Global ETD Search

41	Caracterización de discontinuidades entre guías con medios anisótropos Solano Vérez, Miguel Angel 19 December 1991 (has links) La tesis estudia cinco formulaciones del método de modos acoplados para analizar guías con medios magnéticos en su interior. La formulación indirecta, de tipo general, se ha aplicado al análisis de desfasadores toroidales obteniéndose resultados similares a los obtenidos mediante un método numérico puro como es el de diferencias finitas. La tesis introduce igualmente una formulación del método de adaptación que junto con el método de modos acoplados permite analizar discontinuidades simples. La combinación de los métodos anteriores con la matriz de dispersión generalizada ha permitido analizar discontinuidades en guías de onda con ferritas transversalmente magnetizadas con discontinuidades en las tres direcciones del sistema de coordenadas. método de modos acoplados guías rectangulares discontinuidades método de adaptación modal ferritas coupled mode method rectangular waveguides discontinuities mode matching method ferrites Electromagnetismo 621.3
42	Metallic nanostructures for enhanced sensing and spectroscopy Ahmed, Aftab 10 August 2012 (has links) The interaction of light and matter at nanoscale is the subject of study of this dissertation. Particularly, the coupling of light to surface plasmons and their applications in the fields of spectroscopy and sensing is the focus of this work. In terms of spectroscopy, the simple reason of using light to study the chemical structures of different materials is the fact that the energy of light lies in the range of vibrational and electronic transitions of matter. Further, the ability to squeeze light to subwavelength dimensions opens up new possibilities of designing nano-optical devices. In this work we explore surface plasmons for two major applications: (i) Directivity enhanced Raman spectroscopy and (ii) Chemical/biological sensing. Here a new enhancement phenomenon has been demonstrated experimentally in regards to Raman spectroscopy. Typically, Raman enhancement is considered in terms of local fields only. Here we show the use of directive nanoantennas to provide additional enhancement of two orders of magnitude. The nanoantenna design is optimal in the sense that almost all of the scattered light is coupled into the numerical aperture of the collecting lens. It is shown that the additional enhancement from directivity pushes the sensitivity to single molecule regime. Further, the out of plane radiation and simplicity of the design makes it an ideal candidate for use with typical commercial microscope setups. Extra ordinary transmission through nanohole arrays in metallic films is studied for refractive index sensing. Bulk resolution of 6×10-7 is demonstrated by optimizing array dimensions, wavelength of operation, noise reduction and consideration of sensitivity of the detecting CCD camera. Self-assembled nanostructures are investigated for spectroscopic applications. Time dependent studies of nanorods assembled in end-to-end and side-by-side configurations are conducted. The end-to-end configuration results in higher local field enhancements whereas; the side-by-side configuration shows a reduction in local fields because of the cancellation of radial field components between the neighbouring nanorods. It should be noted that higher fields are desirable for Raman spectroscopy. Grating structures have been analysed using reduced coupled mode theory. In most cases, only three lowest order modes prove to be sufficient for accurate description of the system response. Here we present design guidelines for broadband operation and optimization of high quality factor resonators. Finally the complex reflection coefficient from arbitrary terminated nanorods has been investigated. Phase of reflection plays an important role in the determination of resonance wavelength of nanoantennas. It is shown that the localized surface plasmon resonance of nanoparticles can be considered in terms of propagating surface plasmons along a nanorod of similar geometry where the length of the nanorod approaches zero accompanied with π degrees of phase of reflection. The contributions made in this work can prove useful in the fields of analytical chemistry and biomedical sensing. The directive nanoantenna can find applications in a number of areas such as light emitting devices, photovoltaics, single photon sources and high resolution microscopy. Our work related to EOT based sensing is already approaching the resolution of commercially available refractive index sensors with the added advantage of multiplexed detection. / Graduate Nanoantenna Raman Spectroscopy Finite Difference Time Domain Surface Plasmons Sensing Coupled Mode Theory Nanohole Arrays High Index Contrast Gratings Self Assembly of Nano Rods
