Light-weight wideband electromagnetic wave absorber based on aramid paper

A lightweight wideband honeycomb absorber is theoretically and experimentally investigated. The proposed absorber is constructed of aramid paper, which contains carbon fibers to absorb partially the incident electromagnetic wave. Graded silver paste circuits are also printed on aramid paper to impro...

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Veröffentlicht in:	Applied physics letters 2023-06, Vol.122 (25)
Hauptverfasser:	Han, Ye, Li, Qi, Li, Bo, Chen, Jiayue, Xiu, Xin, Che, Wenquan, Xue, Quan
Format:	Artikel
Sprache:	eng
Schlagworte:	Absorbers Absorption Applied physics Broadband Carbon fibers Electromagnetic radiation Impedance matching Weight reduction
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container_title	Applied physics letters
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creator	Han, Ye Li, Qi Li, Bo Chen, Jiayue Xiu, Xin Che, Wenquan Xue, Quan
description	A lightweight wideband honeycomb absorber is theoretically and experimentally investigated. The proposed absorber is constructed of aramid paper, which contains carbon fibers to absorb partially the incident electromagnetic wave. Graded silver paste circuits are also printed on aramid paper to improve the impedance matching properties and, thus, achieve wideband absorption performance. An absorber sample was fabricated and measured to verify the design strategies. The designed absorber has a fractional absorption bandwidth of 133% from 3.6–18 GHz, with a thickness of 0.19λL at the lowest frequency. The total weight of the absorber is 18.2 g, with a density of 28.4 kg/ m 3.
doi_str_mv	10.1063/5.0153583
format	Article
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subjects	Absorbers Absorption Applied physics Broadband Carbon fibers Electromagnetic radiation Impedance matching Weight reduction
title	Light-weight wideband electromagnetic wave absorber based on aramid paper
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