Guided plasmonic modes in nanorod assemblies: strong electromagnetic coupling regime

Gregory Wurtz; Wayne Dickson; Daniel O'Connor; R. Atkinson; W. Hendren; P. Evans; R. Pollard; Anatoly Zayats

doi:10.1364/OE.16.007460

Guided plasmonic modes in nanorod assemblies: strong electromagnetic coupling regime

Gregory Wurtz, Wayne Dickson, Daniel O'Connor, R. Atkinson, W. Hendren, P. Evans, R. Pollard, Anatoly Zayats

Physics

Queen's University Belfast

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

112 Citations (Scopus)

Abstract

We demonstrate that the coupling between plasmonic modes of oriented metallic nanorods results in the formation of an extended (guided) plasmonic mode of the nanorod array. The electromagnetic field distribution associated to this mode is found to be concentrated between the nanorods within the assembly and propagates normally to the nanorod long axes, similar to a photonic mode waveguided by an anisotropic slab. This collective plasmonic mode determines the optical properties of nanorod assemblies and can be tuned in a wide spectral range by changing the nanorod array geometry. This geometry represents a unique opportunity for light guiding applications and manipulation at the nanoscale as well as sensing applications and development of molecular plasmonic devices. (C) 2008 Optical Society of America.

Original language	English
Pages (from-to)	7460-7470
Number of pages	11
Journal	OPTICS EXPRESS
Volume	16
Issue number	10
DOIs	https://doi.org/10.1364/OE.16.007460
Publication status	Published - 12 May 2008

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abstract = "We demonstrate that the coupling between plasmonic modes of oriented metallic nanorods results in the formation of an extended (guided) plasmonic mode of the nanorod array. The electromagnetic field distribution associated to this mode is found to be concentrated between the nanorods within the assembly and propagates normally to the nanorod long axes, similar to a photonic mode waveguided by an anisotropic slab. This collective plasmonic mode determines the optical properties of nanorod assemblies and can be tuned in a wide spectral range by changing the nanorod array geometry. This geometry represents a unique opportunity for light guiding applications and manipulation at the nanoscale as well as sensing applications and development of molecular plasmonic devices. (C) 2008 Optical Society of America.",

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AU - Wurtz, Gregory

AU - Dickson, Wayne

AU - O'Connor, Daniel

AU - Atkinson, R.

AU - Hendren, W.

AU - Evans, P.

AU - Pollard, R.

AU - Zayats, Anatoly

PY - 2008/5/12

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N2 - We demonstrate that the coupling between plasmonic modes of oriented metallic nanorods results in the formation of an extended (guided) plasmonic mode of the nanorod array. The electromagnetic field distribution associated to this mode is found to be concentrated between the nanorods within the assembly and propagates normally to the nanorod long axes, similar to a photonic mode waveguided by an anisotropic slab. This collective plasmonic mode determines the optical properties of nanorod assemblies and can be tuned in a wide spectral range by changing the nanorod array geometry. This geometry represents a unique opportunity for light guiding applications and manipulation at the nanoscale as well as sensing applications and development of molecular plasmonic devices. (C) 2008 Optical Society of America.

AB - We demonstrate that the coupling between plasmonic modes of oriented metallic nanorods results in the formation of an extended (guided) plasmonic mode of the nanorod array. The electromagnetic field distribution associated to this mode is found to be concentrated between the nanorods within the assembly and propagates normally to the nanorod long axes, similar to a photonic mode waveguided by an anisotropic slab. This collective plasmonic mode determines the optical properties of nanorod assemblies and can be tuned in a wide spectral range by changing the nanorod array geometry. This geometry represents a unique opportunity for light guiding applications and manipulation at the nanoscale as well as sensing applications and development of molecular plasmonic devices. (C) 2008 Optical Society of America.

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JO - OPTICS EXPRESS

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Guided plasmonic modes in nanorod assemblies: strong electromagnetic coupling regime

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