43	Pulse Shaping Based on Integrated Waveguide Gratings Kultavewuti, Pisek 25 July 2012 (has links) Temporal pulse shaping based on integrated Bragg gratings is investigated in this work to achieve arbitrary output waveforms. The grating structure is simulated based on the sidewall-etching geometry in an AlGaAs platform. The inverse scattering employin the Gel'fan-Levithan-Marchenko theorem and the layer peeling method provides a tool to determine grating structures from a desired spectral reflection response. Simulations of pulse shaping considered flat-top and triangular pulses as well as one-to-one and one-to-many pulse shaping. The suggested grating profiles revealed a compromise between performance and grating length. The integrated grating, a few hundred microns in length, could generate flat-top pulses with pulse durations as short as 500 fs with rise/fall times of 200 fs; the results are comparable to previous work in free-space optics and fiber optics. The theories and the devised algorithms could serve as a design station for advanced grating devices for, but not restricted to, optical pulse shaping. Pulse shaping Integrated optics Gratings Ultrafast optics Picosecond pulses AlGaAs waveguide AlGaAs gratings Flat-top pulse shaping Rectangular pulse shaping Coupled-mode theory Inverse scattering 0544
44	Pulse Shaping Based on Integrated Waveguide Gratings Kultavewuti, Pisek 25 July 2012 (has links) Temporal pulse shaping based on integrated Bragg gratings is investigated in this work to achieve arbitrary output waveforms. The grating structure is simulated based on the sidewall-etching geometry in an AlGaAs platform. The inverse scattering employin the Gel'fan-Levithan-Marchenko theorem and the layer peeling method provides a tool to determine grating structures from a desired spectral reflection response. Simulations of pulse shaping considered flat-top and triangular pulses as well as one-to-one and one-to-many pulse shaping. The suggested grating profiles revealed a compromise between performance and grating length. The integrated grating, a few hundred microns in length, could generate flat-top pulses with pulse durations as short as 500 fs with rise/fall times of 200 fs; the results are comparable to previous work in free-space optics and fiber optics. The theories and the devised algorithms could serve as a design station for advanced grating devices for, but not restricted to, optical pulse shaping. Pulse shaping Integrated optics Gratings Ultrafast optics Picosecond pulses AlGaAs waveguide AlGaAs gratings Flat-top pulse shaping Rectangular pulse shaping Coupled-mode theory Inverse scattering 0544
45	Concepção otima de sistemas elasto-acusticos interiores acoplados / Optimal conception of coupled internal elasto-acoustics systems Paucar Casas, Walter Jesus 02 April 1998 (has links) Orientador: Renato Pavanello / Tese (doutorado) - Universidade Estadual de Campinas, Faculdade de Engenharia Mecanica / Made available in DSpace on 2018-07-23T16:29:26Z (GMT). No. of bitstreams: 1 PaucarCasas_WalterJesus_D.pdf: 11209231 bytes, checksum: ed76027cff17f4a62e9dfcff2f0e03d2 (MD5) Previous issue date: 1998 / Resumo: Neste trabalho desenvolveram-se metodologias para a obtenção de formas ótimas em sistemas vibroacústicos acoplados, via mudança de parâmetros geométricos, usando a análise de sensibilidade e ferramentas de programação não linear. As equações matriciais do problema são determinadas com o método dos elementos finitos, e expostas de forma a se tornarem dependentes dos parâmetros estruturais. Uma formulação não simétrica em deslocamento da estrutura e pressão do fluido é utilizada para descrever o sistema. Obtidas as freqüências e modos próprios para um conjunto de parâmetros, executa-se o processo de otimização usando a análise de sensibilidade modal. O objetivo é maximizar o afastamento de freqüências naturais adjacentes, ou diminuir a resposta numa região do sistema para uma faixa predefinida de freqüências de excitação, modificando para isso os parâmetros de forma. O efeito do amortecimento proporcional é incluído na modelagem. Os resultados obtidos são validados a partir de soluções numéricas disponíveis na literatura. A utilização da predição modal no processo de otimização também é analisada. A implementação da metodologia desenvolvida encontra aplicação, por exemplo, na melhora do conforto vibroacústico / Abstract: In this research some methodologies for obtaining optimal forms in coupled vibroacoustic problems are developed, through geometrical parameter changing, using sensitivity analysis