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| Title: | LIGHT MANIPULATION AND STRUCTURING VIA NANOFABRICATED FLAT METASURFACES | Authors: | MUHAMMAD QASIM MEHMOOD | Keywords: | Orbital Angular Momentum, Optical Vortex, Metasurfaces, Logarithmic Spiral | Issue Date: | 18-Aug-2015 | Citation: | MUHAMMAD QASIM MEHMOOD (2015-08-18). LIGHT MANIPULATION AND STRUCTURING VIA NANOFABRICATED FLAT METASURFACES. ScholarBank@NUS Repository. | Abstract: | THIS THESIS PROVIDES ORIGINAL INVESTIGATIONS AND DEMONSTRATIONS OF TWO RELATED TOPICS: SPIN-CONTROLLED LIGHT TRANSMISSION/MANIPULATION AND VORTEX LIGHT STRUCTURING VIA NANOFABRICATED DEVICES. THE MAIN CONTRIBUTIONS INCLUDE NOVEL METHODS OF PHOTON-SPIN'S DETECTION, OV GENERATION AND COMPLEX MANIPULATIONS AT MINIATURIZED SCALE. IN THIS REGARD, TWO TYPES OF FLAT STRUCTURES --- LOGARITHMIC SPIRAL (LS) AND BABINET-INVERTED METASURFACES --- ARE EMPLOYED TO SHAPE THE TRANSMITTED LIGHT IN MESO-FIELD. FIRST, SPIN-CONTROLLED BROADBAND LIGHT MANIPULATION IS DEMONSTRATED VIA AN LS-NANOSLIT. THE WORK, SCRIPTED IN CHAPTER 2, PRESENTS COMPREHENSIVE SIMULATION AND EXPERIMENTAL INVESTIGATIONS OF LIGHT DIFFRACTED THROUGH A LS-NANOSLIT, WHICH FORMS A TYPE OF SWITCHABLE AND FOCUS-TUNABLE STRUCTURE. OWING TO STRONG DEPENDENCE ON THE INCIDENT PHOTON-SPIN, THE PROPOSED LS-NANOSLIT CONVERGES INCOMING LIGHT OF OPPOSITE HANDEDNESS (TO THAT OF THE LS-NANOSLIT) INTO A CONFINED SUBWAVELENGTH SPOT, WHILE IT SHAPES | URI: | http://scholarbank.nus.edu.sg/handle/10635/122122 |
| Appears in Collections: | Ph.D Theses (Open) |
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| Thesis(16-12-2015).pdf | 23.6 MB | Adobe PDF | OPEN | None | View/Download |
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