Electric Field Sensing in a Railgun Using Slab Coupled Optical Fiber Sensors

Noren, Jonathan Robert

27 March 2012

This thesis discusses the application of Slab Coupled Optical Fiber Sensors (SCOS) in a railgun. The specific goal of these sensors is to create an electric field profile at a specific point in the gun as the armature passes. The thesis explores the theory that powers the railgun as well as the principles of the SCOS sensors. It also elaborates on the various noise sources found throughout the detection system and concludes with a summary of the various field tests that were performed throughout this project. There are many benefits to using a railgun over traditional weapons in the field. These benefits not only include both safety and cost, but also greater overall defense capabilities. Unfortunately, the velocity skin effect (VSE) causes the current railgun designs to have limited life span through wear on the rails. In order to develop superior railguns and railgun armatures, the accurate detection of the VSE through measuring the electric field is of great interest. We used a SCOS, a small directionally precise dielectric sensor, as a small sensing area is required to be able to measure the electric fields inside of the rail gun. The actual usage of the SCOS within the railgun produced an additional set of problems that are not commonly encountered in the lab. The chief amongst these was noise from strain, RF pickup, and phase noise. This thesis also reports various methods used to reduce each of these noise sources.

optics

fiber optics

optical fiber sensors

slab coupled optical sensors

SCOS

electric field sensors

railgun

Electrical and Computer Engineering

Application of Variation of Parameters to Solve Nonlinear Multimode Heat Transfer Problems

Moore, Travis J

01 October 2014

The objective of this work is to apply the method of variation of parameters to various direct and inverse nonlinear, multimode heat transfer problems. An overview of the general method of variation of parameters is presented and applied to a simple example problem. The method is then used to obtain solutions to three specific extended surface heat transfer problems: 1. a radiating annular fin, 2. convective and radiative exchange between the surface of a continuously moving strip and its surroundings, and 3. convection from a fin with temperature-dependent thermal conductivity and variable cross-sectional area. The results for each of these examples are compared to those obtained using other analytical and numerical methods. The method of variation of parameters is also applied to the more complex problem of combined conduction-radiation in a one-dimensional, planar, absorbing, emitting, non-gray medium with non-gray opaque boundaries. Unlike previous solutions to this problem, the solution presented here is exact. The model is verified by comparing the temperature profiles calculated from this work to those found using numerical methods for both gray and non-gray cases. The combined conduction-radiation model is then applied to determine the temperature profile in a ceramic thermal barrier coating designed to protect super alloy turbine blades from large and extended heat loads. Inverse methods are implemented in the development of a non-contact method of measuring the properties and temperatures within the thermal barrier coating. Numerical experiments are performed to assess the effectiveness of this measurement technique. The combined conduction-radiation model is also applied to determine the temperature profile along the fiber of an optical fiber thermometer. An optical fiber thermometer consists of an optical fiber whose sensing tip is coated with an opaque material which emits radiative energy along the fiber to a detector. Inverse methods are used to infer the tip temperature from spectral measurements made by the detector. Numerical experiments are conducted to assess the effectiveness of these methods. Experimental processes are presented in which a coating is applied to the end of an optical fiber and connected to an FTIR spectrometer. The system is calibrated and the inverse analysis is used to infer the tip temperature in various heat sources.

variation of parameters

multimode heat transfer

inverse heat transfer

conduction-radiation

thermal barrier coating

optical fiber thermometer

Mechanical Engineering

Nonlinear Electrical Compensation For The Coherent Optical OFDM System

Pan, Jie

17 December 2010

No description available.