and non linear programming tools. The matrix equations of the problem are determined through the finite element method, and then put in such a form that they become functions of the structural parameters. A non symmetrical formulation in structural displacement and tluid pressure is used to describe the system. Once the natural frequencies and modes for a set of parameters are found, the optimization process is conducted using the modal sensitivity analysis. The objective is either to maximize the gap between some adjacent natural frequencies,or to minimizethe frequency response in a specific region of the system for one set of excitation frequencies.This is done by modifying the shape parameters. The effect of proportional damping is included in the model. The results are validated with numerical solutions available in the literature. Additional results using the modal prediction in the optimization are also analyzed. The implemented methodology can be applied, for example, in the improvement of the vibroacoustic confort / Doutorado / Mecanica dos Sólidos e Projeto Mecanico / Doutor em Engenharia Mecânica Método dos elementos finitos Teoria de modos acoplados Análise de sensibilidade Espectro de frequência Programação não-linear Finite element method Coupled mode theory Sensibility analysis Frequency spectra Nonlinear programming
46	Bioculturalism, simulation and satire : the case of S1mOne Krajewska, Anna Urszula 03 1900 (has links) Text in English / This study offers a close look at Andrew Niccol’s (b 1964) satirical film S1mOne from a biocultural perspective emphasising the technological simulation of a Hollywood celebrity and the farce ensuing from her creation. The film is based on Niccol’s assumption that the hypertrophied culture into which he places his cultural object will be one in which human traits of sociality will be well advanced and the highly demanding genre of satire will be entertaining, persuasive, and on occasion punitive in its ridicule of Hollywood. The study makes a contribution to the idea that a cultural object/text operates as a rapid mechanism for propagating cognition — it shows how Niccol has adapted to less than optimal conditions in his world of Hollywood — in this case he parodies the role of the director of Hollywood films in the figure of Taransky. Cognition is understood as that series of mental processes which include attention, memory, learning (from mimicry as well as other forms), problem solving, ratiocination, and making decisions. Niccol relies on his audience's embodied capacities and skills of recognition, thinking, feeling, remembering, and accounting for his message to be understood. Niccol’s technical skill in editing his narrative to emphasise the satire of the narrative of Taransky and Simone is a critical part of the film’s success. Interpersonal and social propagation of cognition is achieved through reference to other cultural artefacts recalling a variety of similar ideas used in film and other visual creations. The cultural significance of the simulacrum, Simone, is that she is a vehicle for and a form of socially propagated cognition. The powerful imagistic impression of film helps to structure internalised cognitive artefacts in the viewers who are expected to reflect on their habits of viewing and thinking. When a film, artwork, poem or novel is analysed, then such a cultural object becomes a vehicle of and for propagating cognition. / Art History, Visual Arts and Musicology / D. Litt. et Phil. (Art History) Biocultural perspective Coupled systems Evolution of culture Framed narrative Narratives Propagated cognition Satire Simulacra Simulation 791.4372 Niccol, Andrew -- S1m0ne S1m0ne (Motion picture) Parody in motion pictures Motion pictures in propaganda Coupled mode theory Cognition and culture Motion pictures -- Computer simulation
47	Projeto, modelagem e fabricação de guias de onda ópticos integrados baseados em polímeros para aplicações em sensores / not available Lima, Juliano Alves de 18 November 2002 (has links) Este trabalho visa o projeto, modelagem e fabricação de estruturas multicamadas baseadas em polímeros para aplicações como sensores ópticos integrados. A grande motivação para este trabalho está no fato de que estas estruturas, diferente da geometria Mach-Zehnder, dispensam o uso de litografia pois são completamente planares. Isto permite uma diminuição no custo de fabricação dos dispositivos além de permitir que estruturas mais curtas sejam utilizadas. Em se tratando de óptica integrada, as dimensões reduzidas da estrutura impõem severas penalidades no processo de lançamento de potência óptica na mesma. Por isso, será considerada neste estudo a utilização de prismas