Génération et étude de guides d'onde dynamiques et reconfigurables induits par illumination latérale / Study of reconfigurable light-induced waveguides induced by lateral illumination

Gorram, Mohamed

25 June 2009

La réalisation de réseaux optiques ne nécessitant pas l'intervention d'éléments électroniques pour la détection temporaire de signaux demande des éléments de routage et d'interconnexion optique, adaptables et reconfigurables en des temps courts, de l'ordre de la milliseconde dans le cas des réseaux de télécommunications. L'utilisation de guides d'onde optiques réalisés dans des matériaux actifs par des techniques conventionnelles telles que la diffusion d'ions, l'échange protonique ou l'implantation ionique se prêtent mal à ce but. Ces techniques donnent lieu exclusivement à des guides statiques, typiquement de surface qui ne sont pas facilement modifiables. La méthode de photo-inscription transversale développée dans le cadre de cette thèse permet de franchir un cap important vers la réalisation de dispositifs purement optiques dans les quels la lumière est utilisée pour guider et manipuler la lumière sans avoir recours à de complexes étapes de fabrication. L'avantage principal est que cet effet peut être effacé, donnant lieu à des structures dynamiques sans l'intervention d'endommagements permanents du matériau. Un autre avantage est la grande versatilité par rapport à la forme des guides qui est conditionnée par la structure imposée à l'illumination de contrôle perpendiculaire à la direction de propagation. La formation de guides d'onde reconfigurables planaires à une dimension (1D) transversale a été réalisée dans des cristaux ferroélectriques photoréfractifs comme le SrxBa1xNb2O6 (SBN) ou le Sn2P2S6 (SPS), dans les longueurs d'ondes du visible ([lambda] = 514 nm et [lambda] = 633 nm). Des temps de génération et de reconfiguration des guides de l'ordre de la milliseconde ont été atteints dans le SPS. La dynamique des guides a été étudiée en s'appuyant sur des traitements théoriques et des simulations numériques. Une nouvelle méthode pour la déflexion et la modulation se basant sur la photo-inscription de guides a été proposée et démontrée expérimentalement dans les matériaux SBN et LiTaO3. Nous avons aussi montré pour la première fois la possibilité de réaliser à l'aide de cette technique le confinement dans les deux dimensions (2D) transversales. Les études expérimentales concernant l'influence des intensités des illuminations de contrôle et du champ appliqué sur le profil du guide sont en bonne adéquation avec les prédictions théoriques concernant le mode fondamental attendu / The realization transparent achievement of optical networks that do not need electronic components for the temporary detection and regenration of signals asks for optical routing and interconnection elements which are reconfigurable in short time, in the order of milliseconds in the case telecommunications networks. The use of optical waveguides in active materials made of active materials by conventional techniques, such as ion-indiffusion, proton exchange or ion implantation is badly suitable for this goal. These techniques give rise only to static waveguides close to the material surface and they are not easily modified. The technique of light inducing waveguides by lateral illumination developed in this work allows to cross an important step towards purely optical devices in which light is used to guide and manipulate light without resorting to complex manufacturing steps. The main advantage is that this effect can be erased, giving rise to dynamic structures that do note cause a permanent damage of the material. Another advantage is the versatility with respect to the form of the waveguides, that is defined by the structure imposed to control the illumination perpendicular to the direction of propagation. The feasibility of reconfigurable 1-dimensional waveguides has been experimentally demonstrated in the electro-optic ferroelectric crystals SrxBa1xNb2O6 (SBN, x=0.61) and Sn2P2S6 (SPS). The illuminating wavelengths used were 514 nm for SBN and 633 nm for SPS. Response and reconfiguration times of the order of 1 ms are shown to be possible in the case of SPS. The dynamics of the waveguides has been studied on the basis of theoretical treatment and numerical simulations. The evolution of light induced one-dimensional waveguides when the sustaining electric field is switched off leads to a novel kind of dynamic light deflection. We have studied this effect in detail using SBN and LiTaO3 crystals. Simulations of the beam propagation in the split waveguide on the base of a simple model lead to a good agreement with the experimental observations. Light modulation by the help of this effect has been demonstrated as well. Finally, we realized for the first time, the recording of dynamically reconfigurable bulk channel waveguides confined in two dimensions using lateral illumination technique. The experimental studies of the dependence of the output probe wave profile on the intensities of two control waves and on the applied electric field were found to be in good agreement with the expectations based on a simplified step profile for the photorefractive by induced refractive index change and on mode calculations

