A polarization‐insensitive broadband rasorber with in‐band transmission response

Sharma, Aditi; Saikia, Mondeep; Malik, Sudha; Ghosh, Saptarshi; Srivastava, Kumar Vaibhav

doi:10.1002/mop.32484

Cited by 20 publications

(11 citation statements)

References 27 publications

(53 reference statements)

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“…The proposed FSR is a thin, polarizationinsensitive and exhibits dual transmission property as compared to the reported FSRs. [24][25][26][27][28]…”

Section: 09λ L Insensitivementioning

confidence: 99%

“…[21][22][23] The reported FSRs have been classified into different categories depending upon the relative positions of the absorption and transmission bands. This include, the FSRs with lower transmission band relative to the absorption band (T-A FSR), 24 higher transmission band above the absorption band (A-T FSR), 25 transmission band in between two absorption bands (A-T-A) 26,27 and dual absorption and dual transmission bands in an alternate arrangement (A-T-A-T). 28 A FSR designed with meander-line square loop, 24 achieves a low-pass transmission window below 1.5 GHz and broad absorption band at a higher frequency.…”

Section: Introductionmentioning

confidence: 99%

“…Another polarization-insensitive A-T-A FSR designed using a crossdipole pattern has been reported. 27 The reported FSRs [24][25][26][27] have single transmission bands and thus have limited applications. With the growing use of multi-band radiating systems, the FSR with multiple transmission bands can provide an enhanced performance.…”

Section: Introductionmentioning

confidence: 99%

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Polarization‐insensitive frequency selective rasorber with broad absorption band and two‐sided transmission bands

Zargar

Rajput

Saurav

et al. 2022

Int J RF Mic Comp-Aid Eng

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In this study, a compact and polarization-insensitive frequency selective rasorber (FSR) is proposed with dual transmission bands located at the two sides of a broad absorption band. The proposed FSR is a two-layer structure designed by combining the Jerusalem cross based dual bandpass frequency selective surface (FSS) with a broadband resistive square loop absorber, such that both the absorption and transmission characteristics are retained. The proposed FSR has a thickness and size of 0.09λ L and 0.026λ L 2 , respectively at the lowest frequency of À10 dB reflection (1.97 GHz). The dual transmission bands are obtained at 2.1 and 8.8 GHz with an in-between absorption band ranging from 3.6 to 7.4 GHz (69.09%). The working principle of the proposed FSR is analyzed using an equivalent circuit model. Furthermore, a range of lower and upper transmission bands with respect to the absorption band is determined by carrying out the parametric studies on the geometrical parameters of the bandpass FSS. A prototype of the proposed FSR consisting of an array of 10 Â 10 unit cells is fabricated and the results are experimentally verified.

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“…The proposed FSR is a thin, polarizationinsensitive and exhibits dual transmission property as compared to the reported FSRs. [24][25][26][27][28]…”

Section: 09λ L Insensitivementioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Polarization‐insensitive frequency selective rasorber with broad absorption band and two‐sided transmission bands

Zargar

Rajput

Saurav

et al. 2022

Int J RF Mic Comp-Aid Eng

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“…It consists of resistive sheet, dielectric layer and metallic ground plane), the lossless layer almost totally reflects the incident EM wave to perform a metallic ground plane of CAA, and the lossy layer absorbs the incident EM wave 9 . Various 2‐D FSRs have been reported recently, which possess excellent spatial filtering and absorption performances 10–22 . For example, the FSRs with absorption bands located on both sides of the transmission band are presented in Han et al 10–13 But their transmission bandwidth is generally narrow, which will result in wide transition bandwidth between passband and absorption, thus causing rise of reflection in the transition band.…”

Section: Introductionmentioning

confidence: 99%

“…Various 2‐D FSRs have been reported recently, which possess excellent spatial filtering and absorption performances 10–22 . For example, the FSRs with absorption bands located on both sides of the transmission band are presented in Han et al 10–13 But their transmission bandwidth is generally narrow, which will result in wide transition bandwidth between passband and absorption, thus causing rise of reflection in the transition band. There are also many FSR designs with the absorption band above the passband, 14–16 these FSRs used slot‐type FSSs for passband generation and cascaded CAA structure for absorption implementation.…”

Section: Introductionmentioning

confidence: 99%

Dual‐polarized frequency selective rasorber with broadband absorption and transmission

Kou

et al. 2021

Int J RF Mic Comp-Aid Eng

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In this letter, a polarization‐insensitive frequency selective rasorber (FSR) is proposed, which can achieve wide absorption band and wide transmission band at low frequency and high frequency, respectively. It consists of two layers and an air spacer in the middle. The top layer is a resistive sheet, which is realized by an improved Jerusalem metal strip loaded with lumped resistors, while a square ring slot‐type bandpass FSS on the bottom is designed to match the passband of the resistive sheet. The working principle of the FSR is analyzed by the method of equivalent circuit. In order to verify our design, a sample prototype has been fabricated and measured, it can be seen from the measurement results that an insertion loss of about 0.12 dB is obtained at 21.6 GHz under normal incidence, the 1 dB transmission relative bandwidth and the relative bandwidth for 10 dB absorption reaches more than 80% and 24%, respectively. The FSR exhibits the characteristics of insensitivity to polarization with excellent angle stability. The simulation results and the measured results are relatively consistent, whether it is normal incidence or oblique incidence. The proposed FSR has the potential to be used in the applications of stealth performances improved of low‐observable platforms in the future.

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Miniaturized dual stop band frequency selective surface with broadband linear co to cross polarization conversion ability

Dey

Koul

2021

Int J RF Microw Comput Aided Eng

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This work presents a miniaturized angularly stable frequency selective surface (FSS) on a single layer substrate. Unit cell comprises of convoluted circular rings connected cross dipole and linear arrow headed dipole printed on both sides of the substrate. A closely spaced dual stop band resonances are obtained at 10 and 14.3 GHz with frequency ratio of 1.43. FSS shows a À 10 dB stopband bandwidth (BW) from 7.32 to 11.05 GHz (40.61%) and 12.68 to 15.97 GHz (22.97%) with >30 dB stop band rejection at center frequencies. FSS poses the features of stable performance under change in polarization and angularly stable response up to 60 incident angle. Later the proposed FSS is printed on grounded thick dielectric substrate and it shows broadband reflection type co to cross polarization conversion from 7.2 to 17.32 GHz (82.54%) with polarization conversion ratio >80% and oblique angle stability up to 35 . To the best of authors' knowledge, this is the first time in literature a single unit cell geometry with two different properties, spatial filtering on transmission and polarization conversion on reflection have been designed and analyzed in details. A finite array with size 25 Â 25 of the proposed FSS is fabricated and the measured filter response shows a good agreement with simulated performance at normal and oblique incidences. The proposed FSS is used as a reflector of a dual band monopole antenna and the simulation results shows gain improvement of 5.51 and 3.8 dB at the two stopband frequencies.

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A polarization‐insensitive broadband rasorber with in‐band transmission response

Cited by 20 publications

References 27 publications

Polarization‐insensitive frequency selective rasorber with broad absorption band and two‐sided transmission bands

Polarization‐insensitive frequency selective rasorber with broad absorption band and two‐sided transmission bands

Dual‐polarized frequency selective rasorber with broadband absorption and transmission

Miniaturized dual stop band frequency selective surface with broadband linear co to cross polarization conversion ability

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