Narrowband frequency selective surface based on substrate integrated waveguide technology

H. Zhou; S. Qu; Z. Pei; J. Zhang; B. Lin; J. Wang; H. Ma; C. Gu; Z. Xu; P. Bai; W. Peng

doi:10.2528/PIERL11022005

Narrowband frequency selective surface based on substrate integrated waveguide technology

H. Zhou
, S. Qu
, Z. Pei
, J. Zhang
, B. Lin
, J. Wang
, H. Ma
, C. Gu
, Z. Xu
, P. Bai
, W. Peng

Faculty of Electronic and Information Engineering

Air Force Engineering University Xian

Research output: Contribution to journal › Article › peer-review

9 Scopus citations

Abstract

In this paper, a novel narrowband frequency selective surface (FSS) with a stable performance based on substrate integrated waveguide technology is presented. The unit cell of the FSS consists of a double-sided metalized substrate with a circular hole and a SIW circular cavity. In this way, incident EM waves enter the circular cavity and excite a TM110 cavity resonance, leading to a narrow pass-band. The high-Q property of the TM110 cavity resonance provides a very good wide-angle and polarization-independent stability. Both the simulation and experimental results show that such narrowband FSS owes its advantages to high selectivity, low profile stable performance with various incident angles and different polarizations, which is suitable for impulse detections, narrow-band communications, electronic countermeasures, etc.

Original language	English
Pages (from-to)	19-28
Number of pages	10
Journal	Progress in Electromagnetics Research Letters
Volume	22
DOIs	https://doi.org/10.2528/PIERL11022005
State	Published - 2011

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title = "Narrowband frequency selective surface based on substrate integrated waveguide technology",

abstract = "In this paper, a novel narrowband frequency selective surface (FSS) with a stable performance based on substrate integrated waveguide technology is presented. The unit cell of the FSS consists of a double-sided metalized substrate with a circular hole and a SIW circular cavity. In this way, incident EM waves enter the circular cavity and excite a TM110 cavity resonance, leading to a narrow pass-band. The high-Q property of the TM110 cavity resonance provides a very good wide-angle and polarization-independent stability. Both the simulation and experimental results show that such narrowband FSS owes its advantages to high selectivity, low profile stable performance with various incident angles and different polarizations, which is suitable for impulse detections, narrow-band communications, electronic countermeasures, etc.",

author = "H. Zhou and S. Qu and Z. Pei and J. Zhang and B. Lin and J. Wang and H. Ma and C. Gu and Z. Xu and P. Bai and W. Peng",

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T1 - Narrowband frequency selective surface based on substrate integrated waveguide technology

AU - Zhou, H.

AU - Qu, S.

AU - Pei, Z.

AU - Zhang, J.

AU - Lin, B.

AU - Wang, J.

AU - Ma, H.

AU - Gu, C.

AU - Xu, Z.

AU - Bai, P.

AU - Peng, W.

PY - 2011

Y1 - 2011

N2 - In this paper, a novel narrowband frequency selective surface (FSS) with a stable performance based on substrate integrated waveguide technology is presented. The unit cell of the FSS consists of a double-sided metalized substrate with a circular hole and a SIW circular cavity. In this way, incident EM waves enter the circular cavity and excite a TM110 cavity resonance, leading to a narrow pass-band. The high-Q property of the TM110 cavity resonance provides a very good wide-angle and polarization-independent stability. Both the simulation and experimental results show that such narrowband FSS owes its advantages to high selectivity, low profile stable performance with various incident angles and different polarizations, which is suitable for impulse detections, narrow-band communications, electronic countermeasures, etc.

AB - In this paper, a novel narrowband frequency selective surface (FSS) with a stable performance based on substrate integrated waveguide technology is presented. The unit cell of the FSS consists of a double-sided metalized substrate with a circular hole and a SIW circular cavity. In this way, incident EM waves enter the circular cavity and excite a TM110 cavity resonance, leading to a narrow pass-band. The high-Q property of the TM110 cavity resonance provides a very good wide-angle and polarization-independent stability. Both the simulation and experimental results show that such narrowband FSS owes its advantages to high selectivity, low profile stable performance with various incident angles and different polarizations, which is suitable for impulse detections, narrow-band communications, electronic countermeasures, etc.

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U2 - 10.2528/PIERL11022005

DO - 10.2528/PIERL11022005

M3 - 文章

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SN - 1937-6480

VL - 22

SP - 19

EP - 28

JO - Progress in Electromagnetics Research Letters

JF - Progress in Electromagnetics Research Letters

ER -

Narrowband frequency selective surface based on substrate integrated waveguide technology

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