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Guides optiques

Photo-inscription

Illumination transversale

Reconfiguration

Effet photoréfractif

Cristaux ferroélectriques

Electro-optique

Modification d'indice de réfraction

Beam Propagation Method (BPM)

SBN

SPS

LT

Properties Of High Energy Laser Light Transmission Through Large Core Optical Cables

Kennedy, Christopher

01 January 2013

Laser induced damage is of interest in studying the transmission of large amounts of optical energy through step-index, large core multimode fibers. Optical fibers often have to be routed around objects when laser light is being transmitted between two locations which require the fiber to bend into a curve. Depending on how tight the bend is, this can result in transmission losses or even catastrophic damage when the energy density of the laser pulse exceeds the damage threshold of silica glass. The purpose of this study is to: Establish a minimum bend radius that would allow high energy (GW/cm2 ) to be transmitted through multimode fiber. Evaluate unique fiber routing configurations including loops, 180 bends, and S-bends. Develop optical modeling simulations backed with experimental data that can serve to predict critical areas for future systems. Waveguide theory predicts that light traveling through a bend will form whispering-gallery modes that propagate through total internal reflection bounces along the inside of the outer edge of the bend. This is critical since in these locations the energy density of the light will increase significantly, raising the potential of laser damage, nonlinear effects, and transmission losses. This loss is especially problematic when two 90° bends going in opposite directions are in close proximity to each other, forming an ‘S-bend’. Light that is grouped along the outer edge going through the first bend will enter the second bend at a sharper angle which causes much high transmission losses and raises the possibility of failure. iv Models using R-Soft BeamProp and Zemax were developed to study transmission losses, investigate light interactions at critical areas, and predict under which conditions laser damage would occur. BeamProp presents a clearer view of the modal distribution of light within the core of the fiber and is used to analyze how a plane wave with a Gaussian intensity distribution excites the fiber modes. Zemax provides a tool to perform non-sequential ray tracing through the fiber cable and stray light analysis within the core and once the light exits the fiber. Intensity distributions of the cross sectional area of the fiber shows the whispering gallery modes forming as the light propagates around bends and disburses as it propagates afterwards. It was discovered using R-Soft that if the separation distance between bends in an S-bend is approximately 3 mm there exists a condition where maximum transmission occurs. For 365 µm diameter core fiber it was calculated that the difference in output power could be as high as 150%. This was initially completely unexpected; however ray tracing using Zemax was able to verify that this distance allows the light to transition so that it enters the 2nd bend at the optimal angle to enter the whispering gallery mode. Experiments were performed that validated the models’ predictions and images were captured clearly showing the spatial distribution shift of the light within the core of the fiber. Experiments were performed to verify light grouping together to form whispering gallery modes as predicted by Zemax. Microscope images were taken as a function of distance from various bends to observe the periodic nature in which the laser light fills up the fiber. Additionally, a configuration was setup to examine stimulated Brillioun scattering and determine the onset of laser damage in the fiber. Fibers were tested as a function of bend radius and number of shots v and recommendations for future systems were made. Lastly, mechanical failure tests were performed to determine the relationship between stress placed on the fiber through bending and fiber lifetime in a static environment. This allowed a minimum safe bend radius to be calculated for a 30 year lifetime that agreed with previous calculated values.

