Design of Wideband Microwave Absorbers Using Reactive Salisbury Screens with Maximum Flat Reflection

This paper presents a design methodology for wideband single-layered microwave absorbers with arbitrary absorption at the design center frequency using reactive Salisbury screens. The bandwidth of the absorber increases when the flatness of the reflection response at the design center frequency is m...

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Bibliographic Details
Main Authors: Gunyoung Kim, Sanghoek Kim, Bomson Lee
Format: Article
Language:English
Published: The Korean Institute of Electromagnetic Engineering and Science 2019-04-01
Series:Journal of the Korean Institute of Electromagnetic Engineering and Science
Subjects:
Online Access:http://www.jees.kr/upload/pdf/jees-2019-19-2-71.pdf
Description
Summary:This paper presents a design methodology for wideband single-layered microwave absorbers with arbitrary absorption at the design center frequency using reactive Salisbury screens. The bandwidth of the absorber increases when the flatness of the reflection response at the design center frequency is maximized. Based on this observation, closed-form design formulas for wideband absorbers are derived. As they are scalable to any design frequency, wideband reactive screens can be systematically realized using two-dimensional periodic crossed-dipole structures patterned on a resistive sheet. Based on this method, a single-layered absorber with a 90% bandwidth improved to 124% of the design center frequency is presented. For the purpose of physical demonstration, an absorber with a design center frequency of 10 GHz is designed and fabricated using a silver nanowire resistive film with a surface resistance of 30 Ω/square. The measured absorption shows a good agreement with both the calculation and the electromagnetic simulation.
ISSN:2234-8409
2234-8395