A design of the electromagnetic wave absorber at 1.9 GHz using composites (II): Oblique incidence

Hyung Do Choi; Ho Gyu Yoon; Tak Jin Moon

A design of the electromagnetic wave absorber at 1.9 GHz using composites (II): Oblique incidence

Hyung Do Choi
, Ho Gyu Yoon
, Tak Jin Moon^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

Abstract

A designing method of an electromagnetic wave absorber, whose obliquely incident electromagnetic wave attenuates more than 20 dB at 1.9 GHz, was investigated. In TE (transverse electric) wave, the matching boundary was moved toward the higher value of the real part and toward the lower value of the imaginary part of permeability, respectively, and the size of the matching boundary was decreased with increasing the incident angle. On the other hand, the matching boundary in the TM (transverse magnetic) wave exhibited the other way around to the case of TE wave. To design the electromagnetic wave absorber regarding the incident angle, it was found that the target frequency, thickness of material, and incident angle should be determined prior to the determination of the material constants of the composite within the matching boundary.

Original language	English
Pages (from-to)	1101-1106
Number of pages	6
Journal	Polymer (Korea)
Volume	20
Issue number	6
Publication status	Published - 1996

Keywords

Composite
Design
Electromagnetic wave absorber
Incident angle

ASJC Scopus subject areas

General Chemical Engineering
Polymers and Plastics
Materials Chemistry

Cite this

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title = "A design of the electromagnetic wave absorber at 1.9 GHz using composites (II): Oblique incidence",

abstract = "A designing method of an electromagnetic wave absorber, whose obliquely incident electromagnetic wave attenuates more than 20 dB at 1.9 GHz, was investigated. In TE (transverse electric) wave, the matching boundary was moved toward the higher value of the real part and toward the lower value of the imaginary part of permeability, respectively, and the size of the matching boundary was decreased with increasing the incident angle. On the other hand, the matching boundary in the TM (transverse magnetic) wave exhibited the other way around to the case of TE wave. To design the electromagnetic wave absorber regarding the incident angle, it was found that the target frequency, thickness of material, and incident angle should be determined prior to the determination of the material constants of the composite within the matching boundary.",

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T2 - Oblique incidence

AU - Choi, Hyung Do

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AU - Moon, Tak Jin

PY - 1996

Y1 - 1996

N2 - A designing method of an electromagnetic wave absorber, whose obliquely incident electromagnetic wave attenuates more than 20 dB at 1.9 GHz, was investigated. In TE (transverse electric) wave, the matching boundary was moved toward the higher value of the real part and toward the lower value of the imaginary part of permeability, respectively, and the size of the matching boundary was decreased with increasing the incident angle. On the other hand, the matching boundary in the TM (transverse magnetic) wave exhibited the other way around to the case of TE wave. To design the electromagnetic wave absorber regarding the incident angle, it was found that the target frequency, thickness of material, and incident angle should be determined prior to the determination of the material constants of the composite within the matching boundary.

AB - A designing method of an electromagnetic wave absorber, whose obliquely incident electromagnetic wave attenuates more than 20 dB at 1.9 GHz, was investigated. In TE (transverse electric) wave, the matching boundary was moved toward the higher value of the real part and toward the lower value of the imaginary part of permeability, respectively, and the size of the matching boundary was decreased with increasing the incident angle. On the other hand, the matching boundary in the TM (transverse magnetic) wave exhibited the other way around to the case of TE wave. To design the electromagnetic wave absorber regarding the incident angle, it was found that the target frequency, thickness of material, and incident angle should be determined prior to the determination of the material constants of the composite within the matching boundary.

KW - Composite

KW - Design

KW - Electromagnetic wave absorber

KW - Incident angle

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ER -

A design of the electromagnetic wave absorber at 1.9 GHz using composites (II): Oblique incidence

Abstract

Keywords

ASJC Scopus subject areas

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