Electrical Engineering

Nonlinear distortion

Nonlinear systems

Volterra series

Wiener-Hammerstein model

Equalizers

Predistorter

Orthogonal functions

Optical fiber communication

OFDM

Femtosecond-Laser-Enabled Fiber-Optic Interferometric Devices

Yang, Shuo

11 November 2020

During the past decades, femtosecond laser micro-fabrication has gained growing interests owing to its several unique features including direct and maskless fabrication, flexible choice of materials and geometries, and truly three-dimensional fabrication. Moreover, fiber-optic sensors have demonstrated distinct advantages over traditional electrical sensors such as the immunity to electromagnetic interference, miniature footprint, robust performance, and high sensitivity. Therefore, the marriage between femtosecond laser micro-fabrication and optical fibers have enabled and will continue to offer vast opportunities to create novel structures for sensing applications. This dissertation focuses on design, fabrication and characterization of optical-fiber based interferometric devices for sensing applications. Three novel devices have been proposed and realized, including point-damage-based Fiber Bragg gratings in single-crystal sapphire fibers, all-sapphire fiber-tip Fabry-Pérot cavity, and in-fiber Whispering-Gallery mode resonator / Doctor of Philosophy / Optical fibers are an optical platform with cylindrical symmetry with overall diameter typically within 50 to 500 μm. The miniature footprint and large aspect ratio make it attractive in sensing applications, where intrusion, flexibility, robustness and small size are key design parameters. Beyond that, fiber-optic sensors also possess distinct operational advantages over traditional electrical sensors such as high sensitivity, immunity to electromagnetic interference (EMI), and fully distributed deployment. Owing to the above advances, fiber-optic sensors have been one of the key technologies in the broader sensing field for the past decades. However, the unique cylindrical shape of optical fiber makes it naturally less compatible to those well-developed fabrication technologies in the current sophisticated semiconductor industry. During the past decades, the possibility of three-dimensional (3D) writing inside transparent materials with tightly focused ultrafast laser pulses has attracted attention widely among the academy as well as the industry. Therefore, the marriage between ultrafast laser micro-fabrication and optical fibers have enabled and will continue to offer vast opportunities to create novel structures for sensing applications. This dissertation focuses on design, fabrication and characterization of optical-fiber based interferometric devices for sensing applications. Three novel devices have been proposed and realized, including point-damage-based Fiber Bragg gratings in single-crystal sapphire fibers, all-sapphire fiber-tip Fabry-Pérot cavity, and in-fiber Whispering-Gallery mode resonator.

Femtosecond laser

Ultrafast Laser Micro-fabrication

Optical Fiber

Interferometric

Fiber Bragg grating

Fabry-Pérot

Whispering-Gallery mode

Modulation de l'activité de structures cérébrales sous-corticales par optogénétique

