Diamond nanophotonics

We demonstrate the coupling of single color centers in diamond to plasmonic and dielectric photonic structures to realize novel nanophotonic devices. Nanometer spatial control in the creation of single color centers in diamond is achieved by implantation of nitrogen atoms through high-aspect-ratio c...

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Autores principales: Beha, Katja, Fedder, Helmut, Wolfer, Marco, Becker, Merle C, Siyushev, Petr, Jamali, Mohammad, Batalov, Anton, Hinz, Christopher, Hees, Jakob, Kirste, Lutz, Obloh, Harald, Gheeraert, Etienne, Naydenov, Boris, Jakobi, Ingmar, Dolde, Florian, Pezzagna, Sébastien, Twittchen, Daniel, Markham, Matthew, Dregely, Daniel, Giessen, Harald, Meijer, Jan, Jelezko, Fedor, Nebel, Christoph E, Bratschitsch, Rudolf, Leitenstorfer, Alfred, Wrachtrup, Jörg
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Beilstein-Institut 2012
Materias:
Full Research Paper
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3554578/
https://www.ncbi.nlm.nih.gov/pubmed/23365803
http://dx.doi.org/10.3762/bjnano.3.100
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author Beha, Katja
Fedder, Helmut
Wolfer, Marco
Becker, Merle C
Siyushev, Petr
Jamali, Mohammad
Batalov, Anton
Hinz, Christopher
Hees, Jakob
Kirste, Lutz
Obloh, Harald
Gheeraert, Etienne
Naydenov, Boris
Jakobi, Ingmar
Dolde, Florian
Pezzagna, Sébastien
Twittchen, Daniel
Markham, Matthew
Dregely, Daniel
Giessen, Harald
Meijer, Jan
Jelezko, Fedor
Nebel, Christoph E
Bratschitsch, Rudolf
Leitenstorfer, Alfred
Wrachtrup, Jörg
author_facet Beha, Katja
Fedder, Helmut
Wolfer, Marco
Becker, Merle C
Siyushev, Petr
Jamali, Mohammad
Batalov, Anton
Hinz, Christopher
Hees, Jakob
Kirste, Lutz
Obloh, Harald
Gheeraert, Etienne
Naydenov, Boris
Jakobi, Ingmar
Dolde, Florian
Pezzagna, Sébastien
Twittchen, Daniel
Markham, Matthew
Dregely, Daniel
Giessen, Harald
Meijer, Jan
Jelezko, Fedor
Nebel, Christoph E
Bratschitsch, Rudolf
Leitenstorfer, Alfred
Wrachtrup, Jörg
author_sort Beha, Katja
collection PubMed
description We demonstrate the coupling of single color centers in diamond to plasmonic and dielectric photonic structures to realize novel nanophotonic devices. Nanometer spatial control in the creation of single color centers in diamond is achieved by implantation of nitrogen atoms through high-aspect-ratio channels in a mica mask. Enhanced broadband single-photon emission is demonstrated by coupling nitrogen–vacancy centers to plasmonic resonators, such as metallic nanoantennas. Improved photon-collection efficiency and directed emission is demonstrated by solid immersion lenses and micropillar cavities. Thereafter, the coupling of diamond nanocrystals to the guided modes of micropillar resonators is discussed along with experimental results. Finally, we present a gas-phase-doping approach to incorporate color centers based on nickel and tungsten, in situ into diamond using microwave-plasma-enhanced chemical vapor deposition. The fabrication of silicon–vacancy centers in nanodiamonds by microwave-plasma-enhanced chemical vapor deposition is discussed in addition.
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spelling pubmed-35545782013-01-30 Diamond nanophotonics Beha, Katja Fedder, Helmut Wolfer, Marco Becker, Merle C Siyushev, Petr Jamali, Mohammad Batalov, Anton Hinz, Christopher Hees, Jakob Kirste, Lutz Obloh, Harald Gheeraert, Etienne Naydenov, Boris Jakobi, Ingmar Dolde, Florian Pezzagna, Sébastien Twittchen, Daniel Markham, Matthew Dregely, Daniel Giessen, Harald Meijer, Jan Jelezko, Fedor Nebel, Christoph E Bratschitsch, Rudolf Leitenstorfer, Alfred Wrachtrup, Jörg Beilstein J Nanotechnol Full Research Paper We demonstrate the coupling of single color centers in diamond to plasmonic and dielectric photonic structures to realize novel nanophotonic devices. Nanometer spatial control in the creation of single color centers in diamond is achieved by implantation of nitrogen atoms through high-aspect-ratio channels in a mica mask. Enhanced broadband single-photon emission is demonstrated by coupling nitrogen–vacancy centers to plasmonic resonators, such as metallic nanoantennas. Improved photon-collection efficiency and directed emission is demonstrated by solid immersion lenses and micropillar cavities. Thereafter, the coupling of diamond nanocrystals to the guided modes of micropillar resonators is discussed along with experimental results. Finally, we present a gas-phase-doping approach to incorporate color centers based on nickel and tungsten, in situ into diamond using microwave-plasma-enhanced chemical vapor deposition. The fabrication of silicon–vacancy centers in nanodiamonds by microwave-plasma-enhanced chemical vapor deposition is discussed in addition. Beilstein-Institut 2012-12-21 /pmc/articles/PMC3554578/ /pubmed/23365803 http://dx.doi.org/10.3762/bjnano.3.100 Text en Copyright © 2012, Beha et al. https://creativecommons.org/licenses/by/2.0https://www.beilstein-journals.org/bjnano/termsThis is an Open Access article under the terms of the Creative Commons Attribution License (https://creativecommons.org/licenses/by/2.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited. The license is subject to the Beilstein Journal of Nanotechnology terms and conditions: (https://www.beilstein-journals.org/bjnano/terms)
spellingShingle Full Research Paper
Beha, Katja
Fedder, Helmut
Wolfer, Marco
Becker, Merle C
Siyushev, Petr
Jamali, Mohammad
Batalov, Anton
Hinz, Christopher
Hees, Jakob
Kirste, Lutz
Obloh, Harald
Gheeraert, Etienne
Naydenov, Boris
Jakobi, Ingmar
Dolde, Florian
Pezzagna, Sébastien
Twittchen, Daniel
Markham, Matthew
Dregely, Daniel
Giessen, Harald
Meijer, Jan
Jelezko, Fedor
Nebel, Christoph E
Bratschitsch, Rudolf
Leitenstorfer, Alfred
Wrachtrup, Jörg
Diamond nanophotonics
title Diamond nanophotonics
title_full Diamond nanophotonics
title_fullStr Diamond nanophotonics
title_full_unstemmed Diamond nanophotonics
title_short Diamond nanophotonics
title_sort diamond nanophotonics
topic Full Research Paper
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3554578/
https://www.ncbi.nlm.nih.gov/pubmed/23365803
http://dx.doi.org/10.3762/bjnano.3.100
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