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Terahertz oscillation and stimulated emission from planar microcavitiesGehlhaar, Robert 20 July 2007 (has links) (PDF)
In the past decades, the miniaturization in optics led to new devices with structural sizes in the range of the light wavelength, where the photonic modes are con- fined and the number of states is limited. In the smallest microcavities, i.e. micrometer sized optical resonators, the propagation of only one mode is permitted that is simultaneously amplified internally. This particularly strong enhancement of the electric field is directly related to the quality factor of the cavity. By introducing an optical dipole into a high-Q microcavity, the spontaneous emission is amplified at the cavity mode frequency enabling stimulated emission in an inverted system. Although some of theses cavity e®ects can only be understood by quantum elec- trodynamic theory, most mechanisms are accessible by classical and semi-classical approaches. In this thesis, one-dimensional planar microcavities with quality factors up to 4500 have been fabricated by physical vapor deposition of dielectric thin films and organic active materials. A new cavity design based on anisotropic dielectric mirrors grown by oblique angle deposition microcavities with two energetically shifted orthogonally polarized modes is presented. The application of these anisotropic structures for terahertz di®erence signal generation is demonstrated in spectrally and time resolved transmission experiments, where optical beats with repetition rates in the terahertz range are observed. Optically pumped organic vertical cavity surface emitting lasers (VCSELs) have been realized by applying an organic solid state laser compound and high reflectance distributed Bragg reflectors. These lasers combine a very low laser threshold with small beam divergence and good stability. A transfer of the anisotropic design towards an organic VCSEL results in the generation of two perpendicularly polarized laser modes with a splitting adjustable by the fabrication conditions. The observation of an oscillation of two laser modes in a photomixing experiment proves a phase coupling mechanism. This demonstrates the potential of the anisotropic cavity design for a passive or active component in a terahertz radiation source or frequency generator. Furthermore, microcavities with two and three coupled resonators are investigated. By the application of time-resolved transmission experiments, spatial oscil- lations of the internal electric field - photonic Bloch oscillations - are successfully demonstrated. In combination with the anisotropic microcavities, this is a second concept for the modulation of transmitted light with terahertz frequencies. All experiments are accompanied by numerical or analytical models. Transmission experiments of continuously incident light and single laser pulses are compared with transfer matrix simulations and Fourier transform based approaches. For the modeling of emission experiments, a plane wave expansion method is successfully used. For the analysis of the organic VCSEL dynamics, we apply a set of rate equations that explains the gain switching process.
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Terahertz oscillation and stimulated emission from planar microcavitiesGehlhaar, Robert 17 July 2007 (has links)
In the past decades, the miniaturization in optics led to new devices with structural sizes in the range of the light wavelength, where the photonic modes are con- fined and the number of states is limited. In the smallest microcavities, i.e. micrometer sized optical resonators, the propagation of only one mode is permitted that is simultaneously amplified internally. This particularly strong enhancement of the electric field is directly related to the quality factor of the cavity. By introducing an optical dipole into a high-Q microcavity, the spontaneous emission is amplified at the cavity mode frequency enabling stimulated emission in an inverted system. Although some of theses cavity e®ects can only be understood by quantum elec- trodynamic theory, most mechanisms are accessible by classical and semi-classical approaches. In this thesis, one-dimensional planar microcavities with quality factors up to 4500 have been fabricated by physical vapor deposition of dielectric thin films and organic active materials. A new cavity design based on anisotropic dielectric mirrors grown by oblique angle deposition microcavities with two energetically shifted orthogonally polarized modes is presented. The application of these anisotropic structures for terahertz di®erence signal generation is demonstrated in spectrally and time resolved transmission experiments, where optical beats with repetition rates in the terahertz range are observed. Optically pumped organic vertical cavity surface emitting lasers (VCSELs) have been realized by applying an organic solid state laser compound and high reflectance distributed Bragg reflectors. These lasers combine a very low laser threshold with small beam divergence and good stability. A transfer of the anisotropic design towards an organic VCSEL results in the generation of two perpendicularly polarized laser modes with a splitting adjustable by the fabrication conditions. The observation of an oscillation of two laser modes in a photomixing experiment proves a phase coupling mechanism. This demonstrates the potential of the anisotropic cavity design for a passive or active component in a terahertz radiation source or frequency generator. Furthermore, microcavities with two and three coupled resonators are investigated. By the application of time-resolved transmission experiments, spatial oscil- lations of the internal electric field - photonic Bloch oscillations - are successfully demonstrated. In combination with the anisotropic microcavities, this is a second concept for the modulation of transmitted light with terahertz frequencies. All experiments are accompanied by numerical or analytical models. Transmission experiments of continuously incident light and single laser pulses are compared with transfer matrix simulations and Fourier transform based approaches. For the modeling of emission experiments, a plane wave expansion method is successfully used. For the analysis of the organic VCSEL dynamics, we apply a set of rate equations that explains the gain switching process.
