SHIELDING OF A PERFECTLY CONDUCTING CIRCULAR DISK: EXACT AND STATIC ANALYTICAL SOLUTION | Zendy

Giampiero Lovat | Zendy; Paolo Burghignoli | Zendy; Rodolfo Araneo | Zendy; Salvatore Celozzi | Zendy; Amedeo Andreotti | Zendy; Dario Assante | Zendy; L. Verolino | Zendy

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SHIELDING OF A PERFECTLY CONDUCTING CIRCULAR DISK: EXACT AND STATIC ANALYTICAL SOLUTION

Author(s) -

Giampiero Lovat,

Paolo Burghignoli,

Rodolfo Araneo,

Salvatore Celozzi,

Amedeo Andreotti,

Dario Assante,

L. Verolino

Publication year - 2019

Publication title -

progress in electromagnetics research c

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.341

H-Index - 34

ISSN - 1937-8718

DOI - 10.2528/pierc19052908

Subject(s) - electromagnetic shielding , physics , acoustics , electrical engineering , engineering

The problem of the shielding evaluation of an infinitesimally thin perfectly conducting circular disk against a vertical magnetic dipole is here addressed. The problem is reduced to a set of dual integral equations and solved in an exact form through the application of the Galerkin method in the Hankel transform domain. It is shown that a second-kind Fredholm infinite matrix-operator equation can be obtained by selecting a complete set of orthogonal eigenfunctions of the static part of the integral operator as expansion basis. A static solution is finally extracted in a closed form which is shown to be accurate up to remarkably high frequencies.

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