Electromagnetic Response of Clustered Charged Particles

Electromagnetic response of clustered charged particles is the foundation of electromagnetic wave interaction with various natural phenomena, such as sandstorm, cloud, and volcano eruption. Previous studies usually employed assumption of independent charged particles, without considering the couplin...

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Autores principales: Wenzheng Ye, Xiaofeng Hu, Shuai Zhou, Chi Wang, Jing Jiang, Ting Yang, Fei Gao
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Lenguaje:EN
Publicado: Frontiers Media S.A. 2021
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Acceso en línea:https://doaj.org/article/f92a8bbb04cf4d3097442f3a08492a70
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spelling oai:doaj.org-article:f92a8bbb04cf4d3097442f3a08492a702021-11-15T06:42:37ZElectromagnetic Response of Clustered Charged Particles2296-801610.3389/fmats.2021.739116https://doaj.org/article/f92a8bbb04cf4d3097442f3a08492a702021-11-01T00:00:00Zhttps://www.frontiersin.org/articles/10.3389/fmats.2021.739116/fullhttps://doaj.org/toc/2296-8016Electromagnetic response of clustered charged particles is the foundation of electromagnetic wave interaction with various natural phenomena, such as sandstorm, cloud, and volcano eruption. Previous studies usually employed assumption of independent charged particles, without considering the coupling between them. Here, we build up a general numerical model considering the multiple scattering effect, and test it with a charged two- and four-particle system. The numerical results show that independence assumption fails, while the number density of clustered charged particles is getting larger. This work may pave the way for deeper understanding on the electromagnetic interaction of clustered charged particles.Wenzheng YeXiaofeng HuShuai ZhouChi WangChi WangJing JiangTing YangFei GaoFei GaoFrontiers Media S.A.articleaddition theoremmie scatteringcharged particlesmultiple scatteringscattering cross sectionTechnologyTENFrontiers in Materials, Vol 8 (2021)
institution DOAJ
collection DOAJ
language EN
topic addition theorem
mie scattering
charged particles
multiple scattering
scattering cross section
Technology
T
spellingShingle addition theorem
mie scattering
charged particles
multiple scattering
scattering cross section
Technology
T
Wenzheng Ye
Xiaofeng Hu
Shuai Zhou
Chi Wang
Chi Wang
Jing Jiang
Ting Yang
Fei Gao
Fei Gao
Electromagnetic Response of Clustered Charged Particles
description Electromagnetic response of clustered charged particles is the foundation of electromagnetic wave interaction with various natural phenomena, such as sandstorm, cloud, and volcano eruption. Previous studies usually employed assumption of independent charged particles, without considering the coupling between them. Here, we build up a general numerical model considering the multiple scattering effect, and test it with a charged two- and four-particle system. The numerical results show that independence assumption fails, while the number density of clustered charged particles is getting larger. This work may pave the way for deeper understanding on the electromagnetic interaction of clustered charged particles.
format article
author Wenzheng Ye
Xiaofeng Hu
Shuai Zhou
Chi Wang
Chi Wang
Jing Jiang
Ting Yang
Fei Gao
Fei Gao
author_facet Wenzheng Ye
Xiaofeng Hu
Shuai Zhou
Chi Wang
Chi Wang
Jing Jiang
Ting Yang
Fei Gao
Fei Gao
author_sort Wenzheng Ye
title Electromagnetic Response of Clustered Charged Particles
title_short Electromagnetic Response of Clustered Charged Particles
title_full Electromagnetic Response of Clustered Charged Particles
title_fullStr Electromagnetic Response of Clustered Charged Particles
title_full_unstemmed Electromagnetic Response of Clustered Charged Particles
title_sort electromagnetic response of clustered charged particles
publisher Frontiers Media S.A.
publishDate 2021
url https://doaj.org/article/f92a8bbb04cf4d3097442f3a08492a70
work_keys_str_mv AT wenzhengye electromagneticresponseofclusteredchargedparticles
AT xiaofenghu electromagneticresponseofclusteredchargedparticles
AT shuaizhou electromagneticresponseofclusteredchargedparticles
AT chiwang electromagneticresponseofclusteredchargedparticles
AT chiwang electromagneticresponseofclusteredchargedparticles
AT jingjiang electromagneticresponseofclusteredchargedparticles
AT tingyang electromagneticresponseofclusteredchargedparticles
AT feigao electromagneticresponseofclusteredchargedparticles
AT feigao electromagneticresponseofclusteredchargedparticles
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