para o acoplamento de entrada do acoplador. Esta técnica, além de reduzir drasticamente os problemas de alinhamento decorrentes de acoplamento convencional do tipo \"End Fire\", permite uma transferência de potência óptica superior a 80% entre a fibra e o guia retangular. As variações na transferência de potência entre os guias de ondas da estrutura multicamada serão medidas através de um fotodetetor MSM integrado ao sensor. Este detetor, além de sua extrema facilidade de fabricação e baixos custos, torna o conjunto sensor mais robusto. Em se tratando de uma proposta de plataforma para sensores, serão também investigadas possíveis aplicações para esta estrutura, como por exemplo: refratômetro integrado, sensor de glicose, sensor de adulteração de combustível, etc. A análise das estruturas será efetuada por meio de técnicas de modelagem analíticas (Técnica da Matriz de Transferência - TMT e Teoria de Modos Acoplados - TMA), e numéricas (Método da Propagação de Feixe de Ângulo Largo formulado em Diferenças Finitas - WA-FD-BPM). Esta última permite que a estrutura do fotodetetor seja levada em consideração simultaneamente nas simulações. / This work concerns with design, modeling and fabrication of polymer based planar multilayer structures for integrated optic sensor applications. The motivation for this work is that planar multilayer structures, differently from the Mach-Zehnder geometry, do not require a lithographic process. As a consequence, significantly cheaper and shorter structures can be realized. The reduced dimensions of the structure, by its turn, pose a severe penalty in terms of optical power coupling. Therefore, this investigation will focus primarily on input (and output) prism coupling configuration. This technique, besides reducing the alignment requirements observed for conventional end-fire coupling, allows optical power coupling efficiency as high as 80% from fiber to rectangular waveguide. Any optical power transfer between the waveguides of the multilayer structure will be detected by an MSM photodetector integrated with the sensor. This low cost photodetector, besides improving the structure robustness, is quite ease to fabricate. Since the idea of this work is to develop a platform for integrated optic sensors, it will also be investigated possible applications for this structure, such as: integrated optic refractometer, glucose sensor and fuel adulteration sensor. The analysis of such structures will be carried out by means of analythical (Transfer Matrix Technique-TMT and Coupled Mode Theory-CMT) and numerical (Wide-Angle Finite Difference Beam Propagation Method-WA-FD-BPM) modeling techniques. The WA-FD-BPM technique allows one to simulate the multilayer waveguide and the MSM photodetector simultaneously. Coupled-mode theory FD-BPM de ângulo largo Fotodetetor MSM Integrated optic sensors MSM photodetector Prism coupling Prismas Sensores ópticos integrados Técnica da matriz de transferência Teoria de modos acoplados Transfer matrix technique Wide-angle FD-BPM
48	Dynamic characteristics of slender suspension footbridges Huang, Ming-Hui January 2006 (has links) Due to the emergence of new materials and advanced engineering technology, slender footbridges are increasingly becoming popular to satisfy the modern transportation needs and the aesthetical requirements of society. These structures however are always &quotlively" with low stiffness, low mass, low damping and low natural frequencies. As a consequence, they are prone to vibration induced by human activities and can suffer severe vibration serviceability problems, particularly in the lateral direction. This phenomenon has been evidenced by the excessive lateral vibration of many footbridges worldwide such as the Millennium Bridge in London and the T-Bridge in Japan. Unfortunately, present bridge design codes worldwide do not provide sufficient guidelines and information to address such vibrations problems and to ensure safety and serviceability due to the lack of knowledge on the dynamic performance of such slender vibration sensitive bridge structures. A conceptual study has been carried out to comprehensively investigate the dynamic characteristics of slender suspension footbridges under human-induced dynamic loads and a footbridge model in full size with pre-tensioned reverse profiled cables in the vertical and horizontal planes has been proposed for this purpose. A similar physical suspension bridge model was designed and constructed in the laboratory, and experimental testings have been carried out to calibrate the computer simulations. The synchronous excitation induced by walking has been modelled as crowd walking dynamic loads which consist of dynamic