B
Bae-Ian Wu
Researcher at Massachusetts Institute of Technology
Publications - 112
Citations - 7189
Bae-Ian Wu is an academic researcher from Massachusetts Institute of Technology. The author has contributed to research in topics: Metamaterial & Cloak. The author has an hindex of 41, co-authored 110 publications receiving 6757 citations. Previous affiliations of Bae-Ian Wu include Zhejiang University.
Papers
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Robust method to retrieve the constitutive effective parameters of metamaterials.
TL;DR: In this article, an improved method to retrieve the effective constitutive parameters (permittivity and permeability) of a slab of metamaterial from the measurement of S parameters is proposed.
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Electromagnetic Wave Interactions with a Metamaterial Cloak
TL;DR: Analytically the interactions of electromagnetic wave with a general class of spherical cloaks based on a full wave Mie scattering model is established and it is shown that for an ideal cloak the total scattering cross section is absolutely zero, but for a cloak with a specific type of loss, only the backscattering is exactly zero.
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A Study of Using Metamaterials as Antenna Substrate to Enhance Gain
TL;DR: In this article, simulations are done on the radiation of a dipole antenna embedded in metamaterial substrates, which are composed of a periodic collection of rods, or of both rods and rings.
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Retrieval of the effective constitutive parameters of bianisotropic metamaterials.
TL;DR: The method is verified both analytically and numerically, and it is shown that the results for various split-ring resonator metamaterials qualitatively corroborate the conclusions found in published papers.
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Experimental verification of reversed Cherenkov radiation in left-handed metamaterial.
Sheng Xi,Sheng Xi,Hongsheng Chen,Hongsheng Chen,Tao Jiang,Lixin Ran,Jiangtao Huangfu,Bae-Ian Wu,Bae-Ian Wu,Jin Au Kong,Jin Au Kong,Min Chen +11 more
TL;DR: By using a phased electromagnetic dipole array to model a moving charged particle, the authors experimentally verified a reversed Cherenkov radiation in the left-handed media in the frequency range from 8.1 to 9.5 GHz.