Cooperative field localization and excitation eigenmodes in disordered metamaterials

We investigate numerically and experimentally the near-field response of disordered arrays comprising asymmetrically split ring resonators that exhibit strong cooperative response. Our simulations treat the unit cell split ring resonators as discrete pointlike oscillators with associated electric an...

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Bibliographic Details
Published in:arXiv.org 2019-02
Main Authors: Papasimakis, Nikitas, Jenkins, Stewart D, Savo, Salvatore, Zheludev, Nikolay I, Ruostekoski, Janne
Format: Article
Language:English
Subjects:
Computer simulation
Dipoles
Excitation
Metamaterials
Oscillators
Resonators
Unit cell
Online Access:Get full text
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Summary:We investigate numerically and experimentally the near-field response of disordered arrays comprising asymmetrically split ring resonators that exhibit strong cooperative response. Our simulations treat the unit cell split ring resonators as discrete pointlike oscillators with associated electric and magnetic point dipole radiation, while the strong cooperative radiative coupling between the different split rings is fully included at all orders. The methods allow to calculate local field and Purcell factor enhancement arising from the collective electric and magnetic excitations. We find substantially increased standard deviation of the Purcell-enhancement with disorder, making it increasingly likely to find collective excitation eigenmodes with very high Purcell factors that are also stronger for magnetic than electric excitations. We show that disorder can dramatically modify the cooperative response of the metamaterial even in the presence of strong dissipation losses as is the case for plasmonic systems. Our analysis in terms of collective eigenmodes paves a way for controlled engineering of electromagnetic device functionalities based on strongly interacting metamaterial arrays.
ISSN:2331-8422
DOI:10.48550/arxiv.1902.00218