| Summary: | 博士 === 國立交通大學 === 光電工程學系 === 100 === The aim of this thesis is to study the response of a high numerical aperture lens by means of pupil engineering, especially in the polarization point of view, and to study the interaction between focused light and metal in associated with surface plasmon resonance. More specifically we aim to develop several different novel schemes and concepts for different surface plasmon mediated applications in terms of polarization manipulation at the pupil plane. In this thesis, four kinds of novel applications are proposed, including far-field surface plasmon polaritons excitation and manipulation, nanoscopy surface plasmon resonance radar, white light surface plasmon resonance sensor, and gold nanorods mediated polarization multiplexing recording.
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