Year of Award

2014

Degree Type

Thesis

Degree Name

Doctor of Philosophy (PhD)

Department

Department of Physics.

Principal Supervisor

Cheah, Kok Wai

Keywords

Nanotechnology, Plasmons (Physics)

Language

English

Abstract

Plasmonic devices, consisting of subwavelength nanostructures at optical frequency, have been widely applied to many research .elds such as bio-sensing, super-resolution imaging, energy harvesting, nanolaser and so on. The strong con.ned electromag­netic .elds in the a.nity of nanostructures provides an e.cient channel to guide, enhance, and modulate light energy beyond the di.raction limit. In this thesis, we .rst studied the plasmonic devices in linear optical regime, especially from the view of phase information in the light matter interaction; then more e.orts were paid to the nonlinear plasmonics, in which the organic-plasmonic hybrid nanostructures provided a useful platform for demonstrating some interesting physical phenomena. Firstly, we studied the fundamental optical properties of typically propagating surface plasmonic polariton (SPPs), which were generated by plasmonic gratings. Optical elliptical response of excited SPPs was studied experimentally and theoret­ically in both amplitude and phase domains. Then we studied the strong coupling e.ect from plasmonic Fabry-Perot nanocavity, in which giant Rabi splitting phe­nomenon with a splitting energy ~ 148 meV was obtained experimentally. From these studies, the interaction of SPP wave with other resonant structures were well understood from the view point of phase evolution. Secondly, we moved from linear optics the nonlinear plasmonic optics and tried to understand how the plasmon enhancement acts on the nonlinear optical processes. In the .rst example, plasmon enhanced third harmonic generation (THG) on one dimensional gratings was experimentally demonstrated by integrating the nonlinear active medium into the plasmonic devices. Later, the generation of THG vortex beam was also realized by introducing hologram based plasmonic design. Lastly, we re-examined a conventional symmetry problem in nonlinear molecular optics. It was found the that the metacrystal, consisting of plasmonic molecule with feature size much larger than conventional molecules, also follows the conventional selection rules of third harmonic generation. We believe the knowledge we accumulated in this work also provides a strong background for our future studies on ultra-fast plasmonic switching, in which the all-optical low loss, optical switch can be realized by using the engineered optical properties of plasmonic devices.

Comments

Thesis (Ph.D.)--Hong Kong Baptist University, 2014.;Principal supervisor: Prof. Cheah Kok Wai.;Includes bibliographical references (pages 95-114)

Copyright

The author retains all rights to this work. The author has signed an agreement granting HKBU a non-exclusive license to archive and distribute their thesis.


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