vertical force, dynamic lateral force and static vertical force. The dynamic behaviour under synchronous excitation is simulated by resonant vibration at the pacing rate which coincides with a natural frequency of the footbridge structure. Two structural analysis software packages, Microstran and SAP2000 have been employed in the extensive numerical analysis. Research results show that the structural stiffness and vibration properties of suspension footbridges with pre-tensioned reverse profiled cables can be adjusted by choosing different structural parameters such as cable sag, cable section and pretensions in the reverse profiled cables. Slender suspension footbridges always have four main kinds of vibration modes: lateral, torsional, vertical and longitudinal modes. The lateral and torsional modes are often combined together and become two kinds of coupled modes: coupled lateral-torsional modes and coupled torsionallateral modes. Such kind of slender footbridges also have different dynamic performance in the lateral and vertical directions, and damping has only a small effect on the lateral vibration but significant effect on the vertical one. The fundamental coupled lateral-torsional mode and vertical mode are easily excited when crowd walking dynamic loads are distributed on full bridge deck. When the crowd walking dynamic loads are distributed eccentrically on half width of the deck, the fundamental coupled torsional-lateral mode can be excited and large lateral deflection can be induced. Higher order vertical modes and coupled lateral-torsional modes can also be excited by groups of walking pedestrians under certain conditions. It is found that the coupling coefficient introduced in this thesis to describe the coupling of a coupled mode, is an important factor which has significant effect on the lateral dynamic performance of slender suspension footbridges. The coupling coefficient, however, is influenced by many structural parameters such as cable configuration, cable section, cable sag, bridge span and pre-tensions, etc. In general, a large dynamic amplification factor is expected when the fundamental mode of a footbridge structure is the coupled lateral-torsional mode with a small coupling coefficient. The research findings of this thesis are useful in understanding the complex dynamic behaviour of slender and vibration sensitive suspension footbridges under humaninduced dynamic loads. They are also helpful in developing design guidance and techniques to improve the dynamic performance of such slender vibration sensitive footbridges and similar structures and hence to ensure their safety and serviceability. footbridge suspension bridge dynamics vibration pedestrian walking humaninduced synchronous excitation resonance serviceability natural frequency coupled mode coupling coefficient pacing rate damping slender dynamic amplification factor dynamic characteristics pre-tension reverse profiled cable non-linear time history analysis
49	Bioculturalism, simulation and satire : the case of S1mOne Krajewska, Anna Urszula 03 1900 (has links) Text in English / This study offers a close look at Andrew Niccol’s (b 1964) satirical film S1mOne from a biocultural perspective emphasising the technological simulation of a Hollywood celebrity and the farce ensuing from her creation. The film is based on Niccol’s assumption that the hypertrophied culture into which he places his cultural object will be one in which human traits of sociality will be well advanced and the highly demanding genre of satire will be entertaining, persuasive, and on occasion punitive in its ridicule of Hollywood. The study makes a contribution to the idea that a cultural object/text operates as a rapid mechanism for propagating cognition — it shows how Niccol has adapted to less than optimal conditions in his world of Hollywood — in this case he parodies the role of the director of Hollywood films in the figure of Taransky. Cognition is understood as that series of mental processes which include attention, memory, learning (from mimicry as well as other forms), problem solving, ratiocination, and making decisions. Niccol relies on his audience's embodied capacities and skills of recognition, thinking, feeling, remembering, and accounting for his message to be understood. Niccol’s technical skill in editing his narrative to emphasise the satire of the narrative of Taransky and Simone is a critical part of the film’s success. Interpersonal and social propagation of cognition is achieved through reference to other cultural artefacts recalling a variety of similar ideas used in film and other visual creations. The cultural significance of the simulacrum, Simone, is that she is a