Oscillons, solitons, and domain walls in arrays of nonlinear plasmonic nanoparticles

Date

2012

Authors

Noskov, Roman E
Belov, Pavel A
Kivshar, Yuri

Journal Title

Journal ISSN

Volume Title

Publisher

Institute of Electrical and Electronics Engineers (IEEE Inc)

Abstract

The study of metal nanoparticles plays a central role in the emerging novel technologies employing optics beyond the diffraction limit. Combining strong surface plasmon resonances, high intrinsic nonlinearities and deeply subwavelength scales, arrays of metal nanoparticles offer a unique playground to develop novel concepts for light manipulation at the nanoscale. Here we suggest a novel principle to control localized optical energy in chains of nonlinear subwavelength metal nanoparticles based on the fundamental nonlinear phenomenon of modulation instability. In particular, we demonstrate that modulation instability can lead to the formation of long-lived standing and moving nonlinear localized modes of several distinct types such as bright and dark solitons, oscillons, and domain walls. We analyze the properties of these nonlinear localized modes and reveal different scenarios of their dynamics including transformation of one type of mode to another. We believe this work paves a way towards the development of nonlinear nanophotonics circuitry.

Description

Keywords

Keywords: metal nanoparticle; article; chemistry; computer simulation; darkness; light; methodology; nonlinear system; radiation scattering; surface plasmon resonance; Computer Simulation; Darkness; Light; Metal Nanoparticles; Nonlinear Dynamics; Scattering, Radiat

Citation

Source

Proceedings of Metamaterials 2012 International Congress on Advanced Electromagnetic Materials in Microwaves and Optics

Type

Conference paper

Book Title

Entity type

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Restricted until

2037-12-31