Title :
Surface Plasmon Generation by Subwavelength Isolated Objects
Author :
Haitao Liu ; Haitao Liu ; Lalanne, P. ; Xiaoyan Yang ; Hugonin, J.-P.
Abstract :
A fully vectorial Fourier-modal-method approach combined with the Lorentz reciprocity theorem is used to study the capability of isolated subwavelength objects to launch surface plasmon polaritons on a nearby surface under illumination by light. Various 2-D subwavelength geometries, like grooves or ridges, are considered and compared. The highest efficiencies are achieved for metallic ridges isolated from the surface by a dielectric post. We derive general trends with respect to the geometry, the incidence angle, and the frequency of the incident illumination. We additionally discuss particular effects that provide very high efficiencies or unidirectional launchings. The predictions may be useful for further understanding and engineering plasmonic systems formed by nanoparticle ensembles.
Keywords :
Fourier transform optics; nanoparticles; nanophotonics; plasmonics; polaritons; surface plasmons; 2D subwavelength geometry; Lorentz reciprocity theorem; dielectric post; fully vectorial Fourier-modal-method approach; metallic ridges; nanoparticle ensemble; plasmonic systems; subwavelength isolated objects; surface plasmon generation; surface plasmon polaritons; Electromagnetic theory; reciprocity; scattering; surface plasmon polariton;
Journal_Title :
Selected Topics in Quantum Electronics, IEEE Journal of
DOI :
10.1109/JSTQE.2008.923291