Castonguay, Alexandre

03 1900

L’optogénétique est une technique prometteuse pour la modulation de l’activité neuronale. Par l’insertion d’une opsine microbienne dans la membrane plasmique de neurones et par son activation photonique, il devient possible de réguler l’activité neuronale avec une grande résolution temporelle et spatiale. Beaucoup de travaux ont été faits pour caractériser et synthétiser de nouvelles opsines. Ainsi, plusieurs variétés d’opsines sont désormais disponibles, chacune présentant des cinétiques et sensibilités à des longueurs d’onde différentes. En effet, il existe des constructions optogénétiques permettant de moduler à la hausse ou à la baisse l’activité neuronale, telles la channelrhodopsine-2 (ChR2) ou la halorhodopsine (NpHR), respectivement. Les promesses de cette technologie incluent le potentiel de stimuler une région restreinte du cerveau, et ce, de façon réversible. Toutefois, peu d’applications en ce sens ont été réalisées, cette technique étant limitée par l’absorption et la diffusion de la lumière dans les tissus. Ce mémoire présente la conception d’une fibre optique illuminant à un angle de 90° à sa sortie, capable de guider la lumière à des structures bien précises dans le système nerveux central. Nous avons conduit des tests in vivo dans le système visuel de souris transgéniques exprimant la ChR2 dans l’ensemble du système nerveux central. Dans le système visuel, les signaux rétiniens sont conduits au corps genouillé latéral (CGL) avant d’être relayés au cortex visuel primaire (V1). Pour valider la capacité de mon montage optogénétique à stimuler spécifiquement une sous-population de neurones, nous avons tiré profit de l’organisation rétinotopique existant dans le système visuel. En stimulant optogénétiquement le CGL et en tournant la fibre optique sur elle-même à l’aide d’un moteur, il devient possible de stimuler séquentiellement différentes portions de cette structure thalamique et conséquemment, différentes représentations du champ visuel. L’activation des projections thalamiques sera enregistrée au niveau de l’aire V1 à l’aide de l’imagerie optique intrinsèque, une technique qui permet d’imager les variations de la concentration d’oxygène et du volume sanguin dans le tissu neuronal, sur une grande surface corticale. Comme l’organisation rétinotopique est maintenue au niveau de l’aire V1, l’espace activé au niveau du cortex révèlera l’étendue spatiale de notre stimulation optogénétique du CGL. Les expériences in vivo démontrèrent qu’en déplaçant la fibre optique dans le CGL, il nous était possible de stimuler différents sous- ensembles de neurones dans cette structure thalamique. En conclusion, cette étude montre notre capacité à développer un système à base de fibre optique capable de stimuler optogénétiquement une population de neurone avec une grande précision spatiale. / Optogentics is a promising technic for neuronal activity modulation. By inserting a microbial opsin in the plasma membrane and by its photonic activation, it is possible to regulate neuronal activity with high temporal and spatial resolution. A lot of work has been done to characterize and synthetize new opsins. Thus, a wide variety of opsins are now available, presenting different kinetics and sensibility to specific wavelengths. Indeed, different opsins can either increase or decrease neuronal activity such as channelrhodopsin-2 (ChR2) or halorhodopsin (NpHR), respectively. This technology has the potential to stimulate a specific region within the brain in a highly reversible manner. However, little work was accomplished in this way, because to limitations due to absorption and scattering of light in biological tissue. This master’s thesis presents the conception of a side-firing optical fiber, capable of guiding light to specific structures within the brain. We conducted in vivo experiments in the visual system of transgenic mice expressing ChR2 in the entire central nervous system. In the visual system, retinal inputs are relayed to the lateral geniculate nucleus (LGN) before reaching the primary visual cortex (V1). To validate the capacity of the designed optogenetic assembly to stimulate specific sub-populations of neurons, we took advantage of the retinotopic organization existing in the visual system. By optogenetically stimulating the LGN and rotating the optical fiber around its axis with a motor, it is possible to sequentially stimulate different portions of this thalamic structure and consequently, different portions of the visual field. Activation of thalamic projections will be recorded in area V1 using intrinsic optical imaging, a technic allowing to image variations of blood oxygenation and blood volume in neuronal tissue over large cortical areas. Activation at the level of the cortex will reveal the spatial extent of the optogenetic stimulation in the LGN as retinotopic organization is maintained in V1 cortical area. In vivo experiments showed that displacing the optical fiber in the LGN allowed stimulation of different neuronal populations within this thalamic structure. In conclusion, this study demonstrates our capacity to develop a fiber-based system capable of optogenetically stimulating neuronal tissue with high spatial precision.

Optogénétique

Imagerie optique intrinsèque

Système visuel

Fibre optique

Optogenetics

Intrinsic optical imaging

Visual system

Optical fiber

Parametry sítí FTTx - kvalita služeb / Parameters of FTTx networks - Quality of services

Winkler, Aleš

January 2012

The main subject of this diploma thesis is to make a proposal to improve the optical access network for the transmission of Triple play services. I would here to the reader clarify method of proposal of optical network. There are described the kinds of optical access networks with parameters, for which we must look by their construction. There are described the modern methods of construction optical network too. In the theoretical part are discussed used architecture of networks too. I met here known standards, which I compared for big importance by their choice. A reason of construction of optical network are services known like Triple play. These services together with their problems and parameters are here discussed too. At the end of theoretical part I listed here measuring method for getting negative attribute distorting the led signal. In practical part the locality witch use the optical signal as the source of information is ordered. These network use unfit connections and has less possibilities than usual and this is the reason, why is the network not able to supply Triple play in requested quality. At first the analysis of ordered network was needed. Situation was complicated by the fact, that it has been prohibited entrance to me. The structure of network and network parts was known and documented by me. I made the proposals to improve this network in practical part. By the first proposal remained original kind of access network FTTB, but used new parts with higher performance. By the second proposal I made the network FTTH, by which it was possible to use the last haul optical cables with treatment and using new elements. It was needed to create solution by flat units. The resulting proposals are here evaluated, compared and cost evaluated. For rejection of access to optical network I did not make measuring, so I made simulation for variant FTTH for getting some parameters negative acting transmission.

