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Beilstein J. Nanotechnol. 2016, 7, 111–120, doi:10.3762/bjnano.7.13
Figure 1: Artists impression of a gold nanoantenna loaded with a nonlinear optical active material. The nanoa...
Figure 2: (a) Production steps for the selective filling of gap nanoantennas with LiNbO3 nanocrystals. (i) In...
Figure 3: Linear extinction (1 − T) spectra for bowtie antenna arrays (blue) and bowtie antennas selectively ...
Figure 4: Linear and nonlinear properties of a bowtie antenna array and a filled bowtie antenna array. (a) Sp...
Figure 5: Linear and nonlinear properties of a bowtie antenna array and a filled bowtie antenna array. (a) Sp...
Figure 6: (a,b) Tilted view, close-up SEM images of two, exemplary, selectively filled, lithium niobate bowti...
Beilstein J. Nanotechnol. 2013, 4, 57–65, doi:10.3762/bjnano.4.6
Figure 1: (a) and (b) show sketches of simulated focus patterns (E2 in xz plane) in the parabolic mirror and ...
Figure 2: (a) Replacing the split ring resonators with individual plasmonically coupled gold dots allows us t...
Figure 3: Extinction spectra of a gold monomer, a gold hexamer, and gold heptamers with different interpartic...
Figure 4: Simulated field distributions and local electric currents (blue arrows) for the gold hexamer and he...
Figure 5: (a) Examples of complex plasmonic oligomers with tailorable optical properties. Adapted with permis...
Figure 6: Schematic of two optical microscopic configurations using a parabolic mirror for focusing (a, adapt...
Figure 7: Oligomer rings composed of gold nanodots, SEM images on the left, confocal luminescence images unde...
Figure 8: Oligomer structures consisting of aluminium. (a) The formation of collective behavior in the cluste...
Figure 9: Simulated near-fields of heptamer structures under radial (left, multiplied by 20 for a better comp...