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W2802955241 startingPage "2189" @default.
W2802955241 abstract "The control of the spontaneous emission properties of quantum emitters with limited losses by near-field coupling with plasmons-supporting nanostructures is one of the keys for next-generation high-efficiency and high-coherence plasmonic devices. In the present work, gold nanohole arrays are demonstrated to be an effective plasmonic system for controlling radiative rate and quantum efficiency of the 1540 nm emission of Er3+ ions embedded in silica. Finite element method electrodynamic simulations were used to describe the interaction between dipolar Er3+ emitters and the nanohole arrays. The results are in agreement with those of photoluminescence measurements performed in different coupling configurations. Particularly, we demonstrated that owing to the combination of strong emission enhancement and low level of ohmic losses in the metal, nanohole arrays are able to enhance the far-field photon yield up to 74%. This in turn is related to an extremely high far-field quantum efficiency: more than 90% of the emitted photons reach the far-field for the most efficient configurations investigated in which the extraordinary optical transmission peak of the nanohole array is matched with the Er3+ emission." @default.
W2802955241 created "2018-05-17" @default.
W2802955241 creator A5000497245 @default.
W2802955241 creator A5012118992 @default.
W2802955241 creator A5025291204 @default.
W2802955241 creator A5041961921 @default.
W2802955241 creator A5070569569 @default.
W2802955241 date "2018-04-22" @default.
W2802955241 modified "2023-10-18" @default.
W2802955241 title "Emission Rate Modification and Quantum Efficiency Enhancement of Er<sup>3+</sup> Emitters by Near-Field Coupling with Nanohole Arrays" @default.
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W2802955241 doi "https://doi.org/10.1021/acsphotonics.8b00042" @default.
W2802955241 hasPublicationYear "2018" @default.
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