Fiber optic chemical sensors based on molecularly imprinted polymers for the detection of mycotoxins / Capteurs chimiques à fibres optiques utilisant les polymères à empreintes moléculaires pour la détection des mycotoxines

Ton, Xuan-Anh

25 October 2013

Cette thèse décrit le développement de capteurs à fibre optique hautement sélectifs, utilisant des polymères à empreintes moléculaires (MIPs, de l’anglais molecularly imprinted polymers) comme éléments de reconnaissance, et se basant sur la fluorescence pour la détection. Nous avons étendu l’étude à d’autres types de capteurs et de méthodes de détection optiques, toujours basés sur les MIPs. Les MIPs sont des récepteurs synthétiques biomimétiques possédant des cavités spécifiques pour une molécule cible. Produits par un processus de moulage à l’échelle moléculaire, les MIPs sont capables de reconnaître et de se lier à leurs molécules cibles, avec des spécificités et affinités comparables aux récepteurs naturels. De plus, comparé aux récepteurs biologiques, les MIPs sont plus stables, moins chers et plus faciles à intégrer dans les procédés standard industriels de fabrication. Ainsi, les MIPs apparaissent comme une alternative intéressante aux biomolécules entant qu’éléments de reconnaissance dans les biocapteurs. Dans la première partie de la thèse (Chapitre 2), les MIPs ont été synthétisés en tant que micropointe à l’extrémité d’une fibre optique, par polymérisation in-situ induite par un laser en seulement quelques secondes. Les paramètres photoniques et physico-chimiques ont été optimisés pour moduler les propriétés des micro-objets de polymères. Des nanoparticules d’or ont été incorporées dans la micropointe de MIP afin d’induire une exaltation du signal. Afin de prouver l’efficacité de notre capteur, les études initiales ont été réalisées avec un MIP synthétisé avec le Ncarbobenzyloxy- L-phenylalanine (Z-L-Phe) comme template et le dérivé d’acide aminé fluorescentdansyl-L-phenylalanine, comme analyte. La fluorescence a été collectée de l’extérieur au niveau de la micropointe par une fibre optique connectée à un spectrofluorimètre, ou par collection du signal fluorescent ré-émis dans l’un des bras d’une fibre bifurquée en Y. L’analyse fluorescent a pu être détecté à des concentrations de l’ordre du nM. Afin de quantifier les analytes non fluorescents, un monomère fluorescent, possédant un groupe naphthalimide, a été incorporé dans le MIP ; celui-çidéployant une augmentation de la fluorescence quand l’analyte se lie. Utilisant ce système avec un MIP spécifique pour l’herbicide 2,4-D (acide 2,4-dichlorophénoxyacétique), des concentrations aussi basses que 2,5 nM en 2,4-D ont pu être mesurées. Le capteur MIP a également été appliqué à des analytes d’intérêt pour la sécurité alimentaire et le domaine nanostructurées. Cette étude pose les bases pour le développement futur de nanocapteurs et de Dans la dernière partie (Chapitre 4), une méthode d’analyse novatrice, basée sur l’utilisation des MIPs et l’analyse par polarisation de fluorescence, a été développée en vue de permettre la quantification directe et rapide d’analytes dans des échantillons alimentaires et environnementaux. Cette technique a été appliquée avec succès pour détecter des antibiotiques fluoroquinolones dans l’eau du robinet et le lait, en-dessous de leur limite maximale de résidus. En conclusion, nous pouvons dire que ce travail ouvre la voie vers l'application d'une nouvelle génération de capteurs optiques portables, robustes et miniaturisables basés sur les MIPs, pour des mesures «sur-site » et la quantification en temps réel d’analytes biologiques et environnementaux dans des milieux complexes. / This thesis describes the development of highly selective fiber optic sensors using molecularly imprinted polymers (MIPs) as recognition elements associated with fluorescence for detection. Additionally, we extended the study to the development of other MIP-based optical sensors and sensing methods. MIPs are synthetic biomimetic receptors possessing specific cavities designed for a target molecule. Produced by a templating process at the molecular level, MIPs are capable of recognizingand binding target molecules with selectivities and affinities comparable to those of natural receptors. Compared to biological recognition elements, MIPs are more stable, cheaper and easier to integrate into standard industrial fabrication processes. Hence, MIPs have become interesting alternatives to biomolecules as recognition elements for biosensing. In the first part of this thesis (Chapter 2), MIPs were synthesized by in-situ laser-induced photopolymerization in only a few seconds, as a micrometer-sized tip at the extremity of a telecommunication optical fiber. Photonic and physico-chemical parameters were optimized to tailor the properties of the polymer micro-objects. Gold nanoparticles were incorporated into the MIP microtip for signal enhancement. To prove the efficiency of the sensor, initial studies were performed with a MIP templated with N-carbobenzyloxy-L-phenylalanine (Z-L-Phe) and the fluorescent amino acid derivative dansyl-L-phenylalanine as analyte. The fluorescence was collected either externally at the tip level by an optical fiber connected to a spectrofluorimeter or by collection of the fluorescent signal re-emitted into the fiber through the second arm of a Y-shaped bifurcated fiber. The fluorescent analyte could be detected in the low nM concentrations. In order to monitor nonfluorescent analytes, a naphthalimide-based fluorescent monomer was incorporated into the MIP during its synthesis; fluorescence enhancement was observed when analyte binding occurs. Using this system, the sensor containing a MIP specific for the herbicide 2,4-dichlorophenoxyacetic acid (2,4-D), could detect and quantify this analyte at concentrations as low as 2.5 nM. The signaling MIP-based sensor was also applied to analytes of interest for food safety and biomedical applications, such as the mycotoxin citrinin and the sphingolipid, D-erythro-sphingosine-1-phosphate. In the second part of the thesis (Chapter 3), a different type of fiber optic sensor: cheap, fast and made for “single-use”, was developed by using 4-cm long disposable polystyrene evanescent wave optical fiber waveguides. The coating of the MIP was either performed ex-situ, by dip-coating the fiber in a suspension of MIP particles synthesized beforehand, or in-situ by evanescent-wave photopolymerization directly on the fiber. The resulting fiber optic sensor could detect 2,4-D in the low nM range and demonstrated specific and selective recognition of the herbicide over its structural analogues and other non-related carboxyl-containing analytes. Additionally, we demonstrated the versatility of the system by applying the evanescent wave fiber optic sensor to detect citrinin, a mycotoxin, by simply coating the waveguide with a MIP specific for citrinin. This type of technology could possibly be extended to detect other carboxyl-containing analytes, as long as a specific MIP for the concerned analyte is available. In parallel, the technique of evanescent-wave photopolymerization was used for the synthesis of signaling MIP microdots on continuous and nanostructured gold films. This study lays the foundations for future development of plasmonic MIP nanosensors and microchips. In the last part of the thesis (Chapter 4), an innovative sensing method, based on the use of MIPs and analysis by fluorescence polarization, was developed in order to allow the fast and directquantification of analytes in food and environmental samples.

