L. Rogobete scite author profile

We investigate the coupling of a single molecule to a single spherical gold nanoparticle acting as a nanoantenna. Using scanning probe technology, we position the particle in front of the molecule with nanometer accuracy and measure a strong enhancement of more than 20 times in the fluorescence intensity simultaneous to a 20-fold shortening of the excited state lifetime. Comparisons with three-dimensional calculations guide us to decipher the contributions of the excitation enhancement, spontaneous emission modification, and quenching. Furthermore, we provide direct evidence for the role of the particle plasmon resonance in the molecular excitation and emission processes.

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Design of plasmonic nanoantennae for enhancing spontaneous emission

Rogobete¹,

Kaminski²,

Agio³

et al. 2007

Opt. Lett.

261

304

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We apply two- and three-dimensional numerical calculations to study optical nanoantennae made of two coupled gold nanostructures, enclosing a single emitter in their gap. We show that, using structures manufacturable with today's nanotechnology, it is possible to increase the radiative decay rate by three orders of magnitude while keeping a quantum efficiency larger than 80% in the near-infrared regime. We examine the competition between the radiative and nonradiative processes in the presence of the antennae as a function of wavelength and antenna geometry. Our results hold great promise for improving the quantum efficiency of poor emitters such as silicon nanocrystals or carbon nanotubes.

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Spontaneous emission in nanoscopic dielectric particles

Rogobete¹,

Schniepp²,

Sandoghdar³

et al. 2003

Opt. Lett.

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Spontaneous emission in a subwavelength environment characterized by boundary integral equations

Rogobete

Henkel

2004

Phys. Rev. A

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L. Rogobete

Enhancement of Single-Molecule Fluorescence Using a Gold Nanoparticle as an Optical Nanoantenna

Design of plasmonic nanoantennae for enhancing spontaneous emission

Spontaneous emission in nanoscopic dielectric particles

Spontaneous emission in a subwavelength environment characterized by boundary integral equations

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