Springer
Optical Characterization of Plasmonic Nanostructures: Near-Field Imaging of the Magnetic Field of Light
Optical Characterization of Plasmonic Nanostructures: Near-Field Imaging of the Magnetic Field of Light
This thesis focuses on a means of obtaining, for the first time, full electromagnetic imaging of photonic nanostructures. The author also develops a unique practical simulation framework which is used to confirm the results.
The development of innovative photonic devices and metamaterials with tailor-made functionalities depends critically on our capability to characterize them and understand the underlying light-matter interactions. Thus, imaging all components of the electromagnetic light field at nanoscale resolution is of paramount importance in this area. This challenge is answered by demonstrating experimentally that a hollow-pyramid aperture probe SNOM can directly image the horizontal magnetic field of light in simple plasmonic antennas - rod, disk and ring. These results are confirmed by numerical simulations, showing that the probe can be approximated, to first order, by a magnetic point-dipole source. This approximation substantially reduces the simulation time and complexity and facilitates the otherwise controversial interpretation of near-field images. The validated technique is used to study complex plasmonic antennas and to explore new opportunities for their engineering and characterization.
| Author: Denitza Denkova |
| Publisher: Springer |
| Publication Date: Apr 29, 2016 |
| Number of Pages: 88 pages |
| Binding: Hardback or Cased Book |
| ISBN-10: 3319287923 |
| ISBN-13: 9783319287928 |