Asymmetric meander line <scp>slot‐based X‐band</scp> leaky wave antenna

Kumar, Awanish; Reddy, G. Shrikanth; Padhi, Jyoti B.; Narayan, Shiv

doi:10.1002/mop.32975

Cited by 4 publications

(4 citation statements)

References 27 publications

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“…To realize enhanced reflection coefficient, transmission coefficient, and gain, a graphene-based optical LWA is designed in. 24 To reduce the period length of the unit cell, LWAs based on microstrip rampart lines 25,26 and meandering slots 27,28 are investigated. In, 27,28 the composite right/left-handed (CRLH) transmission properties are obtained due to the meandering slots and thus the antennas can scan from backward to forward.…”

Section: Introductionmentioning

confidence: 99%

“…24 To reduce the period length of the unit cell, LWAs based on microstrip rampart lines 25,26 and meandering slots 27,28 are investigated. In, 27,28 the composite right/left-handed (CRLH) transmission properties are obtained due to the meandering slots and thus the antennas can scan from backward to forward. However, this type of LWAs suffer from the open-stop band (OSB) effect when the beam scans through the broadside, causing the degradation of the gain and the deterioration of the reflection coefficient at broadside frequency.…”

Section: Introductionmentioning

confidence: 99%

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A periodic meandering microstrip line leaky‐wave antenna with consistent gain and wide‐angle beam scanning

Wang

Sun

Xue

2022

Int J RF Mic Comp-Aid Eng

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In this article, a periodic leaky‐wave antenna (LWA) with wide‐angle beam scanning and stable gain is proposed based on the meandering microstrip line. Due to the meandering property of the microstrip line, the longitudinal dimension of the antenna is reduced. Firstly, the radiation characteristic of the meandering microstrip line is analyzed in detail. Each corner of the meandering microstrip line is modeled by a shunt capacitance and shunt radiation conductance to acquire the equivalent circuit. Then, the frequency balanced condition is investigated based on the established equivalent circuit to realize continuous beam scanning through broadside. Subsequently, the method of open‐stop band (OSB) suppression is studied by introducing asymmetric perturbation on the LWA unit cell, which actually can be applied to eliminate the OSB effect in arbitrary symmetric LWAs. Finally, an antenna prototype is simulated and measured. The measured results agree well with the simulated results, validating the proposed method of OSB suppression. The measured results show that the designed antenna exhibits the beam scanning capacity of −47° to +76° with the frequency varying from 5.0 to 7.8 GHz and gain variation of 2.9 dB.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

A periodic meandering microstrip line leaky‐wave antenna with consistent gain and wide‐angle beam scanning

Wang

Sun

Xue

2022

Int J RF Mic Comp-Aid Eng

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“…[14][15][16][17][18][19][20][21][22] In addition, the SSPP leaky-wave antennas (LWAs) have attracted much attention in recent years, which have advantages of low profile, low cost, and flexible design. [23][24][25][26][27][28][29][30][31][32][33][34] As the rapid development of wireless communications, the technology of multibeam radiations and multipolarization modulations has attracted more and more attention and may find practical application in point-to-multipoint communications (e.g., satellite communications and personal terminals). Many efforts have been made to achieve dual-beam radiations of leaky waves, such as symmetrical side-beam radiations, [35] dual-beam radiations based on dual-mode SSPPs, [36] or multiperiod structures, [37,38] but these works were only limited to the single polarization.…”

Section: Introductionmentioning

confidence: 99%

Dual‐Beam Leaky‐Wave Radiations with Independent Controls of Amplitude, Angle, and Polarization Based on SSPP Waveguide

Cheng

Feng

Wang

et al. 2022

Advanced Photonics Research

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New dual‐beam leaky‐wave radiations based on spoof surface plasmon polariton (SSPP) waveguide, in which the amplitude, radiation, angle and polarization of each beam can be designed independently, is proposed. The proposed SSPP waveguide is made of a corrugated metallic strip with bilateral 45°‐tilted grooves, whose surface impedance is flexibly designed by changing the depth of grooves. To realize dual‐beam leaky‐wave radiations, the surface impedance of SSPP waveguide is modulated periodically based on the superposition theory of aperture fields. By simply adjusting the modulation factors, modulation periods, and initial phase differences of the modulated surface impedance, the amplitude, radiation angle, and polarization of each beam can be further controlled independently as well. The results have been validated by both numerical simulations and experimental measurements, which show good agreement with the theoretical predictions.

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“…An endfire to near broadside scanning SIW LWA is proposed in Ali and Khan, 19 but it has quite large dimensions. Recently, different types of LWAs are proposed such as scanning rate enhanced LWA, 20 circularly polarized LWA, 21 compact spoof surface plasmon polariton LWA, 22 wide beam scanning LWA, 23 periodic microstrip LWA with highly stable gain, 24 dual‐polarized dual‐band LWA, 25 asymmetric meander line slot‐based X‐band LWA, 26 and so forth. However, most of the reported structures either have a smaller beam scanning range or larger dimensions.…”

Section: Introductionmentioning

confidence: 99%

A miniaturized CRLH based SIW leaky‐wave antenna for continuous backward‐to‐forward fast beam scanning with low side lobe levels

Agarwal

Yadava

Das

2022

Micro & Optical Tech Letters

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In this study, a substrate‐integrated waveguide (SIW)‐based miniaturized leaky‐wave antenna (LWA) with fast beam scanning is proposed. The proposed LWA exhibits composite right/left‐handed (CRLH) property and its unit cell consist of an inverted Z‐shaped slot etched on the top layer of SIW. By sweeping frequency from 9.4 to 11.4 GHz, the proposed CRLH LWA can steer the frequency beam continuously from −40° to 51°, which shows fast beam scanning within the impedance bandwidth (2 GHz) of LWA. The good leakage constant contributes to the miniaturization of the LWA with electrical dimensions of 3.38λ0 × 0.34λ0 mm2. The antenna attains a peak gain of 12.5 dBi with maximum radiation efficiency of 92%. The antenna attains low sidelobe levels below 12 dB; the low sidelobe levels in the LWA are obtained by creating symmetricity in the unit cell around the centerline. The designed LWA is a viable contender for X‐band beam scanning applications.

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Asymmetric meander line slot‐based X‐band leaky wave antenna

Cited by 4 publications

References 27 publications

A periodic meandering microstrip line leaky‐wave antenna with consistent gain and wide‐angle beam scanning

A periodic meandering microstrip line leaky‐wave antenna with consistent gain and wide‐angle beam scanning

Dual‐Beam Leaky‐Wave Radiations with Independent Controls of Amplitude, Angle, and Polarization Based on SSPP Waveguide

A miniaturized CRLH based SIW leaky‐wave antenna for continuous backward‐to‐forward fast beam scanning with low side lobe levels

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