Mohammad Ismail Khan scite author profile

A broadband microwave cross-polarization-conversion (CPC) metasurface is designed, simulated, fabricated, and tested. The metasurface consists of coupled split-ring-resonators (SRRs) with two splits in each SRR and is designed on an FR4 dielectric substrate backed by a metallic ground plane. An efficient CPC, both for normal as well as for oblique incidence, is achieved with 3 dB fractional bandwidth of 73% from 5 to 10.8 GHz. This wideband polarization conversion results from multiple plasmonic resonances occurring at three neighboring frequencies. Owing to the sub-wavelength unit cell size and symmetric structure of the coupled SRRs, the response of the metasurface is independent of the polarization and incidence angle of the incoming wave, which makes it a potential candidate for many practical applications. The proposed design is validated both numerically and experimentally. Experimental results are found to be in good agreement with simulations.

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An angularly stable dual-broadband anisotropic cross polarization conversion metasurface

Khan

Tahir

2017

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A dual broadband anisotropic cross-polarization-conversion (CPC) metasurface is designed and tested. The unit cell of the proposed metasurface consists of a two-slit rectangular split-ring-resonator inside of which a metallic cross element is placed. The unit cell is printed on a dielectric substrate backed by a metallic plane. Excellent CPC is achieved in two wide frequency bands from 5 to 9.7 GHz (4.7 GHz bandwidth) and from 11.2 to 15 GHz (3.8 GHz bandwidth) for both normal and oblique incidences. The wide CPC bandwidth is due to the plasmonic resonances occurring at three distinct frequencies. The unique physical structure, sub-wavelength size, and electrically small substrate thickness make the response of the metasurface identical for both x and y polarizations and insensitive to incidence angles (up to 60°). The physical mechanism behind polarization conversion is also elucidated through surface current distribution and through the concept of a high impedance surface. The proposed design is validated by full-wave simulations and experimental measurements.

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Mohammad Ismail Khan

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An angularly stable dual-broadband anisotropic cross polarization conversion metasurface

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