vehicle for and a form of socially propagated cognition. The powerful imagistic impression of film helps to structure internalised cognitive artefacts in the viewers who are expected to reflect on their habits of viewing and thinking. When a film, artwork, poem or novel is analysed, then such a cultural object becomes a vehicle of and for propagating cognition. / Art History, Visual Arts and Musicology / D. Litt. et Phil. (Art History) Biocultural perspective Coupled systems Evolution of culture Framed narrative Narratives Propagated cognition Satire Simulacra Simulation 791.4372 Niccol, Andrew -- S1m0ne S1m0ne (Motion picture) Parody in motion pictures Motion pictures in propaganda Coupled mode theory Cognition and culture Motion pictures -- Computer simulation
50	Projeto, modelagem e fabricação de guias de onda ópticos integrados baseados em polímeros para aplicações em sensores / not available Juliano Alves de Lima 18 November 2002 (has links) Este trabalho visa o projeto, modelagem e fabricação de estruturas multicamadas baseadas em polímeros para aplicações como sensores ópticos integrados. A grande motivação para este trabalho está no fato de que estas estruturas, diferente da geometria Mach-Zehnder, dispensam o uso de litografia pois são completamente planares. Isto permite uma diminuição no custo de fabricação dos dispositivos além de permitir que estruturas mais curtas sejam utilizadas. Em se tratando de óptica integrada, as dimensões reduzidas da estrutura impõem severas penalidades no processo de lançamento de potência óptica na mesma. Por isso, será considerada neste estudo a utilização de prismas para o acoplamento de entrada do acoplador. Esta técnica, além de reduzir drasticamente os problemas de alinhamento decorrentes de acoplamento convencional do tipo \"End Fire\", permite uma transferência de potência óptica superior a 80% entre a fibra e o guia retangular. As variações na transferência de potência entre os guias de ondas da estrutura multicamada serão medidas através de um fotodetetor MSM integrado ao sensor. Este detetor, além de sua extrema facilidade de fabricação e baixos custos, torna o conjunto sensor mais robusto. Em se tratando de uma proposta de plataforma para sensores, serão também investigadas possíveis aplicações para esta estrutura, como por exemplo: refratômetro integrado, sensor de glicose, sensor de adulteração de combustível, etc. A análise das estruturas será efetuada por meio de técnicas de modelagem analíticas (Técnica da Matriz de Transferência - TMT e Teoria de Modos Acoplados - TMA), e numéricas (Método da Propagação de Feixe de Ângulo Largo formulado em Diferenças Finitas - WA-FD-BPM). Esta última permite que a estrutura do fotodetetor seja levada em consideração simultaneamente nas simulações. / This work concerns with design, modeling and fabrication of polymer based planar multilayer structures for integrated optic sensor applications. The motivation for this work is that planar multilayer structures, differently from the Mach-Zehnder geometry, do not require a lithographic process. As a consequence, significantly cheaper and shorter structures can be realized. The reduced dimensions of the structure, by its turn, pose a severe penalty in terms of optical power coupling. Therefore, this investigation will focus primarily on input (and output) prism coupling configuration. This technique, besides reducing the alignment requirements observed for conventional end-fire coupling, allows optical power coupling efficiency as high as 80% from fiber to rectangular waveguide. Any optical power transfer between the waveguides of the multilayer structure will be detected by an MSM photodetector integrated with the sensor. This low cost photodetector, besides improving the structure robustness, is quite ease to fabricate. Since the idea of this work is to develop a platform for integrated optic sensors, it will also be investigated possible applications for this structure, such as: integrated optic refractometer, glucose sensor and fuel adulteration sensor. The analysis of such structures will be carried out by means of analythical (Transfer Matrix Technique-TMT and Coupled Mode Theory-CMT) and numerical (Wide-Angle Finite Difference Beam Propagation Method-WA-FD-BPM) modeling techniques. The WA-FD-BPM technique allows one to simulate the multilayer waveguide and the MSM photodetector simultaneously. FD-BPM de ângulo largo Fotodetetor MSM Prismas Sensores ópticos integrados Técnica da matriz de transferência Teoria de modos acoplados Coupled-mode theory Integrated optic sensors MSM photodetector Prism coupling Transfer matrix technique Wide-angle FD-BPM

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