Dewetted, SiGe nanoparticles have been successfully exploited for light management in the visible and near-infrared, although their scattering properties have been so far only qualitatively studied. Here, we demonstrate that the Mie resonances sustained by a SiGe-based nanoantenna under tilted illumination, can generate radiation patterns in different directions. We introduce a novel dark-field microscopy setup that exploits the movement of the nanoantenna under the objective lens to spectrally isolate Mie resonances contribution to the total scattering cross-section during the same measurement. The knowledge of islands' aspect ratio is then benchmarked by 3D, anisotropic phase-field simulations and contributes to a correct interpretation of the experimental data. (c) 2023 Optica Publishing Group under the terms of the Optica Open Access Publishing Agreement

Engineering and detection of light scattering directionalities in dewetted nanoresonators through dark-field scanning microscopy / Granchi, Nicoletta; Fagiani, Luca; Salvalaglio, Marco; Barri, Chiara; Ristori, Andrea; Montanari, Michele; Gurioli, Massimo; Abbarchi, Marco; Voigt, Axel; Vincenti, Maria Antonietta; Intonti, Francesca; Bollani, Monica. - In: OPTICS EXPRESS. - ISSN 1094-4087. - STAMPA. - 31:(2023), pp. 9007-9017. [10.1364/OE.481971]

Engineering and detection of light scattering directionalities in dewetted nanoresonators through dark-field scanning microscopy

Granchi, Nicoletta
;
Ristori, Andrea;Montanari, Michele;Gurioli, Massimo;Intonti, Francesca
;
2023

Abstract

Dewetted, SiGe nanoparticles have been successfully exploited for light management in the visible and near-infrared, although their scattering properties have been so far only qualitatively studied. Here, we demonstrate that the Mie resonances sustained by a SiGe-based nanoantenna under tilted illumination, can generate radiation patterns in different directions. We introduce a novel dark-field microscopy setup that exploits the movement of the nanoantenna under the objective lens to spectrally isolate Mie resonances contribution to the total scattering cross-section during the same measurement. The knowledge of islands' aspect ratio is then benchmarked by 3D, anisotropic phase-field simulations and contributes to a correct interpretation of the experimental data. (c) 2023 Optica Publishing Group under the terms of the Optica Open Access Publishing Agreement
2023
31
9007
9017
Granchi, Nicoletta; Fagiani, Luca; Salvalaglio, Marco; Barri, Chiara; Ristori, Andrea; Montanari, Michele; Gurioli, Massimo; Abbarchi, Marco; Voigt, A...espandi
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Utilizza questo identificatore per citare o creare un link a questa risorsa: https://hdl.handle.net/2158/1330083
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