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Laser

high energy

large core optical fiber

fiber optic

stimulated brillouin scattering

rsoft

zemax

laser damage

beam propagation method

Electromagnetics and Photonics

Optics

Análise de dispositivos com materiais magnetoópticos para aplicações em sistemas de comunicações ópticas / not available

Gonçalves, Evandro Assis Costa

21 September 2001

As redes ópticas de comunicação têm possibilitado, cada vez mais, o oferecimento de serviços do tipo faixa larga. A rede de comunicação totalmente óptica está se tornando a meta tecnológica mais ambiciosa. Grandes esforços têm sido concentrados no desenvolvimento e aperfeiçoamento de materiais e dispositivos não-recíprocos, como isoladores e circuladores constituem uma importante classe de dispositivos ópticos. Os isoladores são utilizados em sistemas ópticos para prevenir a reflexão de luz em lasers e amplificadores. Os circuladores são empregados em esquemas de derivação de sinais que utilizam multiplexação em comprimento de onda (WDM). O funcionamento destes dispositivos é baseado nas propriedades de materiais magnetoópticos. As metas desta dissertação são apresentar as principais características dos materiais magnetoópticos, explorando as características não-recíprocas dos modos TM. Guias planares e tridimensionais são analisados neste trabalho. Para tanto, são obtidas as expressões das componentes dos campos e as equações características dos modos de interesse em estruturas planares por meio da técnica de matriz de transferência (TMT). A análise de propagação de onda em guias planares com materiais magnetoópticos é feita por meio de simulação numérica empregando o método de propagação de feixe (BPM) baseado em diferenças finitas (FD) e o esquema de Crank-Nicholson (CN) na discretização da solução da equação de onda. A condição de fronteira transparente (TBC) é incorporada ao algoritmo FD-BPM com a finalidade de se evitar reflexões de ondas eletromagnéticas para dentro da janela computacional. O método do índice efetivo é empregado na análise de guias de onda tridimensionais do tipo rib. / Optical communication networks have allowed a continuous increase of broadband services offer. The all-optical communication networks are becoming the most ambitious technological goal. Great efforts have been concentrated on the materiaIs and devices development and improvement to make it possible. Nonreciprocal devices, such as isolators and circulators constitute an important class of optical devices. Isolators are used in optical systems to avoid reflection of light in lasers and amplifiers. Circulators are used in signal derivation schemes that use wavelength division multiplexing (WDM). The operation of these devices is based on the properties of magnetooptic materiaIs. The purposes of this dissertation are to present the main features of the magnetooptic materiaIs as well as to analyze the eletromagnetic wave propagation in magnetooptic waveguides, exploring nonreciprocal features of TM modes. Planar and three-dimensional waveguides are analysed in this present study. Therefore expressions of electromagnetic field components and characteristic equations of the modes of interest in planar structures are obtained by using transfer matrix technique (TMT). The wave propagation analysis in planar magnetooptic waveguides is realized by using the finite-difference beam propagation method (FD-BPM) and Crank-Nicholson scheme (CN) applied to wave equation solution discretization. In order to avoid electromagnetic wave reflection into computational window, the transparent boundary condition (TBC) is incorporated to the FD-BPM formalism. The effective index method (EIM) is used in the analysis of three-dimensional rib magnetooptic waveguides.

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Beam propagation method

Diferenças finitas

Dispositivos não-recíprocos

Effective index method

Finite-difference

Magnetooptic materials

Materiais magnetoópticos

Método de propagação de feixe

Método do índice efetivo

Nonreciprocal devices

Optical communications systems

Sistemas de comunicações ópticas

Técnica de matriz de transferência

Transfer matrix technique

技能者による生産計画に対する工夫を支援する高機能CNC装置の開発

樋野, 励, 清水, 良明, 柳, 在圭

05 1900

科学研究費補助金 研究種目:基盤研究(C) 課題番号:16560225 研究代表者:樋野 励 研究期間:2004-2005年度

CNC device

CNC装置

Decentralized scheduling

Recursive propagation method

Schedule

Skilled worker

Tool path generation

スケジュール

分散スケジューリング

分散スケジュール

工具経路補正

技能者

Análise de dispositivos com materiais magnetoópticos para aplicações em sistemas de comunicações ópticas / not available

