Relation between 2D/3D chirality and the appearance of chiroptical effects in real nanostructures

Oriol Arteaga; Jordi Sancho-Parramon; Shane Nichols; Ben M. Maoz; Adolf Canillas; Salvador Bosch; Gil Markovich; Bart Kahr

doi:10.1364/OE.24.002242

Relation between 2D/3D chirality and the appearance of chiroptical effects in real nanostructures

Oriol Arteaga, Jordi Sancho-Parramon, Shane Nichols, Ben M. Maoz, Adolf Canillas, Salvador Bosch, Gil Markovich, Bart Kahr

Research output: Contribution to journal › Article › peer-review

73 Scopus citations

Abstract

The optical activity of fabricated metallic nanostructures is investigated by complete polarimetry. While lattices decorated with nanoscale gammadia etched in thin metallic films have been described as two dimensional, planar nanostructures, they are better described as quasi-planar structures with some three dimensional character. We find that the optical activity of these structures arises not only from the dissymmetric backing by a substrate but, more importantly, from the selective rounding of the nanostructure edges. A true chiroptical response in the far-field is only allowed when the gammadia contain these non-planar features. This is demonstrated by polarimetric measurements in conjunction with electrodynamical simulations based on the discrete dipole approximation that consider non-ideal gammadia. It is also shown that subtle planar dissymmetries in gammadia are sufficient to generate asymmetric transmission of circular polarized light.

Original language	English
Pages (from-to)	2242-2252
Number of pages	11
Journal	Optics Express
Volume	24
Issue number	3
DOIs	https://doi.org/10.1364/OE.24.002242
State	Published - 8 Feb 2016

Funding

Funders	Funder number
National Science Foundation	DMR-1105000, 1105000, DGE-12342536
European Commission	330513, PIIF-GA-2012-330513
Ministerio de Economía y Competitividad	CTQ2013-47401-C2-1-P, FIS2012-38244-C02-02

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10.1364/OE.24.002242

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abstract = "The optical activity of fabricated metallic nanostructures is investigated by complete polarimetry. While lattices decorated with nanoscale gammadia etched in thin metallic films have been described as two dimensional, planar nanostructures, they are better described as quasi-planar structures with some three dimensional character. We find that the optical activity of these structures arises not only from the dissymmetric backing by a substrate but, more importantly, from the selective rounding of the nanostructure edges. A true chiroptical response in the far-field is only allowed when the gammadia contain these non-planar features. This is demonstrated by polarimetric measurements in conjunction with electrodynamical simulations based on the discrete dipole approximation that consider non-ideal gammadia. It is also shown that subtle planar dissymmetries in gammadia are sufficient to generate asymmetric transmission of circular polarized light.",

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AU - Maoz, Ben M.

AU - Canillas, Adolf

AU - Bosch, Salvador

AU - Markovich, Gil

AU - Kahr, Bart

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AB - The optical activity of fabricated metallic nanostructures is investigated by complete polarimetry. While lattices decorated with nanoscale gammadia etched in thin metallic films have been described as two dimensional, planar nanostructures, they are better described as quasi-planar structures with some three dimensional character. We find that the optical activity of these structures arises not only from the dissymmetric backing by a substrate but, more importantly, from the selective rounding of the nanostructure edges. A true chiroptical response in the far-field is only allowed when the gammadia contain these non-planar features. This is demonstrated by polarimetric measurements in conjunction with electrodynamical simulations based on the discrete dipole approximation that consider non-ideal gammadia. It is also shown that subtle planar dissymmetries in gammadia are sufficient to generate asymmetric transmission of circular polarized light.

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Relation between 2D/3D chirality and the appearance of chiroptical effects in real nanostructures

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