On-demand optical properties of quantum emitters using plasmonic nanoantennas
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Mikkelsen, MH
Published in: 2014 IEEE Photonics Conference, IPC 2014
December 22, 2014
We demonstrate a colloidally synthesized and tunable plasmonic platform for giant fluorescence enhancement and greatly enhanced spontaneous emission rates of embedded fluorophores. Full-wave simulations incorporating the nanoscale environment accurately predict the experimentally observed emission dynamics.
Duke Scholars
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2014 IEEE Photonics Conference, IPC 2014
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Publication Date
December 22, 2014
Start / End Page
544 / 545
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Mikkelsen, M. H. (2014). On-demand optical properties of quantum emitters using plasmonic nanoantennas. In 2014 IEEE Photonics Conference, IPC 2014 (pp. 544–545). https://doi.org/10.1109/IPCon.2014.6995491
Mikkelsen, M. H. “On-demand optical properties of quantum emitters using plasmonic nanoantennas.” In 2014 IEEE Photonics Conference, IPC 2014, 544–45, 2014. https://doi.org/10.1109/IPCon.2014.6995491.
Mikkelsen MH. On-demand optical properties of quantum emitters using plasmonic nanoantennas. In: 2014 IEEE Photonics Conference, IPC 2014. 2014. p. 544–5.
Mikkelsen, M. H. “On-demand optical properties of quantum emitters using plasmonic nanoantennas.” 2014 IEEE Photonics Conference, IPC 2014, 2014, pp. 544–45. Scopus, doi:10.1109/IPCon.2014.6995491.
Mikkelsen MH. On-demand optical properties of quantum emitters using plasmonic nanoantennas. 2014 IEEE Photonics Conference, IPC 2014. 2014. p. 544–545.
Published In
2014 IEEE Photonics Conference, IPC 2014
DOI
Publication Date
December 22, 2014
Start / End Page
544 / 545