Study on the optimal design of frequency selective surfaces based on the discrete particle swarm optimization

Xu, Naiyuan; Gao, J S; Feng, Xin-ling

doi:10.7498/aps.63.138401

Acta Phys. Sin.

2014

DOI: 10.7498/aps.63.138401

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Study on the optimal design of frequency selective surfaces based on the discrete particle swarm optimization

Naiyuan Xu¹,

J S Gao²,

Xin-ling Feng³

Abstract: The requirements of frequency-selective surface (FSS) between high transparency in pass band and high reflectance in stop band are contradictory, when they have loaded medium on one side and receive a large range of illumination. In order to solve the contradiction, this paper employs a discrete particle swarm optimization approach (hereafter referred to as a DPSO). In order to seek a balanced FSS with high transparency in pass band and high reflectance in stop band, the periodic intervals and geometrical dime… Show more

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Design and study of frequency selective surface based on hybrid period metallic mesh

Zhang¹,

Jin-Song²,

Nian-Xi³

et al. 2015

Acta Phys. Sin.

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Frequency selective surface based on metallic mesh can realize the physical properties of both high infrared transmittance and millimeter-wave band-pass filter. In order to improve the optical transmittance, reduce surface resistance and suppress the effect of high order diffraction energy on the imaging quality of the optical system, a new design of frequency selective surface based on hybrid period metallic mesh is obtained. In this paper, the diffraction intensity distribution and surface current of frequency selective surface are analyzed based on metallic mesh. Simulation and experimental results show that frequency selective surface based on hybrid period metallic mesh realizes a stable millimeter-wave band-pass filter property, at the same time, it obtains 5% increase of infrared transmittance and 4 Ω reduce of surface resistance. New design of frequency selective surface based on hybrid period metallic mesh effectively suppresses the effect of high order diffraction energy on the imaging quality of the optical system.

show abstract

Design and study of frequency selective surface based on hybrid period metallic mesh

Zhang¹,

Jin-Song²,

Nian-Xi³

et al. 2015

Acta Phys. Sin.

View full text Add to dashboard Cite

show abstract

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Study on the optimal design of frequency selective surfaces based on the discrete particle swarm optimization

Cited by 1 publication

References 8 publications

Design and study of frequency selective surface based on hybrid period metallic mesh

Design and study of frequency selective surface based on hybrid period metallic mesh

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