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In my presentation I will review our recent results on plasmonics inside optical fiber with the special focus on plasmonic hybridization, supermode excitation and a novel fiber-integrated near field probe.
In my presentation I will review our recent results on hybrid chalcogenide-silica waveguides with the focus on a new type of nanotaper and mid infrared super continuum generation.
Higher order Bessel, Airy and Laguerre-Gaussian beams have recently been used to manipulate micrometer-sized objects in free space [1]. Here we use a coherent superposition of the two lowest order forward-propagating modes of a soft glass hollow-core photonic crystal fiber (HC-PCF, Fig. 1a) to control the axial and radial trapping position of particles inside the core. Because each fiber mode propagates...
In my presentation I will review our recent results related to nanophotonic hybrid waveguides in fiber form. I will discuss plasmonic hybridization of spiralling plasmons excited on metallic nanowires in photonic crystal fibers. I will also discuss the optical properties and fabrication of highly nonlinear chalcogenide-silica waveguides and their application in infrared supercontinuum generation.
Magneto‐optical glasses are of considerable current interest, primarily for applications in fiber circuitry, optical isolation, all‐optical diodes, optical switching and modulation. While the benchmark materials are still crystalline, glasses offer a variety of unique advantages, such as very high rare‐earth and heavy‐metal solubility and, in principle, the possibility of being produced in fiber form...
We review our results of hybrid photonic crystal fibers. We explain the important properties of spiralling plasmons on wires and in arrays and discuss our main experimental achievements such as excitation of superplasmon modes. Moreover, we'll discuss our developments sophisticated polarization devices.
We review our results of metalized hybrid photonic crystal fibers. We explain the important properties of spiralling plasmons on wires and in arrays and discuss our main experimental achievements such as excitation of super-plasmon modes.
Photonic crystal fibers (PCFs) consist of arrays of micrometer-size hollow channels extending along the entire fiber length. A new approach to modify the optical properties and to improve the design flexibility of such fibers is to fill the air holes of the array by with different materials, realizing all-solid hybrid fiber structures. In this talk, recent results on silica PCF filled with noble metals,...
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