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Polarizing Optical Devices Based on Embedded One-Dimensional Subwavelength-Structured Photonic-Crystal LayersKhanfar, Hazem 20 December 2009 (has links)
Quarter-wave retarders (QWR) that employ total internal reflection (TIR) and interference of light in a transparent thin-film coating at the base of a prism are presented. Explicit equations that guide the optimal design are provided. The optimal refractive index and normalized thickness of QWR coatings on glass and ZnS prisms are determined as functions of the internal angle of incidence from 45o to 75o. An achromatic QWR that uses an Si3N4- coated N-BK10-Schott glass prism is also presented with retardance error of 3o over the 400-600 nm wavelength range. An iterative procedure for the design of a polarizing beam splitter (PBS) that uses a form-birefringent, subwavelength-structured, one-dimensional photonic-crystal layer (SWS 1-D PCL) embedded in a high-index cubical prism is presented. The PBS is based on index matching and total transmission for the p polarization and total internal reflection for the s polarization at the prism-PCL interface at a 45o angle of incidence. A high extinction ratio in reflection ( 50 dB) over the 4-12 μm IR spectral range is achieved using a SWS 1-D PCL of ZnTe embedded in a ZnS cube within an external field of view (FOV) of ±6.6o and in the presence of grating filling factor errors of up to ±10%. Comparable results, but with a wider field of view, are also obtained with a Ge PCL embedded in a Si prism. A design for visible spectrum (553–713 nm) PBS SWS 1-D PCL of ZnTe embedded in a ZnS cube is also presented. The PBS shows a FOV of ±7o. A circular polarizing beam splitter (CPBS) with equal throughput for p and s polarization using SWS 1-D PCL embedded in a high-index cubical prism is introduced. A dual QWR in transmission and reflection with 50–50% CPBS is designed using the PCL. Such a CPBS shows large deviation from the design point as a result of small changes in the design parameters; e.g. a change of 10% in the filling factor results in 12o shift from the 90o phase shift between p and s polarizations, which limits the practical utility of the device.
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Obtenção e caracterização de filtros Fabry-Perot para aplicação em aquisição de imagens de diferença de polarização. / Obtaining and characterization of Fabry-Perot filters for application in acquisition of polarization-difference images.Araújo, Hugo Puertas de 08 December 2004 (has links)
No presente trabalho, investigamos algumas propriedades e aplicações para imagens de diferença de polarização (PDI\'s) propondo dois sistemas de aquisição destas imagens como alternativas à arquitetura proposta por Tyo (1996). O primeiro sistema aqui abordado faz uso de duas câmeras e dois polarizadores para a obtenção de PDI\'s. A redundância, em termos de elementos de aquisição de imagens, visa suprir uma deficiência do sistema supracitado, qual seja a sua impossibilidade de operar em tempo real. O segundo projeto propõe a utilização de filtros polarizadores baseados em implementações de estruturas Fabry-Perot utilizando-se filmes finos birrefringentes de TiOx, como elemento principal de um dispositivo que possa ser produzido na forma de um microssistema integrado de aquisição de imagens completamente compatível com as tecnologias de produção CMOS disponíveis hoje em dia. Dadas as possibilidades envolvendo esse último projeto, definimos como objetivo principal deste trabalho a obtenção de filtros polarizadores baseados em tecnologia de filmes finos birrefringentes, que foram obtidos por deposição física num equipamento de Sputtering DC. Na etapa de análise dos dados, foram feitas caracterizações ópticas (espectrofotometria) e RBS tanto dos filtros finais quanto dos filmes de TiOx, que foram ensaiados previamente para a extração de parâmetros necessários para o projeto dos filtros de interferência. Conclui-se o trabalho comprovando a possibilidade de se obter filtros polarizadores que possam ser utilizados em sistemas integrados de aquisição de imagens, mas ressalva-se que o equipamento de Sputtering DC empregado não é o ideal para essa aplicação, sugerindo-se o uso de equipamentos capazes de monitorar espessura e índices de refração durante o processo de deposição dos filmes (um exemplo seria um sistema de deposição por e-beam acoplado a um elipsômetro de transmitância) / In the present work, it was investigated some properties and applications for polarization-difference images (PDI\'s), what led us to the proposition of two acquisition systems for such images as alternatives to the architecture proposed by Tyo (1996). The first system here discussed uses two cameras and two polarizers in the attainment of PDI\'s. The image elements redundancy is supposed to overcome a deficiency of the above-mentioned system that is its inability to operate in real time. The second project proposes the use of polarizing filters based on Fabry-Perot structures obtained with birefringent thin films of TiOx. Such filters are the key elements in a device that can be implemented as an integrated microsystem, fully compatible with the CMOS production technologies, available nowadays. Given the possibilities associated with this last project, it was defined as the main goal of this work, the attainment of polarizing filters based on birefringent thin films technology, physically deposited by a DC Sputtering equipment. During the phase of data analysis, it was carried out optical characterizations (spectrofotometry) as well as RBS analysis, both for the filters itself and for the TiOx films, that were previously investigated in order to determine the required parameters for the design of the interference filters. This work is concluded by proving the possibility of using polarizing filters in integrated image acquisition systems, but a remark ismade stating that the employed equipment is not the ideal one for such applications and it is suggested the use of deposition set up capable to monitor thickness and refractive indexes during the run (an example would be an e-beam equipment connected to a transmittance ellipsometer).