Evandro Assis Costa Gonçalves

21 September 2001

As redes ópticas de comunicação têm possibilitado, cada vez mais, o oferecimento de serviços do tipo faixa larga. A rede de comunicação totalmente óptica está se tornando a meta tecnológica mais ambiciosa. Grandes esforços têm sido concentrados no desenvolvimento e aperfeiçoamento de materiais e dispositivos não-recíprocos, como isoladores e circuladores constituem uma importante classe de dispositivos ópticos. Os isoladores são utilizados em sistemas ópticos para prevenir a reflexão de luz em lasers e amplificadores. Os circuladores são empregados em esquemas de derivação de sinais que utilizam multiplexação em comprimento de onda (WDM). O funcionamento destes dispositivos é baseado nas propriedades de materiais magnetoópticos. As metas desta dissertação são apresentar as principais características dos materiais magnetoópticos, explorando as características não-recíprocas dos modos TM. Guias planares e tridimensionais são analisados neste trabalho. Para tanto, são obtidas as expressões das componentes dos campos e as equações características dos modos de interesse em estruturas planares por meio da técnica de matriz de transferência (TMT). A análise de propagação de onda em guias planares com materiais magnetoópticos é feita por meio de simulação numérica empregando o método de propagação de feixe (BPM) baseado em diferenças finitas (FD) e o esquema de Crank-Nicholson (CN) na discretização da solução da equação de onda. A condição de fronteira transparente (TBC) é incorporada ao algoritmo FD-BPM com a finalidade de se evitar reflexões de ondas eletromagnéticas para dentro da janela computacional. O método do índice efetivo é empregado na análise de guias de onda tridimensionais do tipo rib. / Optical communication networks have allowed a continuous increase of broadband services offer. The all-optical communication networks are becoming the most ambitious technological goal. Great efforts have been concentrated on the materiaIs and devices development and improvement to make it possible. Nonreciprocal devices, such as isolators and circulators constitute an important class of optical devices. Isolators are used in optical systems to avoid reflection of light in lasers and amplifiers. Circulators are used in signal derivation schemes that use wavelength division multiplexing (WDM). The operation of these devices is based on the properties of magnetooptic materiaIs. The purposes of this dissertation are to present the main features of the magnetooptic materiaIs as well as to analyze the eletromagnetic wave propagation in magnetooptic waveguides, exploring nonreciprocal features of TM modes. Planar and three-dimensional waveguides are analysed in this present study. Therefore expressions of electromagnetic field components and characteristic equations of the modes of interest in planar structures are obtained by using transfer matrix technique (TMT). The wave propagation analysis in planar magnetooptic waveguides is realized by using the finite-difference beam propagation method (FD-BPM) and Crank-Nicholson scheme (CN) applied to wave equation solution discretization. In order to avoid electromagnetic wave reflection into computational window, the transparent boundary condition (TBC) is incorporated to the FD-BPM formalism. The effective index method (EIM) is used in the analysis of three-dimensional rib magnetooptic waveguides.

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Diferenças finitas

Dispositivos não-recíprocos

Materiais magnetoópticos

Método de propagação de feixe

Método do índice efetivo

Sistemas de comunicações ópticas

Técnica de matriz de transferência

Beam propagation method

Effective index method

Finite-difference

Magnetooptic materials

Nonreciprocal devices

Optical communications systems

Transfer matrix technique

Adaptivní regulátory s principy umělé inteligence v prostředí MATLAB - B&R / Adaptive controllers with principles of artificial intelligence

Pitra, Michal

January 2008

The diploma thesis is focused on an adaptive control, especially in a self-tuning controller area. The thesis is divided into two main parts. The first part deals with identification methods of the adaptive control. The recursive least squares algorithm and the neural network method are the most popular identification methods. These methods are contrasted and the identification quality evaluation is done. The second part compares various types of the adaptive controllers with a non-adjustable PSD controller. The adaptive controllers are investigated from the various identification method point of view. The user graphic interface was realized for the identification and regulatory part. The time behavior of system responses after incoming disturbance and dynamic process changes during simulation systems control is compared with a physical model connected to B&R PLC. The comparison is done with the application of Matlab/Simulink program.

