Weiwei Wu scite author profile

A novel dual-polarization frequency selective rasorber with one transmission band and two absorbing bands is proposed in this paper. The structure is composed of a lossless frequency selective surface layer and a resistive layer. The resistive layer is a combination of split ring resonators and Jerusalem crosses. The frequency selective surface layer is a combination of grids and square rings. Split ring resonators are used to generate parallel resonances in this paper. When the parallel resonant frequency of the split ring resonators and that of the frequency selective surface layer are the same, a passband is obtained. Split ring resonators, Jerusalem crosses, and lumped resistors are used to create the absorbing bands. When surface current flows through two different paths on the split ring resonator, absorbing bands are obtained on each side of the passband. A frequency selective rasorber prototype is fabricated and measured to validate our design. The results show that the center frequency of the passband is 5.74 GHz, with an insertion loss of 0.25 dB. The lower and higher absorption bandwidths with absorption coefficient higher than 80% range from 1.92 to 3.73 GHz and from 7.41 to 9.34 GHz, respectively, and the reflection band with reflection coefficient less than −10 dB ranges from 1.96 to 9.32 GHz.

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A miniaturized Vivaldi antenna by loading with parasitic patch and lumped resistor

Huang

et al. 2017

AEU - International Journal of Electronics and Communications

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W-Band Bandpass Filter Using Rectangular Microcoaxial Structure

Huang

Jiang

et al. 2021

IEEE Microw. Wireless Compon. Lett.

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Weiwei Wu

Design of an Efficient X-Band Waveguide-Fed Microstrip Patch Array

An antipodal Vivaldi antenna with band-notched characteristics for ultra-wideband applications

Design Dual-Polarization Frequency Selective Rasorber Using Split Ring Resonators

A miniaturized Vivaldi antenna by loading with parasitic patch and lumped resistor

W-Band Bandpass Filter Using Rectangular Microcoaxial Structure

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