Chaoticity of a Reverberation Chamber Assessed From the Analysis of Modal Distributions Obtained by FEM

Author

Orjubin, Gérand ; Richalot, Elodie ; Picon, Odile ; Legrand, Olivier

Author_Institution

Univ. Fed. do Ceara, Fortaleza

Volume

49

Issue

4

fYear

2007

Firstpage

762

Lastpage

771

Abstract

Wave chaos theory is used to study a modeled reverberation chamber (RC). The first 200 modes at a given stirrer position are determined by the finite element method, and the Weyl formula is checked for various RC geometries, from integrable to chaotic. The eigenfrequency spacing distribution varies according to the degree of ray chaos in the RC related to its geometry. The eigenmode distributions are also analyzed and compared to the theoretical Gaussian distribution: close to the lower useable frequency, the modes of the studied chaotic RC fairly respect this asymptotic property. A general result of chaotic systems is illustrated: when perturbed by the stirrer rotation, the resonant frequencies of a chaotic RC avoid crossing. This implies that the frequency sweeps tend to vanish at high frequency.

Keywords

Gaussian distribution; eigenvalues and eigenfunctions; finite element analysis; reverberation chambers; FEM; Gaussian distribution; Weyl formula; chaotic reverberation chamber; chaotic systems; eigenfrequency spacing distribution; eigenmode distributions; finite element method; modal distribution analysis; stirrer position; stirrer rotation; wave chaos theory; Chaos; Chaotic communication; Electromagnetic compatibility; Equations; Finite element methods; Gaussian distribution; Geometry; Quantum mechanics; Resonant frequency; Reverberation chamber; Eigenvalue perturbation; finite element method (FEM); quantum chaos; reverberation chamber (RC);

fLanguage

English

Journal_Title

Electromagnetic Compatibility, IEEE Transactions on

Publisher

ieee

ISSN

0018-9375

Type

jour

DOI

10.1109/TEMC.2007.908266

Filename

4380427