"Nanoplasmonic Renormalization and Enhancement of Coulomb Interactions" by Maxim Durach

Selected Works of Anastasia Rusina

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Nanoplasmonic Renormalization and Enhancement of Coulomb Interactions

New Journal of Physics (2008)

Maxim Durach, Georgia Southern University
Anastasia Rusina, Georgia Southern University
V. I. Kilmov, Los Alamos National Laboratory
Mark I. Stockman, Georgia State University

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Abstract

In this paper, we propose a general and powerful theory of the plasmonic enhancement of the many-body phenomena resulting in a closed expression for the surface plasmon-dressed Coulomb interaction. We illustrate this theory by computing the dressed interaction explicitly for an important example of metal–dielectric nanoshells which exhibits a rich resonant behavior in magnitude and phase. This interaction is used to describe the nanoplasmonic-enhanced Förster resonant energy transfer (FRET) between nanocrystal quantum dots near a nanoshell.

Keywords

Plasmonic enhancement,
Many-body phenomena,
Surface plasmon-dressed Coulomb interaction,
Dressed interaction,
Metal-dielectric nanoshells,
FRET,
Nanocrystal quantum dots,
Nanoshell

Disciplines

Physics

Publication Date

October, 2008

Publisher Statement

Authors, their institutions and third parties all have the same rights to reuse articles published in New Journal of Physics in accordance with the Creative Commons Attribution 3.0 Unported (CC=BY) license. This allows the articles to be shared, adapted and made commercial use of subject to appropriate attribution. Article obtained from the New Journal of Physics.

Citation Information

Maxim Durach, Anastasia Rusina, V. I. Kilmov, and Mark I. Stockman. "Nanoplasmonic Renormalization and Enhancement of Coulomb Interactions" New Journal of Physics 10.105011 (2008).
doi:http://dx.doi.org/10.1088/1367-2630/10/10/105011