Polymères à empreintes moléculaires

Capteurs chimiques

Récepteurs synthétiques

Capteurs biomimétiques

Photostructuration

Molecularly imprinted polymers

MIPs

Synthetic receptor

Biomimetic sensor

Optical fiber

Photostructuring

Sensor de força utilizando Fiber taper / Fiber taper based force sensor

Hernandez, Felipe Bueno

29 March 2016

Este trabalho teve por objetivo desenvolver e caracterizar um sensor de força utilizando uma fibra óptica modificada pelo processo conhecido como Fiber tapering. A fibra quando modificada deixa exposto o campo evanescente, o que a torna sensível a influências externas, e a luz guiada na fibra pode vir a sofrer reflexão interna total frustrada ao entrar em contato com materiais. Ao envolver a região modificada por um material elastomérico, a área de contato e consequentemente a atenuação torna-se uma função da intensidade da força aplicada, possibilitando então relacionar a força a atenuação da luz. Baseando-se nesse efeito, foi criado um sensor de dimensões reduzidas, de rápida resposta, linear, altamente sensível e de boa repetibilidade. Foi criado também um circuito eletrônico utilizando amplificadores operacionais para a aquisição e processamento do sinal proveniente da fibra e selecionado um sensor comercial comum para a realização de experimentos e comparações. Ambos os sensores foram posicionados sobre uma balança de precisão e submetidos a diversos esforços obtendo-se dados sobre a resposta estática. Em seguida utilizando um shaker eletrodinâmico foram medidos os tempos de resposta a uma entrada degrau, e realizando esforços repetitivos foram analisados os desvios das medidas lidas pelos sensores. / The aim of this research was to develop and characterize a force sensor using a modified optical fiber by a process known as Fiber tapering. The modified fiber leaves the evanescent field exposed and prone to external influences and the guided light may suffer frustration of total internal reflection upon contact with materials. When covering the modified fiber section with an elastomeric material, the contact area and therefore the attenuation becomes a function of the applied pressure, making it possible to relate force to attenuation in light intensity. Based on this effect, a small sensor was created, having a quick response time, with high linearity, high sensitivity and good repeatability. Along with the sensor, an electronic circuit using operational amplifiers was designed for acquisition and processing of the signal obtained from the optical fiber. In addition, in order to perform experiments and comparisons, a standard force sensor was chosen. Both sensors were placed over a precision weighing scale and had different intensities of force applied on them, and after that, data regarding static measurements was gathered. The response time was obtained using an electrodynamic shaker and applying a step input. Furthermore, data was gathered about the deviations on the measurements by performing a repetitive set of compressions.

