AI Article Synopsis
- The study suggests that interacting bulk nonlinear materials with localized plasmonic modes in very small metallic nanostructures can lead to unique nonlinear effects involving just a single plasmon in the visible spectrum.
- It estimates that the energy from two interacting plasmons can be similar to typical linewidths, leading to nonclassical behavior identifiable by sub-Poissonian correlations in scattered signals under coherent light.
- The authors propose practical experimental setups that combine gold nanodimers with nonlinear materials, enabling the detection of single-plasmon scattering despite challenges related to the fast decay of plasmons.
Article Abstract
We report theoretical evidence that bulk nonlinear materials weakly interacting with highly localized plasmonic modes in ultra-sub-wavelength metallic nanostructures can lead to nonlinear effects at the single plasmon level in the visible range. In particular, the two-plasmon interaction energy in such systems is numerically estimated to be comparable with the typical plasmon linewidths. Localized surface plasmons are thus predicted to exhibit a purely nonclassical behavior, which can be clearly identified by a sub-Poissonian second-order correlation in the signal scattered from the quantized plasmonic field under coherent electromagnetic excitation. We explicitly show that systems sensitive to single-plasmon scattering can be experimentally realized by combining electromagnetic confinement in the interstitial region of gold nanodimers with local infiltration or deposition of ordinary nonlinear materials. We also propose configurations that could allow to realistically detect such an effect with state-of-the-art technology, overcoming the limitations imposed by the short plasmonic lifetime.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC5067502 | PMC |
| http://dx.doi.org/10.1038/srep34772 | DOI Listing |
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