 7714
Wang, Nan,Tong, Junmin,Zhou, Weicheng,et al. Novel quadruple-band microwave metamaterial absorber[J]. IEEE Photonics Journal,2015,7(1):7029014.
APA Wang, Nan.,Tong, Junmin.,Zhou, Weicheng.,Jiang, Wei.,Li, Jinlong.,...&Hu, Song.(2015).Novel quadruple-band microwave metamaterial absorber.IEEE Photonics Journal,7(1),7029014.
MLA Wang, Nan,et al."Novel quadruple-band microwave metamaterial absorber".IEEE Photonics Journal 7.1(2015):7029014.
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