Electromagnetic Green's function for layered systems: Applications to nanohole interactions in thin metal films
Journal article, 2011
We derive expressions for the electromagnetic Green's function for a layered system using a transfer matrix technique. The expressions we arrive at make it possible to study symmetry properties of the Green's function, such as reciprocity symmetry, and the long-range properties of the Green's function which involves plasmon waves as well as boundary waves, also known as Norton waves. We apply the method by calculating the light-scattering cross section off a chain of nanoholes in a thin Au film. The results highlight the importance of nanohole interactions mediated by surface plasmon propagating along the chain of holes.
subwavelength hole arrays
molecules
field
optical-transmission
spectroscopy
surface-plasmon resonance
light
photon-emission
time-domain method
extraordinary
enhanced raman-scattering
Author
Peter Johansson
Chalmers, Applied Physics, Bionanophotonics
Physical Review B - Condensed Matter and Materials Physics
24699950 (ISSN) 24699969 (eISSN)
Vol. 83 19Subject Categories
Physical Sciences
DOI
10.1103/PhysRevB.83.195408