Fiber taper

Envanescent wave

Fiber taper

Force sensor

Frustrated total internal reflection

Onda evanescente

Optical fiber sensor

Reflexão interna total frustrada

Sensor de fibra óptica

Sensor de força

Técnicas de caracterização para avaliação das propriedades mecânicas dos revestimentos de poliuretano acrilado de fibra óptica. / Characterization techniques for evaluation of mechanical properties of acrylic polyurethane coating of optical fiber.

Gualtieri, Carlos Eduardo

16 May 2002

A transmissão de dados e informação na fibra óptica vem aumentando nos últimos anos. O interesse para avaliar melhor a confiabilidade mecânica tomou-se uma necessidade, depois que uma fibra, de um cabo instalado, estava se partindo com muita facilidade. O foco principal deste trabalho foi voltado para estabelecer metodologias para avaliar o estado de degradação dos polímeros usados. Através destas técnicas, buscou-se encontrar parâmetros (E\', E\", tan &#948, Tg, etc.) que pudessem indicar o estado de degradação dos revestimentos. Diferentes técnicas foram empregadas para avaliar o revestimento das fibras tais como: calorimetria exploratória diferencial (DSC), diferencial fotocalorimetria (DPC), análise térmica dinâmico mecânico (DMTA) e espectroscopia na região do infravermelho (FIIR). A partir da técnica desenvolvida, DMTA, esta pode ser empregada para avaliar a confiabilidade mecânica de várias fibras comercias. As técnicas DMTA e FIIR mostraram ser muito promissoras, pois consegue-se, através delas, obter muitos dados a respeito das características dos polímeros. / The datas and information transmission in the optical fiber have been increasing in the last years. The interest to evaluate the mechanical reliability became necessary, after that a optical fiber, from a cable installed, was cracking very easily. The principal aim of this work was establishing methodologies to evaluate the polymer degradation state. Through of this techniques we search to find out parameters (E\', E\", tan &#948, Tg. etc) that could denote the degradation state of the coatings. Different techniques were utilized to evaluate the coating of the optical fibers such as: differential scanning calorimeter (DSC), differential photocalorimeter (DPC), dynamic mechanic thermal analyzer (DMTA) and infrared spectroscopy (FIIR). From the method development (DMTA), it was possible to evaluate the mechanical realiability of many commercial fibers. DMTA and FTIR techniques shown to be very promising to obtain very dates to respect of polymer characteristics.

Acrylic poliurethane coating

DMTA

DMTA

DPC

DPC

DSC

DSC

Fibra óptica

FTIR

FTIR

Mechanical properties

Optical fiber

Propriedades mecânicas

Revestimento de poliuretano acrilado

[en] EFFECTS AND APPLICATIONS OF NON-HOMOGENEOUS STRAINS IN BRAGG GRATINGS / [pt] EFEITOS E APLICAÇÕES DE DEFORMAÇÕES NÃO HOMOGÊNEAS EM REDES DE BRAGG

