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Plasmonic Components Fabricated by Two-Photon Polymerization and Nanoimprint Lithography
Bok av Andreas Seidel
lasmonics is an increasingly important field of research within the larger field of photonics. Photonic components utilizing surface plasmon polariton modes, supported by various metal-dielectric configurations, hold the promise of a variety of applications in sensing and on-chip data transmission. Plasmonic components based on dielectric-loaded plasmon polariton waveguides are in particular attracting attention recently, due to their comparative ease of manufacture and their potential to aid in miniaturizing optical circuits. The two-photon polymerization direct laser writing technology has already been shown to be a powerful tool in the fabrication of plasmonic waveguides. This thesis builds on previous work that has already shown the viability of two-photon polymerization as a manufacturing technique, and expands upon it by adding a nanolithography process. The largest intrinsic disadvantage of direct laser writing is overcome in this fashion - instead of a purely serial process, a parallel fabrication process is developed. By aid of this process, the fabrication of plasmonic waveguides becomes not only optimally flexible, but also faster and cheaper. The plasmonic waveguide structures presented in this thesis represent new designs not shown before, including polarization-dependent splitters, Mach-Zehnder interferometers, and a new class of structure called racetrack resonators. The designs are characterized largely by leakage radiation microscopy and compared to similar designs fabricated by different methods. Where comparison is possible, the structures presented here show much improved characteristics over results previously reported by other groups. An investigation of localized surface plasmons is also made, which includes the interference of surface plasmons with each other and the interaction of surface plasmons with metal nanoparticles. This has led to new optical effects, which have not been observed in this way before. This thesis resulted in nine scientific articles, that have been published in peerreviewed journals, as well as a number of conference contributions and proceedings.