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33484

SHIELDING PERFORMANCE OF SUPERCONDUCTING STRUCTURES

Article

Last updated: 04 Jan 2025

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Abstract

ABSTRACT
Electromagnetic shielding is one of the most promising applications of
superconductors that still needs further investigation. An enhanced model is therefore
proposed to design optimum shielding structures made from different low and high criticaltemperature
(LTS & HTS) superconductors. The proposed model incorporates classical
electrodynamics with both superconductivity macroscopic theories such as two-fluid model,
Ginzburg-Landau (GL) theory, and microscopic Bardeen-Cooper-Schrieffer (BCS) theory.
Thermodynamic properties are also included using improved Gorter-Casimir relations based
on published experimental data. General shielding effectiveness expressions are derived for
different superconducting shielding structures against generally polarized incident
electromagnetic waves. A computer algorithm is then developed to investigate the impact of
superconducting material parameters on shielding effectiveness. The limitations and
advantages of superconducting shielding structures are also discussed.

DOI

10.21608/iceeng.2006.33484

Keywords

superconductors, Shielding Effectiveness, and Computer Modeling

Authors

First Name

Mohamed

Last Name

Eleiwa

MiddleName

A H

Affiliation

Ph.D., The Egyptian Armed Forces.

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Volume

5

Article Issue

5th International Conference on Electrical Engineering ICEENG 2006

Related Issue

5615

Issue Date

2006-05-01

Receive Date

2019-05-28

Publish Date

2006-05-01

Page Start

1

Page End

16

Print ISSN

2636-4433

Online ISSN

2636-4441

Link

https://iceeng.journals.ekb.eg/article_33484.html

Detail API

https://iceeng.journals.ekb.eg/service?article_code=33484

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1

Type

Original Article

Type Code

833

Publication Type

Journal

Publication Title

The International Conference on Electrical Engineering

Publication Link

https://iceeng.journals.ekb.eg/

MainTitle

SHIELDING PERFORMANCE OF SUPERCONDUCTING STRUCTURES

Details

Type

Article

Created At

22 Jan 2023