Efficient Statistical Model for Predicting Electromagnetic Wave Distribution in Coupled Enclosures

Ma, Shukai; Phang, Sendy; Drikas, Zachary; Addissie, Bisrat; Hong, Ronald; Blakaj, Valon; Gradoni, Gabriele; Tanner, Gregor; Antonsen, Thomas M.; Ott, Edward; Anlage, Steven M.

doi:10.1103/PhysRevApplied.14.014022

Efficient Statistical Model for Predicting Electromagnetic Wave Distribution in Coupled Enclosures

Ma, Shukai; Phang, Sendy; Drikas, Zachary; Addissie, Bisrat; Hong, Ronald; Blakaj, Valon; Gradoni, Gabriele; Tanner, Gregor; Antonsen, Thomas M.; Ott, Edward; Anlage, Steven M.

Authors

Shukai Ma

Dr SENDY PHANG SENDY.PHANG@NOTTINGHAM.AC.UK
Assistant Professor

Zachary Drikas

Bisrat Addissie

Ronald Hong

Valon Blakaj

Gabriele Gradoni

GREGOR TANNER GREGOR.TANNER@NOTTINGHAM.AC.UK
Professor of Applied Mathematics

Thomas M. Antonsen

Edward Ott

Steven M. Anlage

Abstract

The random coupling model (RCM) has been successfully applied to predicting the statistics of currents and voltages at ports in complex electromagnetic (EM) enclosures operating in the short-wavelength limit. Recent studies have extended the RCM to systems of multimode aperture-coupled enclosures. However, as the size (as measured in wavelengths) of a coupling aperture grows, the coupling matrix used in the RCM increases as well, and the computation becomes more complex and time consuming. A simple power balance (PWB) model can provide fast predictions for the averaged power density of waves inside electrically large systems for a wide range of cavity and coupling scenarios. However, the important interference-induced fluctuations of the wave field retained in the RCM are absent in the PWB model. Here we aim to combine the best aspects of each model to create a hybrid treatment and study the EM fields in coupled enclosure systems. The proposed hybrid approach provides both mean and fluctuation information of the EM fields without the full computational complexity of the coupled-cavity RCM. We compare the hybrid model predictions with experiments on linear cascades of over-moded cavities. We find good agreement over a set of different loss parameters and for different coupling strengths between cavities. The range of validity and applicability of the hybrid method are tested and discussed.

Citation

Ma, S., Phang, S., Drikas, Z., Addissie, B., Hong, R., Blakaj, V., …Anlage, S. M. (2020). Efficient Statistical Model for Predicting Electromagnetic Wave Distribution in Coupled Enclosures. Physical Review Applied, 14(1), Article 014022. https://doi.org/10.1103/PhysRevApplied.14.014022

Journal Article Type	Article
Acceptance Date	May 26, 2020
Online Publication Date	Jul 8, 2020
Publication Date	Jul 8, 2020
Deposit Date	Jul 13, 2020
Publicly Available Date	Jul 13, 2020
Journal	Physical Review Applied
Electronic ISSN	2331-7019
Peer Reviewed	Peer Reviewed
Volume	14
Issue	1
Article Number	014022
DOI	https://doi.org/10.1103/PhysRevApplied.14.014022
Public URL	https://nottingham-repository.worktribe.com/output/4759605
Publisher URL	https://journals.aps.org/prapplied/abstract/10.1103/PhysRevApplied.14.014022
Additional Information	©2020 American Physical Society.