Beiträge zur Dispersionskompensation basierend auf der Modenkonversion in höhere Moden und der Ausbreitung dieser Moden in Lichtwellenleitern / Investigation of dispersion compensation techniques based on mode conversion into higher order modes and propagation of these modes in optical wave guides

Otto, Michael

02 August 2007

Besides attenuation, dispersion is the major limiting factor in high data rate fiber optical transmission systems. Dispersion compensation techniques have to be deployed in order to increase the data bandwidth or the reach of fiber optical links. Typically fixed value dispersion compensators are used. However at channel bit rates of 40 GBit/s and beyond adjustable residual dispersion compensator modules (DCM) are needed to guarantee an error free transmission under changing environmental conditions. In this thesis dispersion techniques were investigated which exploit the special propagation properties of higher order modes in custom-designed optical fibers. After a short introduction of state-of-the-art dispersion techniques and their parameters (chapter 2) the modeling and calculation of propagation properties of a particular mode in an optical fiber with an arbitrary, rotation-symmetric refractive index profile is shown (chapter 3). A converter from the fundamental mode and back is needed in order to exploit the propagation properties of a higher order mode (HOM). In this work long-period gratings (LPG) were considered as mode converters (chapter 4) as they can excite selective and nearly lossless a higher order mode. The modeling und calculation of these gratings, based on the fiber calculation of chapter 3, is presented in the first part of chapter 4. Afterwards the manufacturing methods developed during this work are introduced. The spectral properties of realized long-period gratings are discussed and the influence of such factors as strain and temperature on tuning the mode conversion is shown. A dispersion compensator type utilizing only the waveguide dispersion of a certain mode in a custom few mode fiber (FMF) is the subject of chapter 5. The working principle, the fiber design process and first measurements of a realized HOM-DCM with almost completely coupling FMF-LPG are presented. Subsequently the principle of a novel dispersion compensator with an arbitrary dispersion function for a higher or the fundamental mode is explained. In chapter 6 another type of dispersion compensator is investigated consisting of equally distributed long-period gratings along an optical fiber. The fiber pieces between the gratings create a certain time delay between the fundamental mode and the considered higher order mode. It is shown in simulations and in an experiment, that by tuning the mode conversion of each grating and the optical phase relation between the two signal paths in each fiber piece this finite impulse filter structure is so adjusted to function as a tunable residual dispersion compensator.

Dispersionskompensation

Lichtwellenleiter

langperiodische Gitter

LPG

dispersion compensation

optical fiber

long-period grating

LPG

ddc:620

rvk:ZN 6280

Optical Fiber Sensors for Temperature and Strain Measurement

Zhou, Dapeng

January 2010

Optical fiber sensors have already been developed from the experimental stage to practical applications in the past 20 years. There is no doubt that this technology can bring a wealth of applications, ranging from sensors in medical industry, aerospace and wind-energy industries, through to distributed sensors in oil and gas industry. Among a large amount of physical and chemical parameters which optical fiber sensors could measure, temperature and strain are the most widely studied. This thesis presents several low-cost optical fiber sensor configurations primarily for temperature and strain measurement. Several basic optical fiber components which are good candidates as optical fiber sensors are used in our experiments, such as fiber Bragg gratings (FBGs), multimode fibers (MMFs), small-core dispersion compensation fibers (SCDCFs), high-birefringence fiber loop mirrors (HBFLMs), and polarization-maintaining photonic crystal fibers (PMPCFs). Temperature and strain cross sensitivity is a crucial issue when designing high performance optical fiber sensors, since most of the sensing components are both sensitive to temperature and strain. This would introduce an error when measuring each of them independently. We developed several schemes to overcome this problem by cascading an FBG and a section of MMF, inserting an FBG into an HBFLM, and space division multiplexing two HBFLMs. By measuring the wavelength shifts of the two independent components' spectra in each scheme, simultaneous measurement of temperature and strain could be achieved. However, all the above schemes need optical spectrum analyzers to monitor the spectral information, which increases the cost of the system and limits the operation speed. In order to avoid using optical spectrum analyzers, we use an intensity-based interrogation method with MMFs and HBFLMs as edge filters. By measuring power ratio changes, instead of monitoring spectra shifts, simultaneous measurement of temperature and strain could be realized with a low cost and high speed. The resolutions of the above five configurations are between 0.26 - 1.2 ^oC in temperature and 9.21 - 29.5 με in strain, which are sufficient for certain applications. We also investigate the sensing applications with the SCDCF. Since the cutoff wavelength of this kind of fiber is around 1663 nm, which makes it naturally an MMF in the wavelength range of 1550 nm. By slightly offsetting the core of the SCDCF with respect to that of the standard single-mode fiber (SMF), a high extinction ratio could be achieved with almost 9 dB. When a lateral force (lateral strain) applied on the SCDCF, extinction ratio will decrease. The change of the extinction ratio is almost independent of temperature variation. The measured extinction ratio change has a good quadratic relationship with respect to applied lateral force. This feature could be used to measure lateral force (lateral strain). In addition, we also use this feature to realize simultaneous measurement of both the longitudinal strain and lateral strain, since the applied longitudinal strain results in the whole spectrum shift. Moreover, a miniature high temperature sensor could also be made using the SCDCF. One end of a 4-mm long SCDCF is spliced directly to SMF with the other end cleaved. By monitoring the reflection spectrum of the SCDCF, temperature information could be obtained. This sensing head is very compact and could realize high temperature measurement up to 600 ^oC. Recently, a kind of PMPCF has been found to have very small responses to temperature change. This offers an opportunity to measure other parameters without considering temperature influence. We construct a compact 7-mm long transmission-type sensor with this kind of PMPCF. The interference spectrum generated by the coupling of cladding modes and core mode is obtained by slightly offsetting the PMPCF core to SMF core. The experiment shows that the interference spectrum is almost unchanged within the temperature range of 25-60 ^oC. The presented sensor has the potential to be used to measure strain and refractive index in the normal environment without temperature discrimination for practical applications.

