Ultrathin absorber with tunable perfect absorption angle based on anisotropic ε-near-zero metamaterials

Shuomin Zhong,Yunlong Lu Yunlong Lu

doi:10.1109/imws-amp.2016.7588423

Ultrathin absorber with tunable perfect absorption angle based on anisotropic ε-near-zero metamaterials

Shuomin Zhong, Yunlong Lu Yunlong Lu

https://doi.org/10.1109/imws-amp.2016.7588423

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Publication Date: Jul 1, 2016

Citations: 15

Affiliation: Ningbo University

#Ultrathin Absorber #Ultrathin Microwave Absorber + Show 8 more

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Abstract

In this paper, an analytical solution shows that an ultrathin anisotropic e-near-zero (AENZ) metamaterial (MM) layer backed by a metallic substrate can perfectly absorb an incident plane wave at a critical angle. The perfect absorption angle can be controlled by changing the loss of the AENZ MMs. An ultrathin microwave absorber is designed using meander-line MMs with a thickness of only λ/29. By changing the conductivity of metal in the MMs, the perfect absorption angle can be tuned from 20° to 50° at 10.2GHz.

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