Ferdinand Hofer scite author profile

We report on chemically prepared silver nanowires (diameters around 100 nm) sustaining surface plasmon modes with wavelengths shortened to about half the value of the exciting light. As we find by scattered light spectroscopy and near-field optical microscopy, the nonradiating character of these modes together with minimized damping due to the well developed wire crystal structure gives rise to large values of surface plasmon propagation length and nanowire end face reflectivity of about 10 microm and 25%, respectively. We demonstrate that these properties allow us to apply the nanowires as efficient surface plasmon Fabry-Perot resonators.

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Dark Plasmonic Breathing Modes in Silver Nanodisks

Schmidt

et al. 2012

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We map the complete plasmonic spectrum of silver nanodisks by electron energy loss spectroscopy and show that the mode which couples strongest to the electron beam has radial symmetry with no net dipole moment. Therefore, this mode does not couple to light and has escaped from observation in optical experiments. This radial breathing mode has the character of an extended two-dimensional surface plasmon with a wavenumber determined by the circular disk confinement. Its strong near fields can impact the hybridization in coupled plasmonic nanoparticles as well as couplings with nearby quantum emitters.

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A Direct Route Towards Polymer/Copper Indium Sulfide Nanocomposite Solar Cells

Rath

Edler

Haas

et al. 2011

Advanced Energy Materials

106

179

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Ferdinand Hofer

Silver Nanowires as Surface Plasmon Resonators

Dark Plasmonic Breathing Modes in Silver Nanodisks

A Direct Route Towards Polymer/Copper Indium Sulfide Nanocomposite Solar Cells

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