Investigation on the broadband active filtering characteristics of plasma composited frequency selective surface structure

Investigation on the broadband active filtering characteristics of plasma composited frequency selective surface structure

Abstract To address the demand for wideband, dynamically controllable filtering characteristics in radomes, a plasma composited frequency selective surface (PC-FSS) structure with broadband, active filtering properties is proposed and experimentally demonstrated. Initially, a broadband band-pass FSS...

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Bibliographic Details
Main Authors: Xinmin Han, Shuangxin Wang, Xiaolong Wei, Jingang Zhao, Yang Wei
Format: Article
Language:English
Published: Nature Portfolio 2025-08-01
Series:Scientific Reports
Subjects:
Inductively coupled plasma
Frequency selective surface
Active control
Broadband
Passband
Stopband
Online Access:https://doi.org/10.1038/s41598-025-16085-3
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Summary:Abstract To address the demand for wideband, dynamically controllable filtering characteristics in radomes, a plasma composited frequency selective surface (PC-FSS) structure with broadband, active filtering properties is proposed and experimentally demonstrated. Initially, a broadband band-pass FSS was designed using a multilayer cascade method and integrated with inductively coupled plasma (ICP) to form the PC-FSS. The effects of various discharge conditions—including pressure, power, and ICP thickness—on the parameter distribution and filtering performance of the PC-FSS were investigated through experimental measurements. The results indicate that the filtering characteristics of the PC-FSS can be actively controlled across a wide frequency range by adjusting the discharge conditions. Furthermore, the PC-FSS exhibits strong polarization and angular stability. In its unexcited state, the PC-FSS functions as a broadband band-pass structure with a center frequency of 13.56 GHz and a -1 dB passband of 11.02 GHz (ranging from 8.05 to 19.07 GHz). When excited, the structure displays tunable band-pass and band-stop characteristics, which depend on the discharge conditions, thereby providing both switching and tuning functionalities. The active properties of the PC-FSS underscore its potential for applications in active stealth radome systems.
ISSN:2045-2322

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