Electrodynamic calculations of spontaneous emission coupled to metal nanostructures of arbitrary shape: nanoantenna-enhanced fluorescence
Electrodynamic calculations of spontaneous emission coupled to metal nanostructures of arbitrary shape: nanoantenna-enhanced fluorescence
We present a theoretical study of the spontaneous emission of an optical emitter close to a metal nanostructure of arbitrary shape. The modification of the corresponding radiative and nonradiative decay rates and resulting quantum efficiencies, expressed on the basis of a semiclassical dipole model in terms of the local plasmonic mode density, is calculated by means of the rigorous formulation of the Green's theorem surface integral equations.
Metal losses and the intrinsic nonradiative decay rate of the molecules are properly considered, presenting relationships valid in general for arbitrary intrinsic quantum yields. Resonant enhancement of the radiative and nonradiative decay rates of a fluorescent molecule is observed when coupled to an optical dimer nanoantenna.
Upon varying the dipole position, it is possible to obtain a predominant enhancement of radiative decay rates over the nonradiative counterpart, resulting in an increase of the internal quantum efficiency. For emitters positioned in the gap, quantum efficiency enhancements from an intrinsic value of 1% to ~75% are possible.
1569-1577
Giannini, Vincenzo
b29348aa-7bd6-4359-8409-86f6f791e111
Sánchez-Gil, José A.
cbe688ad-a744-4215-bf62-7d09d422d1cf
Muskens, Otto L.
2284101a-f9ef-4d79-8951-a6cda5bfc7f9
Rivas, Jaime Gómez
2e9f23a2-d5b0-4e3f-bdda-bb65d3dfa560
1 August 2009
Giannini, Vincenzo
b29348aa-7bd6-4359-8409-86f6f791e111
Sánchez-Gil, José A.
cbe688ad-a744-4215-bf62-7d09d422d1cf
Muskens, Otto L.
2284101a-f9ef-4d79-8951-a6cda5bfc7f9
Rivas, Jaime Gómez
2e9f23a2-d5b0-4e3f-bdda-bb65d3dfa560
Giannini, Vincenzo, Sánchez-Gil, José A., Muskens, Otto L. and Rivas, Jaime Gómez
(2009)
Electrodynamic calculations of spontaneous emission coupled to metal nanostructures of arbitrary shape: nanoantenna-enhanced fluorescence.
Journal of the Optical Society of America B, 26 (8), .
(doi:10.1364/JOSAB.26.001569).
Abstract
We present a theoretical study of the spontaneous emission of an optical emitter close to a metal nanostructure of arbitrary shape. The modification of the corresponding radiative and nonradiative decay rates and resulting quantum efficiencies, expressed on the basis of a semiclassical dipole model in terms of the local plasmonic mode density, is calculated by means of the rigorous formulation of the Green's theorem surface integral equations.
Metal losses and the intrinsic nonradiative decay rate of the molecules are properly considered, presenting relationships valid in general for arbitrary intrinsic quantum yields. Resonant enhancement of the radiative and nonradiative decay rates of a fluorescent molecule is observed when coupled to an optical dimer nanoantenna.
Upon varying the dipole position, it is possible to obtain a predominant enhancement of radiative decay rates over the nonradiative counterpart, resulting in an increase of the internal quantum efficiency. For emitters positioned in the gap, quantum efficiency enhancements from an intrinsic value of 1% to ~75% are possible.
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Published date: 1 August 2009
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Local EPrints ID: 144319
URI: http://eprints.soton.ac.uk/id/eprint/144319
ISSN: 0740-3224
PURE UUID: 702f47f4-9f50-4a1c-871a-ab031820a454
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Date deposited: 14 Apr 2010 09:55
Last modified: 14 Mar 2024 02:55
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Contributors
Author:
Vincenzo Giannini
Author:
José A. Sánchez-Gil
Author:
Jaime Gómez Rivas
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