Propagation, Scattering and Amplification of Surface Plasmons in Thin Silver Films

Propagation, Scattering and Amplification of Surface Plasmons in Thin Silver Films

Plasmons, i.e. collective oscillations of conduction electrons, have a strong influence on the optical properties of metal micro- and nanostructures and are of great interest for novel photonic devices. Here, plasmons on metal-dielectric interfaces are investigated using near-field optical microscop...

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Bibliographic Details
Main Author: Seidel, Jan
Other Authors: Technische Universität Dresden, Mathematik und Naturwissenschaften, Physik, Institut für Angewandte Physik
Format: Doctoral Thesis
Language:English
Published: Saechsische Landesbibliothek- Staats- und Universitaetsbibliothek Dresden 2005
Subjects:
Optische Nahfeldmikroskopie
Plasmonen
SPASER
near-field optical microscopy
plasmons
ddc:530
rvk:UP 7500
Dünne Schicht
Nanostruktur
Plasmon
Online Access:http://nbn-resolving.de/urn:nbn:de:swb:14-1117625135371-32372
http://nbn-resolving.de/urn:nbn:de:swb:14-1117625135371-32372
http://www.qucosa.de/fileadmin/data/qucosa/documents/1301/1117625135371-3237.pdf
Description
Summary:Plasmons, i.e. collective oscillations of conduction electrons, have a strong influence on the optical properties of metal micro- and nanostructures and are of great interest for novel photonic devices. Here, plasmons on metal-dielectric interfaces are investigated using near-field optical microscopy and differential angular reflectance spectroscopy. Emphasis is placed on the study of plasmon interaction with individual nanostructures and on the nonlinear process of surface plasmon amplification. Specifically, plasmon transmission across single grooves in thin silver films is investigated with the help of a near-field optical microscope. It is found that plasmon transmittance as a function of groove width shows a non-monotonic behavior, exhibiting certain favorable groove widths with strongly decreased transmittance values. Additionally, evidence of groove-mediated plasmon mode coupling is observed. Spatial beating due to different plasmon wave vectors produces distinct interference features in near-field optical images. A theoretical approach explains these observations and gives estimated coupling effciencies deduced from visibility considerations. Furthermore, stimulated emission of surface plasmons induced by optical pumping using an organic dye solution is demonstrated for the first time. For this a novel twin-attenuated-total-reflection scheme is introduced. The experiment is described by a theoretical model which exhibits very good agreement. Together they provide clear evidence of the claimed process.

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