Ali Pesarakloo scite author profile

In this paper using Plasmon Resonances Management (PRM), a bi-functional meta-mirror is proposed in which, the meta-mirror can obtain two opposite properties in two different frequency ranges. In this method, an anisotropic unit cell with polarization conversion property is modified to have two plasmon resonances in both symmetric and anti-symmetric planes in a specific frequency. This allows the unit cell to have the property of unchanged polarization in that frequency. The meta-mirror is composed of this modified unit cell and its mirror as a chessboard arrangement and the incident wave on the meta-mirror is reflected as in-phase in that specific frequency i.e. specular reflection, while as out-of-phase in other frequencies i.e. RCS reduction. The designed meta-mirror in this paper demonstrates the RCS reduction in two side-bands from 4 to 9 GHz and 10.8 to 14.8 GHz while behaving as a specular reflection in the frequency around 10 GHz.

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Wide-angle monostatic RCS enhancement using symmetrical periodic structures

Pesarakloo

Khalaj‐Amirhosseini

2021

Journal of Electromagnetic Waves and Applications

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Planar, wide-band omnidirectional retroreflector using metal-only transmitarray structure for TE and TM polarizations

Pesarakloo

Khalaj‐Amirhosseini

2022

Sci Rep

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In this paper, a novel planar and wideband metal-only retroreflector is proposed that efficiently reflects the obliquely incident electromagnetic wave along its incident direction in omnidirectional angle range. The means of omnidirectional is the capability of retroreflectivity in all azimuth angles $$(\varphi_{i} )$$ ( φ i ) and in a wide elevation angle $$(\theta_{i} )$$ ( θ i ) range. The proposed structure consists of a symmetrical transmitarray structure with beam scanning capability in which a metal plate is placed instead of the feed. The transmitarray is designed by using the generalized multifocal approach in which the beam scanning capability is possible via feed displacement and the phase of the elements has azimuthal symmetry that causes omnidirectional property. Now by placing a metal plate at the location of feed displacement and provided that the focused waves are nearly perpendicular to the metal plate, the plane wave is reflected back along its incident direction i.e. the retroreflectivity property is obtained. The proposed retroreflector simulated by CST STUDIO software and fabricated with laser cut technology. The results of measurement show an omnidirectional retroreflectivity with half-power (3-dB RCS level) elevation field of view of 60° (− 30° to 30°) in the frequency range of 8.5–10 GHz (approximately 17%) for both TE and TM polarization.

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Ali Pesarakloo

Sine-Wall Space-Tapered Linear Slot Array Antenna With Low Sidelobe and Second-Order Lobe Levels

Ultrawideband and Omnidirectional RCS Reduction by Using Symmetrical Coded Structures

Plasmon resonances management of meta-mirror for combining radar cross section (RCS) reduction and specular reflection with frequency selectivity

Wide-angle monostatic RCS enhancement using symmetrical periodic structures

Planar, wide-band omnidirectional retroreflector using metal-only transmitarray structure for TE and TM polarizations

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