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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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Germanosilicate Fibers And Bragg Gratings : Newer Efforts In Understanding Photosensitivity And Novel Methods For Strain-Temperature DiscriminationRahman, Aashia 07 1900 (has links)
The different topics covered in this thesis include photosensitivity in germanosilicate fibers/glasses and application of fiber Bragg grating sensors in simultaneous strain and temperature discrimination.
Fiber Bragg Gratings are wavelength dispersive refractive index structures manufactured through ultra-violet (UV) exposure of optical fibers. Their applications range from wavelength division multiplexing filters, dispersion compensators and fiber laser resonators for telecommunication applications to different types of point or distributive sensors for a variety of applications.
One aim of this thesis has been to understand the mechanism of photosensitivity in germanosilicate fibers/preforms. Studies undertaken in this part of the thesis include thermal dynamics of Fiber Bragg Gratings and nano-indentation on ultra-violet irradiated germanosilicate glass preforms.
An interesting, periodic appearance of a new peak has been observed in the reflected spectrum of Bragg grating inscribed in a germanosilicate fiber during thermal treatment. The new peak occurs on the longer wavelength side of the spectrum during heating and on the shorter wavelength side during cooling, following an identical reverse dynamics. A commercial grating with 99.9% reflectivity also shows a similar decay dynamics. The observed temperature induced distortion in refractive index modulation profile has been understood in the light of compaction-densification model. It is proposed that during the fabrication process of a grating, the modulation in the thermal expansion coefficient brought about by the interference fringes results in a non-uniform expansion throughout the grating length which in turn results in the distortion of the refractive index profile with increase/decrease in temperature. Since the reflection spectrum of a grating can be approximated as the Fourier transform of the refractive index profile, any distortion in the index profile results in the observed anomalous behaviour in the reflection spectrum.
Nano-indentation studies have been performed to measure the changes in mechanical properties of a glass preform subjected to different levels of ultra-violet exposure. The results reveal that short term exposure leads to an appreciable increase in the Young’s modulus suggesting the densification of the glass, confirming the compaction-densification model. However, on prolonged exposure, the Young’s modulus decreases, which provides the first direct evidence of dilation in the glass leading into the Type IIA regime. The present results rule out the hypothesis that continued exposure leads to an irreversible compaction and prove that index modulation regimes are intrinsic to the glass matrix.
In the second part of the thesis, three different schemes have been proposed for the use of Fiber Bragg Gratings as strain-temperature discriminating sensors:
(a) The first method is based on the measurement of the different characteristic wavelength shifts of two types of gratings. Strain and temperature sensitivities of a Type I Bragg grating (G1) in germania doped silica fiber, fabricated under normal conditions, and zero strain, are compared with that of a Bragg grating inscribed under pre-strained condition (G2). Experimental results show that both, strain and temperature sensitivities of G1 and that of G2 are different. Based on this study, we have proposed an approach which enables simultaneous discrimination of axial strain and temperature.
(b) In the second method, a single sensing element has been used to encode strain and temperature into an additional parameter other than the wavelength shift. The thermal out-diffusion of germanium from the core of a photosensitive fiber under elevated temperature is exploited to form a Fabry-Perot filter with a single Fiber Bragg Grating. The filter is fabricated using the standard phase-mask technique and one-time exposure. Energy Dispersive X-Ray analysis is used to measure the out-diffusion. The filter is used as a sensor for simultaneous measurement and discrimination of strain and temperature. The proposed technique, where a single grating is used to discriminate the parameters, provides a large advantage over other existing methods.
(c) In the third method, a compact design based on cross-wire arrangement of Fiber Bragg Gratings having identical Bragg resonance and different reflectivity is proposed for simultaneously sensing strain (uniaxial) and temperature. Two gratings are assembled orthogonal to each other on an aluminium base. The cross-wire design allows the two sensors to experience the same temperature but different strain. The gratings are identified by their respective reflectivity and, strain and temperature are resolved from the shift in Bragg wavelength. The proposed design exploits the fact that strain is a vector and temperature is a scalar parameter. This sensor has wide industrial application in discriminating strain from temperature effects.
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