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Tuning of Hybrid Oligomers via Nanoscale fs-Laser Reshaping

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arxiv 1612.03555 v1 pith:T6SMLLO2 submitted 2016-12-12 physics.optics

Tuning of Hybrid Oligomers via Nanoscale fs-Laser Reshaping

classification physics.optics
keywords fanofs-laserhybridnanoparticlesoligomersresonancedemonstratefine-tuning
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Various clusters of metallic or dielectric nanoparticles can exhibit sharp Fano resonances originating from at least two modes interference of different spectral width. However, for practical applications such as biosensing or nonlinear nanophotonics, the fine-tuning of the Fano resonances is generally required. Here, we propose and demonstrate a novel type of hybrid oligomers consisting of asymmetric metal-dielectric (Au/Si) nanoparticles with a sharp Fano resonance in visible range, which has a predominantly magnetic origin. We demonstrate both, numerically and experimentally, that such hybrid nanoparticle oligomers allow fine-tuning of the Fano resonance via fs-laser induced melting of Au nanoparticles at the nanometer scale. We show that the Fano resonance wavelength can be changed by fs-laser reshaping very precisely (within 15~nm) being accompanied by a reconfiguration of its profile.

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