Spontaneous emission in non-local materials

Pavel Ginzburg; Diane J Roth; Mazhar E Nasir; Paulina Segovia; Alexey V Krasavin; James Levitt; Liisa M Hirvonen; Brian Wells; Klaus Suhling; David Richards; Viktor A Podolskiy; Anatoly V Zayats

doi:10.1038/lsa.2016.273

Spontaneous emission in non-local materials

Pavel Ginzburg^*, Diane J Roth, Mazhar E Nasir, Paulina Segovia, Alexey V Krasavin, James Levitt, Liisa M Hirvonen, Brian Wells, Klaus Suhling, David Richards, Viktor A Podolskiy, Anatoly V Zayats

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

84 Citations (Scopus)

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Abstract

Light-matter interactions can be strongly modified by the surrounding environment. Here, we report on the first experimental observation of molecular spontaneous emission inside a highly non-local metamaterial based on a plasmonic nanorod assembly. We show that the emission process is dominated not only by the topology of its local effective medium dispersion, but also by the non-local response of the composite, so that metamaterials with different geometric parameters but the same local effective medium properties exhibit different Purcell factors. A record-high enhancement of a decay rate is observed, in agreement with the developed quantitative description of the Purcell effect in a non-local medium. An engineered material non-locality introduces an additional degree of freedom into quantum electrodynamics, enabling new applications in quantum information processing, photochemistry, imaging and sensing with macroscopic composites.

Original language	English
Article number	e16273
Number of pages	237
Journal	Light: Science & Applications
Volume	6
Issue number	6
Early online date	19 Dec 2016
DOIs	https://doi.org/10.1038/lsa.2016.273 https://doi.org/10.1038/lsa.2016.273
Publication status	Published - 2 Jun 2017

Keywords

Composite electromagnetic materials
Non-local optical properties
Plasmonic metamaterials
Quantum electrodynamics
Spontaneous emission

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10.1038/lsa.2016.273Licence: CC BY-NC-ND
10.1038/lsa.2016.273Licence: CC BY-NC-ND

Spontaneous emission in non-local_GINZBURG_Publishedonline2June2017_GOLD VoR (CC BY-NC-ND)Final published version, 2.15 MBLicence: CC BY-NC-ND

Cite this

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title = "Spontaneous emission in non-local materials",

abstract = "Light-matter interactions can be strongly modified by the surrounding environment. Here, we report on the first experimental observation of molecular spontaneous emission inside a highly non-local metamaterial based on a plasmonic nanorod assembly. We show that the emission process is dominated not only by the topology of its local effective medium dispersion, but also by the non-local response of the composite, so that metamaterials with different geometric parameters but the same local effective medium properties exhibit different Purcell factors. A record-high enhancement of a decay rate is observed, in agreement with the developed quantitative description of the Purcell effect in a non-local medium. An engineered material non-locality introduces an additional degree of freedom into quantum electrodynamics, enabling new applications in quantum information processing, photochemistry, imaging and sensing with macroscopic composites.",

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AU - Roth, Diane J

AU - Nasir, Mazhar E

AU - Segovia, Paulina

AU - Krasavin, Alexey V

AU - Levitt, James

AU - Hirvonen, Liisa M

AU - Wells, Brian

AU - Suhling, Klaus

AU - Richards, David

AU - Podolskiy, Viktor A

AU - Zayats, Anatoly V

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AB - Light-matter interactions can be strongly modified by the surrounding environment. Here, we report on the first experimental observation of molecular spontaneous emission inside a highly non-local metamaterial based on a plasmonic nanorod assembly. We show that the emission process is dominated not only by the topology of its local effective medium dispersion, but also by the non-local response of the composite, so that metamaterials with different geometric parameters but the same local effective medium properties exhibit different Purcell factors. A record-high enhancement of a decay rate is observed, in agreement with the developed quantitative description of the Purcell effect in a non-local medium. An engineered material non-locality introduces an additional degree of freedom into quantum electrodynamics, enabling new applications in quantum information processing, photochemistry, imaging and sensing with macroscopic composites.

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Spontaneous emission in non-local materials

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