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Quarter wavelength fabry–perot cavity antenna with wideband low monostatic radar cross section and off-broadside peak radiation

Umair, H. and Latef, T. A. and Yamada, Y. and Hassan, T. and Wan Mahadi, W. N. L. and Othman, M. and Kamardin, K. and Hussein, M. I. (2021) Quarter wavelength fabry–perot cavity antenna with wideband low monostatic radar cross section and off-broadside peak radiation. Applied Sciences (Switzerland), 11 (3). ISSN 2076-3417

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Official URL: http://dx.doi.org/10.3390/app11031053

Abstract

Since antennas are strong radar targets, their radar cross section (RCS) reduction and radiation enhancement is of utmost necessity, particularly for stealth platforms. This work proposes the design of a Fabry–Perot Cavity (FPC) antenna which has wideband low monostatic RCS. While in the transmission mode, not only is gain enhancement achieved, but radiation beam is also deflected in the elevation plane. Moreover, the design is low-profile, i.e., the cavity height is ~λ/4. A patch antenna designed at 6 GHz serves as the excitation source of the cavity constructed between the metallic ground plane and superstrate. The superstrate structure is formed with absorptive frequency selective surface (AFSS) in conjunction with dual-sided partially reflective surface (PRS). Resistor loaded metallic rings serve as the AFSS, while PRS is constructed from inductive gradated mesh structure on one side to realize phase gradient for beam deflection; the other side has fixed capacitive elements. Results show that wideband RCS reduction was achieved from 4–16 GHz, with average RCS reduction of about 8.5 dB over the reference patch antenna. Off-broadside peak radiation at −38◦ was achieved, with gain approaching ~9.4 dB. Simulation and measurement results are presented.

Item Type:Article
Uncontrolled Keywords:frequency selective surface, off-broadside peak radiation, partially reflecting surface
Subjects:T Technology > T Technology (General)
Divisions:Malaysia-Japan International Institute of Technology
ID Code:94676
Deposited By: Narimah Nawil
Deposited On:31 Mar 2022 15:13
Last Modified:31 Mar 2022 15:13

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