2011
DOI: 10.1021/nl103738d
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Bright Unidirectional Fluorescence Emission of Molecules in a Nanoaperture with Plasmonic Corrugations

Abstract: Controlling the fluorescence emission from nanoscale quantum emitters is a key element for a wide range of applications, from efficient analytical sensing to quantum information processing. Enhancing the fluorescence intensity and narrowing the emission directivity are both essential features to achieve a full control of fluorescence, yet this is rarely obtained simultaneously with optical nanoantennas. Here we report that gold nanoapertures surrounded by periodic corrugations transform standard fluorescent mo… Show more

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Cited by 278 publications
(353 citation statements)
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“…The time interval for fit is set to ensure that more than 85% of the detected count events are taken into account in the region of interest. As shown already in some of our earlier work [40,45,48] and by the results in Fig. 2a, a single exponential fit is a satisfactory approximation to the fluorescence decay traces in nanoapertures (Fig.…”
Section: Methodssupporting
confidence: 84%
“…The time interval for fit is set to ensure that more than 85% of the detected count events are taken into account in the region of interest. As shown already in some of our earlier work [40,45,48] and by the results in Fig. 2a, a single exponential fit is a satisfactory approximation to the fluorescence decay traces in nanoapertures (Fig.…”
Section: Methodssupporting
confidence: 84%
“…Therefore, while single particles induce stronger fluorescence signal quenching as the distance decreases 13 , dimers exhibit higher count rates for shorter spacings. Dye molecules with low initial quantum yield would allow larger count rate enhancements 10,28 but their initial shorter lifetimes would forbid the measurement of high Γ/〈Γ 0 〉 enhancements as given in Fig. 2.…”
Section: Discussionmentioning
confidence: 99%
“…2. In practice, experimental estimation of the antenna efficiencies would require knowing precisely the orientation of the DNA linkers in the microchamber or averaged fluorescence correlation spectroscopy measurements 28 .…”
Section: Discussionmentioning
confidence: 99%
“…5 This large Purcell factor, which is dened as the decay rate modication as compared to vacuum, is achieved because of the large dipole moment of the coupled system antenna-emitter and the large mode density increase at the emitter location. Both emission rates and directionality 6,7 can be designed for sources in the near eld of the metal structure. The major drawback of metallic particles is the large optical absorption which is driving the search for alternative geometries and materials.…”
Section: Introductionmentioning
confidence: 99%