Surface plasmon hybridization and exciton coupling
| Data(s) |
2012
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| Resumo |
We derive a semianalytical model to describe the interaction of a single photon emitter and a collection of arbitrarily shaped metal nanoparticles. The theory treats the metal nanoparticles classically within the electrostatic eigenmode method, wherein the surface plasmon resonances of collections of nanoparticles are represented by the hybridization of the plasmon modes of the noninteracting particles. The single photon emitter is represented by a quantum mechanical two-level system that exhibits line broadening due to a finite spontaneous decay rate. Plasmon-emitter coupling is described by solving the resulting Bloch equations. We illustrate the theory by studying model systems consisting of a single emitter coupled to one, two, and three nanoparticles, and we also compare the predictions of our model to published experimental data. ©2012 American Physical Society. |
| Formato |
application/pdf |
| Identificador | |
| Publicador |
American Physical Society |
| Relação |
http://eprints.qut.edu.au/52691/1/exciton_lspr_coupling_%284%29.pdf DOI:10.1103/PhysRevB.86.035411 Gómez, Daniel E., Roberts, Ann, Davis, Timothy J., & Vernon, Kristy C. (2012) Surface plasmon hybridization and exciton coupling. Physical Review B - Condensed Matter and Materials Physics, 86(3), 035411-1. |
| Direitos |
Copyright 2012 American Physical Society (4) The right to post and update the Article on free-access e-print servers as long as files prepared and/or formatted by APS or its vendors are not used for that purpose. Any such posting made or updated after acceptance of the Article for publication shall include a link to the online abstract in the APS journal or to the entry page of the journal. If the author wishes the APS-prepared version to be used for an online posting other than on the author(s)’ or employer’s website, APS permission is required; if permission is granted, APS will provide the Article as it was published in the journal, and use will be subject to APS terms and conditions. |
| Fonte |
School of Chemistry, Physics & Mechanical Engineering; Science & Engineering Faculty |
| Palavras-Chave | #090000 ENGINEERING |
| Tipo |
Journal Article |
