Surface plasmon nanophotonics
edited by Mark L. Brongersma and Pieter G. Kik.
- vii, 268 p. : ill., grf. ; 24 cm.
- Springer series in optical sciences ; 131. .
Includes index.
1. Surface Plasmon Nanophotonics. -- 2. Near-Field and Far-Field Properties of Nanoparticle Arrays. -- 3. Theory of Light Transmission Through Periodically Structured Nano-Apertures. -- 4. Development and Near-Field Characterization of Surface Plasmon Waveguides. -- 5. Numerical Simulations of Long-Range Plasmonic Transmission Lines. -- 6. Surface Plasmon Polariton Guiding in Photonic Bandgap Structures. -- 7. Subwavelength-Scale Plasmon Waveguides. -- 8. Optical Superlens. -- 9.Optical Field Enhancement with Plasmon Resonant Bowtie Nanoantennas. -- 10. Near-Field Optical Excitation and Detection of Surface Plasmons. -- 11. Principles of Near-Field Optical Mapping. -- 12. Overview of Simulation Techniques for Plasmonic Devices. -- 13. Plasmon Hybridization in Complex Nanostructures. -- 14. Sensing Proteins with Adaptive Metal Nanostructures. -- 15. Integrated Optics Based on Long-Range Surface Plasmon Polaritons. -- 16. Localized Surface Plasmons for Optical Data Storage Beyond the Diffraction Limit. -- 17. Surface Plasmon Coupled Emission.