Mitigation of Amplitude and Phase Distortion of Signals Under Modified Von Karman Turbulence Using Encrypted Chaos Waves

Mohamed, Fathi Husain Alhadi

08 September 2016

No description available.

Engineering

Electrical Engineering

Optics

Atmospheric turbulence

Gaussian beam

Fresnel-Kirchhoff diffraction integral

modified von Karman model

random phase screen

split-step beam propagation method

acousto-optic chaos

transfer function

Dispositivos em fibras ópticas baseados em interferência multimodal / Devices with optical fibres based on multimode interference

Pinilla Pachon, Edwin German, 1981-

03 May 2013

Orientadores: Cristiano Monteiro de Barros Cordeiro, Marcos Antonio Ruggieri Franco / Dissertação (mestrado) - Universidade Estadual de Campinas, Instituto de Física Gleb Wataghin / Made available in DSpace on 2018-08-22T12:56:38Z (GMT). No. of bitstreams: 1 PinillaPachon_EdwinGerman_M.pdf: 12541930 bytes, checksum: 74a0367c344ded9c8891d11280568b6b (MD5) Previous issue date: 2013 / Resumo: Nesta dissertação se estudou por simulação numérica o efeito de interferência multimodal (MMI, do inglês "multimode interference") em guias de onda, com atenção especial a fibras ópticas, e a resposta óptica do dispositivo MMI a parâmetros externos como temperatura, curvatura e índice de refração. Dispositivos baseados em MMI são formados, em geral, por três guias de onda concatenados sendo as extremidades compostas de guias monomodo e a parte central composta de um guia que permite a propagação de muitos modos, tipicamente, mais do que três. Nesta situação, na seção multimodo, são formadas reimagens que aproximadamente replicam fase e amplitude do campo óptico de entrada. A observação do espectro de transmissão correspondente à primeira reimagem, em dispositivos MMI, permite desenvolver sensores de índice de refração, temperatura e curvatura. A sensibilidade dos sensores foi avaliada frente às variações do mensurando, ou seja, variações no índice de refração, temperatura e curvatura da estrutura MMI em fibra óptica. / Abstract: In this work the effect of multimodal interference (MMI) in waveguides was studied by numerical simulation. Special attention was given to optical fibers and its the optical response when external parameters such as temperature, curvature or refractive índex were varied. MMI devices are usually formed by connecting three waveguides being the input and output ones single mode waveguides while the middle one is a waveguide that allows the propagation of many optical modes, typically more than three. In this situation re-images that replicate both the phase and the amplitude of the input optical field are formed periodically within the multimode section. The analysis of the transmission spectrum of the first re-image in MMI devices were realized in order to get information about the fiber environment, in particular the surrounding refractive índex, radius of curvature and temperature. The sensors sensitivity was evaluated. / Mestrado / Física / Mestre em Física

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Interferência multimodal

Método de propagação de feixe

Estrutura monomodo-multimodo-monomodo

Fibras óticas

Estruturas com fibra ótica

Sensor de curvatura

Sensor de índice de refração

Sensor de temperatura

Multimode interference

Beam propagation method

Optical fibers

Optic fiber structures

Curvature sensor

Index refraction sensor

Temperature sensor

Adaptivní optimální regulátory s principy umělé inteligence v prostředí MATLAB - B&R / Adaptive optimal controllers with principles of artificial intelligence

Mrázek, Michal

January 2008

Master’s thesis describes adaptive optimal controller design which change parameters of algorithm based on the system information regard for optimal criterion. Generally, the optimal controller solves the problem of minimum states vector. Problems of desired value and steady-state error are solved by variation in optimization algorithm.