Beaming of Helical Light from Plasmonic Vortices via Adiabatically Tapered Nanotip

Denis Garoli; Pierfrancesco Zilio; Yuri Gorodetski; Francesco Tantussi; Francesco De Angelis

doi:10.1021/acs.nanolett.6b03359

Beaming of Helical Light from Plasmonic Vortices via Adiabatically Tapered Nanotip

Denis Garoli
, Pierfrancesco Zilio
, Yuri Gorodetski
, Francesco Tantussi
, Francesco De Angelis

Department of Mechanical Engineering and Mechatronics

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

55 Scopus citations

Abstract

We demonstrate the generation of far-field propagating optical beams with a desired orbital angular momentum by using a smooth optical-mode transformation between a plasmonic vortex and free-space Laguerre-Gaussian modes. This is obtained by means of an adiabatically tapered gold tip surrounded by a spiral slit. The proposed physical model, backed up by the numerical study, brings about an optimized structure that is fabricated by using a highly reproducible secondary electron lithography technique. Optical measurements of the structure excellently agree with the theoretically predicted far-field distributions. This architecture provides a unique platform for a localized excitation of plasmonic vortices followed by its beaming.

Original language	English
Pages (from-to)	6636-6643
Number of pages	8
Journal	Nano Letters
Volume	16
Issue number	10
DOIs	https://doi.org/10.1021/acs.nanolett.6b03359
State	Published - 12 Oct 2016

Keywords

Laguerre Gaussian beam
Plasmonic vortex
orbital angular momentum
singular optics
spin-orbit coupling

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10.1021/acs.nanolett.6b03359

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title = "Beaming of Helical Light from Plasmonic Vortices via Adiabatically Tapered Nanotip",

abstract = "We demonstrate the generation of far-field propagating optical beams with a desired orbital angular momentum by using a smooth optical-mode transformation between a plasmonic vortex and free-space Laguerre-Gaussian modes. This is obtained by means of an adiabatically tapered gold tip surrounded by a spiral slit. The proposed physical model, backed up by the numerical study, brings about an optimized structure that is fabricated by using a highly reproducible secondary electron lithography technique. Optical measurements of the structure excellently agree with the theoretically predicted far-field distributions. This architecture provides a unique platform for a localized excitation of plasmonic vortices followed by its beaming.",

keywords = "Laguerre Gaussian beam, Plasmonic vortex, orbital angular momentum, singular optics, spin-orbit coupling",

author = "Denis Garoli and Pierfrancesco Zilio and Yuri Gorodetski and Francesco Tantussi and \{De Angelis\}, Francesco",

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AU - Garoli, Denis

AU - Zilio, Pierfrancesco

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AU - Tantussi, Francesco

AU - De Angelis, Francesco

PY - 2016/10/12

Y1 - 2016/10/12

N2 - We demonstrate the generation of far-field propagating optical beams with a desired orbital angular momentum by using a smooth optical-mode transformation between a plasmonic vortex and free-space Laguerre-Gaussian modes. This is obtained by means of an adiabatically tapered gold tip surrounded by a spiral slit. The proposed physical model, backed up by the numerical study, brings about an optimized structure that is fabricated by using a highly reproducible secondary electron lithography technique. Optical measurements of the structure excellently agree with the theoretically predicted far-field distributions. This architecture provides a unique platform for a localized excitation of plasmonic vortices followed by its beaming.

AB - We demonstrate the generation of far-field propagating optical beams with a desired orbital angular momentum by using a smooth optical-mode transformation between a plasmonic vortex and free-space Laguerre-Gaussian modes. This is obtained by means of an adiabatically tapered gold tip surrounded by a spiral slit. The proposed physical model, backed up by the numerical study, brings about an optimized structure that is fabricated by using a highly reproducible secondary electron lithography technique. Optical measurements of the structure excellently agree with the theoretically predicted far-field distributions. This architecture provides a unique platform for a localized excitation of plasmonic vortices followed by its beaming.

KW - Laguerre Gaussian beam

KW - Plasmonic vortex

KW - orbital angular momentum

KW - singular optics

KW - spin-orbit coupling

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JO - Nano Letters

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Beaming of Helical Light from Plasmonic Vortices via Adiabatically Tapered Nanotip

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