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Obtenção e caracterização de filtros Fabry-Perot para aplicação em aquisição de imagens de diferença de polarização. / Obtaining and characterization of Fabry-Perot filters for application in acquisition of polarization-difference images.Hugo Puertas de Araújo 08 December 2004 (has links)
No presente trabalho, investigamos algumas propriedades e aplicações para imagens de diferença de polarização (PDI\'s) propondo dois sistemas de aquisição destas imagens como alternativas à arquitetura proposta por Tyo (1996). O primeiro sistema aqui abordado faz uso de duas câmeras e dois polarizadores para a obtenção de PDI\'s. A redundância, em termos de elementos de aquisição de imagens, visa suprir uma deficiência do sistema supracitado, qual seja a sua impossibilidade de operar em tempo real. O segundo projeto propõe a utilização de filtros polarizadores baseados em implementações de estruturas Fabry-Perot utilizando-se filmes finos birrefringentes de TiOx, como elemento principal de um dispositivo que possa ser produzido na forma de um microssistema integrado de aquisição de imagens completamente compatível com as tecnologias de produção CMOS disponíveis hoje em dia. Dadas as possibilidades envolvendo esse último projeto, definimos como objetivo principal deste trabalho a obtenção de filtros polarizadores baseados em tecnologia de filmes finos birrefringentes, que foram obtidos por deposição física num equipamento de Sputtering DC. Na etapa de análise dos dados, foram feitas caracterizações ópticas (espectrofotometria) e RBS tanto dos filtros finais quanto dos filmes de TiOx, que foram ensaiados previamente para a extração de parâmetros necessários para o projeto dos filtros de interferência. Conclui-se o trabalho comprovando a possibilidade de se obter filtros polarizadores que possam ser utilizados em sistemas integrados de aquisição de imagens, mas ressalva-se que o equipamento de Sputtering DC empregado não é o ideal para essa aplicação, sugerindo-se o uso de equipamentos capazes de monitorar espessura e índices de refração durante o processo de deposição dos filmes (um exemplo seria um sistema de deposição por e-beam acoplado a um elipsômetro de transmitância) / In the present work, it was investigated some properties and applications for polarization-difference images (PDI\'s), what led us to the proposition of two acquisition systems for such images as alternatives to the architecture proposed by Tyo (1996). The first system here discussed uses two cameras and two polarizers in the attainment of PDI\'s. The image elements redundancy is supposed to overcome a deficiency of the above-mentioned system that is its inability to operate in real time. The second project proposes the use of polarizing filters based on Fabry-Perot structures obtained with birefringent thin films of TiOx. Such filters are the key elements in a device that can be implemented as an integrated microsystem, fully compatible with the CMOS production technologies, available nowadays. Given the possibilities associated with this last project, it was defined as the main goal of this work, the attainment of polarizing filters based on birefringent thin films technology, physically deposited by a DC Sputtering equipment. During the phase of data analysis, it was carried out optical characterizations (spectrofotometry) as well as RBS analysis, both for the filters itself and for the TiOx films, that were previously investigated in order to determine the required parameters for the design of the interference filters. This work is concluded by proving the possibility of using polarizing filters in integrated image acquisition systems, but a remark ismade stating that the employed equipment is not the ideal one for such applications and it is suggested the use of deposition set up capable to monitor thickness and refractive indexes during the run (an example would be an e-beam equipment connected to a transmittance ellipsometer).
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Study of Passive Optical Network (PON) System and DevicesGuo, Qingyi 04 1900 (has links)
<p>The fiber-to-the-x (FTTX) has been widely investigated as a leading access technology to meet the ever growing demand for bandwidth in the last mile. The passive optical network (PON) provides a cost-effective and durable solution. In this thesis, we investigate different aspects of the PON, in the search for cost-effective and high-performance designs of link system and devices.</p> <p>In Chapter 2, we propose a novel upstream link scheme for optical orthogonal frequency division multiplexing (OOFDM)-PON. The colorless laser diodes are used at the optical network units (ONUs), and the overlapped channel spectrum of orthogonal subcarrier multiplexing provides high spectral efficiency. At the optical line terminal (OLT), optical switch and all optical fast Fourier transform (OFFT) are adopted for high speed demultiplexing. The deterioration caused by the laser perturbation is also investigated.</p> <p>In Chapter 3, we design a novel polarization beam splitter (PBS), which is one of the most important components in polarization-controlled optical systems, e.g. the next-generation PON utilizing polarization multiplexing. Our PBS is built on a slab waveguide platform where the light is vertically confined. Planar lenses are formed to collimate and refocus light beam by converting the phase front of the beam. A planar subwavelength grating of a wedge shape induces the form birefringence, where the transverse electric (TE) and transverse magnetic (TM) waves have different effective refractive indices, and are steered to distinct directions. This design provides low insertion loss (< 0.9 dB) and low crosstalk (< -30 dB) for a bandwidth of 100 nm in a compact size, and can be realized by different material systems for easy fabrication and/or monolithic integration with other optical components.</p> <p>In Chapter 4, we study the mode partition noise (MPN) characteristics of the Fabry-Perot (FP) laser diode using the time-domain simulation of noise-driven multi-mode laser rate equation. FP laser is cheaper than the widely used distributed feedback (DFB) laser diode in PON, but its MPN is the major limiting factor in an optical transmission system. We calculate the probability density functions for each longitudinal mode. We also investigate the k-factor, which is a simple yet important measure of MPN. The sources of the k-factor are studied with simulation, including the intrinsic source of the laser Langevin noise, and the extrinsic source of the bit pattern.</p> / Doctor of Philosophy (PhD)
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