Generalized circuit model for coupled plasmonic systems

We develop an analytic circuit model for coupled plasmonic dimers separated by small gaps that provides a complete account of the optical resonance wavelength. Using a suitable equivalent circuit, it shows how partially conducting links can be treated and provides quantitative agreement with both ex...

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Published inarXiv.org
Main Authors Benz, Felix, de Nijs, Bart, Tserkezis, Christos, Chikkaraddy, Rohit, Sigle, Daniel O, Pukenas, Laurynas, Evans, Stephen D, Aizpurua, Javier, Baumberg, Jeremy J
Format Paper Journal Article
LanguageEnglish
Published Ithaca Cornell University Library, arXiv.org 17.12.2015
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Abstract We develop an analytic circuit model for coupled plasmonic dimers separated by small gaps that provides a complete account of the optical resonance wavelength. Using a suitable equivalent circuit, it shows how partially conducting links can be treated and provides quantitative agreement with both experiment and full electromagnetic simulations. The model highlights how in the conducting regime, the kinetic inductance of the linkers set the spectral blue-shifts of the coupled plasmon.
AbstractList Opt. Express 23, 33255-33269 (2015) We develop an analytic circuit model for coupled plasmonic dimers separated by small gaps that provides a complete account of the optical resonance wavelength. Using a suitable equivalent circuit, it shows how partially conducting links can be treated and provides quantitative agreement with both experiment and full electromagnetic simulations. The model highlights how in the conducting regime, the kinetic inductance of the linkers set the spectral blue-shifts of the coupled plasmon.
We develop an analytic circuit model for coupled plasmonic dimers separated by small gaps that provides a complete account of the optical resonance wavelength. Using a suitable equivalent circuit, it shows how partially conducting links can be treated and provides quantitative agreement with both experiment and full electromagnetic simulations. The model highlights how in the conducting regime, the kinetic inductance of the linkers set the spectral blue-shifts of the coupled plasmon.
Author Chikkaraddy, Rohit
Aizpurua, Javier
de Nijs, Bart
Benz, Felix
Tserkezis, Christos
Sigle, Daniel O
Pukenas, Laurynas
Evans, Stephen D
Baumberg, Jeremy J
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BackLink https://doi.org/10.48550/arXiv.1512.05521$$DView paper in arXiv
https://doi.org/10.1364/OE.23.033255$$DView published paper (Access to full text may be restricted)
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Snippet We develop an analytic circuit model for coupled plasmonic dimers separated by small gaps that provides a complete account of the optical resonance wavelength....
Opt. Express 23, 33255-33269 (2015) We develop an analytic circuit model for coupled plasmonic dimers separated by small gaps that provides a complete account...
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SubjectTerms Circuits
Computer simulation
Dimers
Equivalent circuits
Inductance
Optical resonance
Physics - Optics
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Title Generalized circuit model for coupled plasmonic systems
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