等离子体介导的荧光发射器相互作用中的弱耦合和强耦合

Plasmonics: Design, Materials, Fabrication, Characterization, and Applications XIX Pub Date : 2021-08-01 DOI:10.1117/12.2595150

V. Krachmalnicoff, Camilo R. Perez de la Vega, K. Chevrier, Y. D. Wilde, J. Benoit, C. Symonds, A. Gassenq, J. Bellessa

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引用次数: 0

摘要

在光-物质相互作用的弱耦合状态下，荧光发射器的自发发射可以通过将其放置在纳米结构环境(如等离子体结构)中进行调谐。在强耦合状态下，发射体与表面等离子体的杂化产生空间扩展的相干态，称为极化子。这些状态的相干长度为几微米。我们展示了荧光量子点与表面等离子体激元弱耦合如何与j聚集的有机分子与表面等离子体激元强耦合相互作用。我们研究了这种相互作用是如何改变的调谐量子点的波长沿极化子带。

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Weak and strong coupling in plasmon mediated fluorescent emitter interaction

In the weak coupling regime of light-matter interaction, the spontaneous emission of a fluorescent emitter can be tuned by placing it in a nanostructured environment such as plasmonic structures. In the strong coupling regime, the hybridization of the emitters with surface plasmons generates spatially extended coherent states called polaritons. These states span over a coherence length of several microns. We show how fluorescent quantum dots weakly coupled to a surface plasmon interact with J-aggregated organic molecules strongly coupled with a surface plasmon. We study how such interaction changes by tuning the wavelength of the quantum dots along the polariton bands.

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Plasmonics: Design, Materials, Fabrication, Characterization, and Applications XIX

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