SURFACE PLASMON NANOPHOTONICS.- NEAR-FIELD AND FAR-FIELD PROPERTIES OF NANOPARTICLE ARRAYS.- THEORY OF LIGHT TRANSMISSION THROUGH PERIODICALLY STRUCTURED NANO-APERTURES.- DEVELOPMENT AND NEAR-FIELD CHARACTERIZATION OF SURFACE PLASMON WAVEGUIDES.- NUMERICAL SIMULATIONS OF LONG-RANGE PLASMONIC TRANSMISSION LINES.- SURFACE PLASMON POLARITON GUIDING IN PHOTONIC BANDGAP STRUCTURES.- SUBWAVELENGTH-SCALE PLASMON WAVEGUIDES.- OPTICAL SUPERLENS.- OPTICAL FIELD ENHANCEMENT WITH PLASMON RESONANT BOWTIE NANOANTENNAS.- NEAR-FIELD OPTICAL EXCITATION AND DETECTION OF SURFACE PLASMONS.- PRINCIPLES OF NEAR-FIELD OPTICAL MAPPING.- OVERVIEW OF SIMULATION TECHNIQUES FOR PLASMONIC DEVICES.- PLASMON HYBRIDIZATION IN COMPLEX NANOSTRUCTURES.- SENSING PROTEINS WITH ADAPTIVE METAL NANOSTRUCTURES.- INTEGRATED OPTICS BASED ON LONG-RANGE SURFACE PLASMON POLARITONS.- LOCALIZED SURFACE PLASMONS FOR OPTICAL DATA STORAGE BEYOND THE DIFFRACTION LIMIT.- SURFACE PLASMON COUPLED EMISSION.
Inhaltsverzeichnis
SURFACE PLASMON NANOPHOTONICS. - NEAR-FIELD AND FAR-FIELD PROPERTIES OF NANOPARTICLE ARRAYS. - THEORY OF LIGHT TRANSMISSION THROUGH PERIODICALLY STRUCTURED NANO-APERTURES. - DEVELOPMENT AND NEAR-FIELD CHARACTERIZATION OF SURFACE PLASMON WAVEGUIDES. - NUMERICAL SIMULATIONS OF LONG-RANGE PLASMONIC TRANSMISSION LINES. - SURFACE PLASMON POLARITON GUIDING IN PHOTONIC BANDGAP STRUCTURES. - SUBWAVELENGTH-SCALE PLASMON WAVEGUIDES. - OPTICAL SUPERLENS. - OPTICAL FIELD ENHANCEMENT WITH PLASMON RESONANT BOWTIE NANOANTENNAS. - NEAR-FIELD OPTICAL EXCITATION AND DETECTION OF SURFACE PLASMONS. - PRINCIPLES OF NEAR-FIELD OPTICAL MAPPING. - OVERVIEW OF SIMULATION TECHNIQUES FOR PLASMONIC DEVICES. - PLASMON HYBRIDIZATION IN COMPLEX NANOSTRUCTURES. - SENSING PROTEINS WITH ADAPTIVE METAL NANOSTRUCTURES. - INTEGRATED OPTICS BASED ON LONG-RANGE SURFACE PLASMON POLARITONS. - LOCALIZED SURFACE PLASMONS FOR OPTICAL DATA STORAGE BEYOND THE DIFFRACTION LIMIT. - SURFACE PLASMON COUPLED EMISSION.