ACS Photonics
ACS Photonics
5 years ago

Probing Plasmon-NV0 Coupling at the Nanometer Scale with Photons and Fast Electrons

Probing Plasmon-NV0 Coupling at the Nanometer Scale with Photons and Fast Electrons
Yih Hong Lee, Sophie Meuret, Mathieu Kociak, Hugo Lourenço-Martins, Luiz Henrique Galvão Tizei, Xing Yi Ling, Huan-Cheng Chang, François Treussart
The local density of optical states governs an emitters’ lifetime and quantum yield through the Purcell effect. It can be modified by a surface plasmon electromagnetic field, but such a field has a spatial extension limited to a few hundreds of nanometers, complicating the use of optical methods to spatially probe emitter–plasmon coupling. Here we show that a combination of electron-based imaging, spectroscopies, and photon-based correlation spectroscopy enables measurement of the Purcell effect with nanometer and nanosecond spatiotemporal resolutions. Due to the large variability of radiative lifetimes of emitters in nanoparticles we relied on a statistical approach to probe the coupling between nitrogen-vacancy centers in nanodiamonds and surface plasmons in silver nanocubes. We quantified the Purcell effect by measuring the nitrogen-vacancy excited state lifetimes in a large number of either isolated nanodiamonds or nanodiamond-nanocube dimers and demonstrated a significant lifetime reduction for dimers.

Publisher URL: http://dx.doi.org/10.1021/acsphotonics.7b01093

DOI: 10.1021/acsphotonics.7b01093

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