Reciprocal space engineering with hyperuniform gold metasurfaces

Marta Castro-Lopez; Michele Gaio; Steven Sellers; George Gkantzounis; Marian Florescu; Riccardo Sapienza

doi:10.48550/arxiv.1701.06799

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Reciprocal space engineering with hyperuniform gold metasurfaces

Marta Castro-Lopez, Michele Gaio, Steven Sellers, George Gkantzounis, Marian Florescu and Riccardo Sapienza

arXiv (Cornell University)

24/01/2017

DOI: https://doi.org/10.48550/arxiv.1701.06799

Abstract

Physics - Optics

Hyperuniform geometries feature correlated disordered topologies which follow from a tailored k-space design. Here we study gold plasmonic hyperuniform metasurfaces and we report evidence of the effectiveness of k-space engineering on both light scattering and light emission experiments. The metasurfaces possess interesting directional emission properties which are revealed by momentum spectroscopy as diffraction and fluorescence emission rings at size-specific k-vectors. The opening of these rotational-symmetric patterns scales with the hyperuniform correlation length parameter as predicted via the spectral function method.

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Title: Reciprocal space engineering with hyperuniform gold metasurfaces
Creators: Marta Castro-Lopez
Michele Gaio
Steven Sellers
George Gkantzounis
Marian Florescu
Riccardo Sapienza
Publication Details: arXiv (Cornell University)
Identifiers: 99941953302346
Academic Unit: School of Maths and Physics
Language: English
Resource Type: Preprint

Reciprocal space engineering with hyperuniform gold metasurfaces

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