ADRIANO FERNANDES PINHO

21 September 2005

[pt] Redes de Bragg em fibras ópticas (RBF) são formadas por modulações periódicas introduzidas no índice de refração do núcleo de fibras ópticas. Estes componentes comportam-se como filtros espectrais de banda passante, ou seja, quando iluminados por um sinal óptico de banda larga, refletem apenas uma fina fatia espectral de luz, cujo centro, o comprimento de onda de Bragg, é proporcional ao período espacial da modulação no índice de refração. As RBF têm encontrado aplicações importantes no sensoriamento das mais diversas grandezas, sendo hoje utilizadas em sistemas de monitoramento para vários segmentos industriais, tais como os setores de petróleo e gás, construção civil e aeroespacial, que, estima-se, respondem em conjunto por cerca de 70% destas aplicações. Em diversas situações o sensoriamento com RBF baseia-se em medidas indiretas da grandeza de interesse, sendo empregados mecanismos de transdução que transformam variações do mensurando em deformações na fibra óptica. Nestes casos, um problema que deve ser tratado com atenção é o acoplamento entre temperatura e deformação, uma vez que as RBF são sensíveis a estas duas variáveis. Não raro, a alternativa é utilizar simultaneamente duas RBF para obter-se a compensação de temperatura na medida de deformação. Este trabalho apresenta um estudo sobre deformações não homogêneas em redes de Bragg e discute aplicações de duas técnicas que podem ser utilizadas como alternativas para eliminar o efeito da temperatura no sensoriamento de deformação com apenas uma RBF. A primeira delas explora a birrefringência óptica induzida na RBF por carregamentos transversais à fibra óptica. A segunda baseia-se nos efeitos sobre o espectro refletido pela rede de Bragg quando submetida a um campo de deformações longitudinais não uniformes ao longo da direção axial da fibra óptica. No trabalho são apresentados protótipos e dispositivos que exploram tais técnicas para a medida simultânea de pressão e temperatura. Esses protótipos foram projetados com auxílio de ferramentas CAD e modelados utilizando-se o método de elementos finitos em conjunto com a teoria de modos acoplados da Rede de Bragg. As previsões obtidas utilizando-se estes modelos mostraram-se bastante próximas dos resultados das implementações experimentais dos protótipos, indicando que a metodologia de modelagem desenvolvida pode ser aplicada nos projetos de transdutores baseados nas duas técnicas estudadas. / [en] Fiber Bragg gratings (FBG) are modulations in the effective refractive index of optical fibers, introduced in a small length along the fiber core. Such components operate as narrow band reflective filters, that is, when illuminated by a broad-band light source, they reflect a narrow spectral band centered at a specific wavelength, the Bragg wavelength. This wavelength is proportional to the spatial period of the refractive index modulation. Fiber Bragg gratings have find an increasing number of applications as sensors for different quantities, and today are being employed as part of permanent, real time monitoring systems in various industrial segments. The oil and gas sector, together with civil infrastructure and aeronautics and aerospace, account for almost 70% of this applications. In a number of situations, FBG sensing is based on indirect measurements of the quantity being monitored, and a transduction mechanism is employed to transform changes in the measured quantity in strain sensed by the optical fiber. Since the FBG is sensitive to strain and temperature, proper temperature compensation is always necessary. Usually, a second grating is employed to simultaneously measure temperature and strain, performing the required compensation. This thesis presents a study on effects due to non- homogeneous strains in the Bragg grating and discusses application of two different techniques, based on these effects, to allow temperature compensated strain measurement using a single FBG. The first technique explores strain induced optical birefringence when the fiber is loaded transversely. The second technique is based on changes in the spectral shape of the light signal reflected by the grating when subjected to non homogeneous axial strain fields. Prototypes of pressure and temperature transducers based on these techniques have been developed. These prototypes have been designed by employing CAD techniques and modeled using the finite element method in conjunction with the theory of coupled modes for fiber Bragg gratings. Comparisons between results provided by theoretical models and experimental realizations of the prototypes are very close, demonstrating that the developed approach can be applied to design transducers based on the discussed techniques. Results obtained with the proposed pressure and temperature sensors are also encouraging indicating that the two techniques are suitable for industrial applications.

[pt] SENSORES A FIBRA OPTICA

[en] OPTICAL FIBER SENSORS

[pt] SENSORES A REDE DE BRAGG

[en] BRAGG GRATING SENSOR

[pt] ESTRUTURAS INTELIGENTES

[en] SMART STRUCTURES

[pt] MATERIAL

[en] MATERIAL