Enhancement of and interference among higher order multipole transitions in molecules near a plasmonic nanoantenna

Enhancement of and interference among higher order multipole transitions in molecules near a plasmonic nanoantenna

Here, the authors study the interference effects between different multipole transition channels by coupling a molecule to a plasmonic nanoantenna. Controlling different emission pathways of quantum emitters allows selective enhancement or suppression of the transition rate through devoted illuminat...

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Main Authors: Evgenia Rusak, Jakob Straubel, Piotr Gładysz, Mirko Göddel, Andrzej Kędziorski, Michael Kühn, Florian Weigend, Carsten Rockstuhl, Karolina Słowik
Format: Article
Language:English
Published: Nature Publishing Group 2019-12-01
Series:Nature Communications
Online Access:https://doi.org/10.1038/s41467-019-13748-4
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spelling doaj-37742460c1874900820ecbe1b3b550c82021-05-11T12:14:30ZengNature Publishing GroupNature Communications2041-17232019-12-011011810.1038/s41467-019-13748-4Enhancement of and interference among higher order multipole transitions in molecules near a plasmonic nanoantennaEvgenia Rusak0Jakob Straubel1Piotr Gładysz2Mirko Göddel3Andrzej Kędziorski4Michael Kühn5Florian Weigend6Carsten Rockstuhl7Karolina Słowik8Institute of Theoretical Solid State Physics, Karlsruhe Institute of TechnologyInstitute of Theoretical Solid State Physics, Karlsruhe Institute of TechnologyInstitute of Physics, Faculty of Physics, Astronomy and Informatics, Nicolaus Copernicus UniversityInstitute of Theoretical Solid State Physics, Karlsruhe Institute of TechnologyInstitute of Physics, Faculty of Physics, Astronomy and Informatics, Nicolaus Copernicus UniversityInstitute of Physical Chemistry, Karlsruhe Institute of TechnologyInstitute of Nanotechnology, Karlsruhe Institute of TechnologyInstitute of Theoretical Solid State Physics, Karlsruhe Institute of TechnologyInstitute of Physics, Faculty of Physics, Astronomy and Informatics, Nicolaus Copernicus UniversityHere, the authors study the interference effects between different multipole transition channels by coupling a molecule to a plasmonic nanoantenna. Controlling different emission pathways of quantum emitters allows selective enhancement or suppression of the transition rate through devoted illumination schemes.https://doi.org/10.1038/s41467-019-13748-4
collection DOAJ
language English
format Article
sources DOAJ
author Evgenia Rusak
Jakob Straubel
Piotr Gładysz
Mirko Göddel
Andrzej Kędziorski
Michael Kühn
Florian Weigend
Carsten Rockstuhl
Karolina Słowik
spellingShingle Evgenia Rusak
Jakob Straubel
Piotr Gładysz
Mirko Göddel
Andrzej Kędziorski
Michael Kühn
Florian Weigend
Carsten Rockstuhl
Karolina Słowik
Enhancement of and interference among higher order multipole transitions in molecules near a plasmonic nanoantenna
Nature Communications
author_facet Evgenia Rusak
Jakob Straubel
Piotr Gładysz
Mirko Göddel
Andrzej Kędziorski
Michael Kühn
Florian Weigend
Carsten Rockstuhl
Karolina Słowik
author_sort Evgenia Rusak
title Enhancement of and interference among higher order multipole transitions in molecules near a plasmonic nanoantenna
title_short Enhancement of and interference among higher order multipole transitions in molecules near a plasmonic nanoantenna
title_full Enhancement of and interference among higher order multipole transitions in molecules near a plasmonic nanoantenna
title_fullStr Enhancement of and interference among higher order multipole transitions in molecules near a plasmonic nanoantenna
title_full_unstemmed Enhancement of and interference among higher order multipole transitions in molecules near a plasmonic nanoantenna
title_sort enhancement of and interference among higher order multipole transitions in molecules near a plasmonic nanoantenna
publisher Nature Publishing Group
series Nature Communications
issn 2041-1723
publishDate 2019-12-01
description Here, the authors study the interference effects between different multipole transition channels by coupling a molecule to a plasmonic nanoantenna. Controlling different emission pathways of quantum emitters allows selective enhancement or suppression of the transition rate through devoted illumination schemes.
url https://doi.org/10.1038/s41467-019-13748-4
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