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Title: Design, fabrication, and testing of three-dimensional miniaturized rectangular cavity resonator based on metamaterial
Authors: Meng, F.-Y.
Wu, Q.
Liang, Y.
Zhang, K.
Li, L.-W. 
Keywords: Cavity
Issue Date: Oct-2009
Citation: Meng, F.-Y., Wu, Q., Liang, Y., Zhang, K., Li, L.-W. (2009-10). Design, fabrication, and testing of three-dimensional miniaturized rectangular cavity resonator based on metamaterial. IEEE Transactions on Magnetics 45 (10) : 4329-4332. ScholarBank@NUS Repository.
Abstract: In this paper, we have demonstrated that a three-dimensional (3-D) miniaturized rectangular cavity resonator (MRCR) with simultaneously shorten electric length and electric width can be designed, fabricated and tested through extending the analysis of the meta- material-based cavity resonator to the 3-D case. Resonance equation solutions of a rectangular cavity resonator filled with anisotropic metamaterials bilayer are explored. Results show that the resonance frequency of such a cavity resonator can be simultaneously independent on the cavity width and length when the transversal components of the permeability tensors of the filled metamaterials have opposite sign. Based on the results, a 3-D MRCR is designed, fabricated, and tested by using modified SRRs with negative transversal permeability. It is shown that the electrical length and width of the designed 3-D MRCR are simultaneously reduced to 0.2 much smaller than 0.5, which is the theoretical minimum of the electric length and width of a conventional rectangular cavity resonator. © 2009 IEEE.
Source Title: IEEE Transactions on Magnetics
ISSN: 00189464
DOI: 10.1109/TMAG.2009.2024425
Appears in Collections:Staff Publications

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