| Literature DB >> 30423245 |
Robert Czaplicki1,2, Antti Kiviniemi1, Mikko J Huttunen1, Xiaorun Zang1, Timo Stolt1, Ismo Vartiainen3, Jérémy Butet4, Markku Kuittinen3, Olivier J F Martin4, Martti Kauranen1.
Abstract
We investigate optical second-harmonic generation (SHG) from metasurfaces where noncentrosymmetric V-shaped gold nanoparticles are ordered into regular array configurations. In contrast to expectations, a substantial enhancement of the SHG signal is observed when the number density of the particles in the array is reduced. More specifically, by halving the number density, we obtain over 5-fold enhancement in SHG intensity. This striking result is attributed to favorable interparticle interactions mediated by the lattice, where surface-lattice resonances lead to spectral narrowing of the plasmon resonances. Importantly, however, the results cannot be explained by the improved quality of the plasmon resonance alone. Instead, the lattice interactions also lead to further enhancement of the local fields at the particles. The experimental observations agree very well with results obtained from numerical simulations including lattice interactions.Keywords: Metal nanoparticles; interparticle interactions; nonlinear optics; plasmonic resonances; second-harmonic generation; surface-lattice resonances
Year: 2018 PMID: 30423245 DOI: 10.1021/acs.nanolett.8b03378
Source DB: PubMed Journal: Nano Lett ISSN: 1530-6984 Impact factor: 11.189