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Bibliographic Details
Main Authors: Dyshlyuk, Anton V., Vitrik, Oleg B.
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2507.01302
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author Dyshlyuk, Anton V.
Vitrik, Oleg B.
author_facet Dyshlyuk, Anton V.
Vitrik, Oleg B.
contents A simple and efficient analytical model is proposed for analyzing plasmonic phenomena arising in nanoscale defects on metal surfaces, specifically low aspect ratio dome-shaped protrusions and depressions. The model enables the calculation, using a straightforward formula, of the polarization charge density on the defect surface and its associated plasmonic near-field, accurately accounting for the defect geometry and incident light wave parameters. It further effectively incorporates the resonant properties of the defects within the electrostatic approximation, making it possible to calculate the correction to the Born approximation for the defect dipole moment. The analytical results obtained under the electrostatic approximation are validated through full-wave numerical simulations utilizing the finite element method. The proposed analytical approach will be valuable for modeling diverse phenomena pertinent to the development of guided-wave plasmonic devices, micro- and nanoscale light manipulation devices, metamaterials, and hybrid optoelectronic circuits, as well as for addressing light scattering problems, especially those involving surface plasmon polariton waves.
format Preprint
id arxiv_https___arxiv_org_abs_2507_01302
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Simple analytical approach to the analysis of plasmonic phenomena in dome-shaped protrusions and depressions on metal surfaces
Dyshlyuk, Anton V.
Vitrik, Oleg B.
Optics
A simple and efficient analytical model is proposed for analyzing plasmonic phenomena arising in nanoscale defects on metal surfaces, specifically low aspect ratio dome-shaped protrusions and depressions. The model enables the calculation, using a straightforward formula, of the polarization charge density on the defect surface and its associated plasmonic near-field, accurately accounting for the defect geometry and incident light wave parameters. It further effectively incorporates the resonant properties of the defects within the electrostatic approximation, making it possible to calculate the correction to the Born approximation for the defect dipole moment. The analytical results obtained under the electrostatic approximation are validated through full-wave numerical simulations utilizing the finite element method. The proposed analytical approach will be valuable for modeling diverse phenomena pertinent to the development of guided-wave plasmonic devices, micro- and nanoscale light manipulation devices, metamaterials, and hybrid optoelectronic circuits, as well as for addressing light scattering problems, especially those involving surface plasmon polariton waves.
title Simple analytical approach to the analysis of plasmonic phenomena in dome-shaped protrusions and depressions on metal surfaces
topic Optics
url https://arxiv.org/abs/2507.01302