Optical fiber sensors

Temperature and strain measurement

Fiber Bragg gratings

Multimode fibers

High-birefringence fiber loop mirrors

Physics

Gamma-rays and neutrons effects on optical fibers and Bragg gratings for temperature sensors

Morana, Adriana

06 December 2013

The nuclear industry shows an increasing interest in the fiber optic technology for both data communication and sensing applications in nuclear plants. The optical fibers offer several advantages and the sensors based on this technology do not need any electrical power at the sensing point, they have a quick response and they can be easily multiplexed: in the case of a temperature sensor, several thermocouples can be substituted by a single fiber, resulting in a decrease of the waste material. The fission reactors are a very harsh environment: it is characterized by the highest dose of gamma-rays, of the order of magnitude of GGy, besides a high flux of neutrons and high operating temperature (300°C for the current reactors, known as generation III). This work has been carried out in collaboration with AREVA, a French industrial conglomerate active in the energy domain, with the aim of realizing a temperature sensor resistant to the environment of nuclear reactor of generation IV, in particular a Sodium-cooled Fast Reactor. The currently used technology, the thermocouples, presents a drift of the measurement due to irradiation, that needs a calibration, and a long response time on the order of seconds. In order to remove the drift, to reduce the response time and to increase the precision, a Fiber Bragg Grating temperature sensor was chosen, in regard to all the advantages of the optical fibers. To understand the behavior of such system in a harsh environment, as the nuclear reactor core, we used an experimental approach based on complementary techniques such as radiation-induced attenuation, photoluminescence, electron paramagnetic resonance and Raman spectroscopies

Optical fiber

Bragg grating

Radiation

Gamma radiation

Neutrons

Temperature sensor

Optical millimeter-wave signal generation, transmission and processing for symmetric super-broadband optical-wireless access networks

Jia, Zhensheng

January 2008

Thesis (Ph.D.)--Electrical and Computer Engineering, Georgia Institute of Technology, 2009. / Committee Chair: Gee-Kung Chang; Committee Co-Chair: Jianjun Yu; Committee Member: John A. Buck; Committee Member: Joy Laskar; Committee Member: Umakishore Ramachandran; Committee Member: Ye Li

Innovative scintillating optical fibers for detecting/monitoring gamma radiation

Jayaprakash, Ashwini.

January 2006

Thesis (M.S.)--Mississippi State University. Department of Physics and Astronomy. / Title from title screen. Includes bibliographical references.

Design et développement d'un capteur à fibre optique pour la détection d'hydrogène / Design and development of an optical fiber sensor for hydrogen detection

Perrotton, Cédric

13 January 2012

La détection de l'hydrogène est une priorité environnementale. De nombreux capteurs à hydrogène ont déjà été développés, mais aucun d’eux ne répond aux exigences de l'industrie. Les capteurs à fibres optiques, électriquement isolés, sont d’excellents candidats pour fonctionner dans des environnements explosifs. Notre objectif est de développer un capteur à fibres optiques intrinsèque par Résonance de Plasmon de Surface pour la détection d’hydrogène. Dans cette thèse, nous étudions deux designs de capteurs à hydrogène. Le premier, basé sur la modulation d'amplitude, se compose d'une couche mince de Pd déposé sur le cœur de la fibre multimode, après avoir enlevé la gaine optique. Dans le second, basé sur la modulation de longueur d'onde, nous remplaçons la couche de Pd par un empilement de couches (Au / SiO 2 / Pd). Dans cette thèse, nous démontrons que les capteurs plasmoniques peuvent être une solution pour développer des capteurs à hydrogène fiables et rapides. Enfin, nous étudions des alliages de Mg comme matériaux sensibles à l’hydrogène afin d’optimiser la plage de détection des capteurs à hydrogène. / Hydrogen detection is an environmental priority. Numerous hydrogen sensors have been developed, but none of them meet the industry requirements. Optical fiber sensors, electrically isolated, are excellent candidates for operating in explosive environments. Our goal is to develop an intrinsic optical fiber sensor based on Surface Plasmon Resonance. In this thesis, we study two optical fiber hydrogen sensors. The first sensor, based on amplitude modulation, consists of a thin Pd layer deposited on the multimode fiber core, after removing the optical cladding. The second design, based on wavelength modulation, consists of replacing the single Pd layer by a Au/ SiO2/ Pd multilayer stack. We demonstrate in this thesis that plasmonic sensors may be a solution to develop fast and reliable fiber hydrogen sensors. Finally, we study Mg alloys as hydrogen sensitive material in order to improve the detection range of hydrogen sensors.

Capteur à fibres optiques

Hydrogène

Résonance de plasmon de Surface

Palladium

Optical fiber sensors

Hydrogen

Surface plasmon resonance

Palladium

621.36

681.25

Optique adaptative pour les télécommunications optiques / Adaptive optics for free space optical communication

Saab, Kassem

29 November 2017

Les télécommunications optiques en espace libre sont capables d'autoriser des débits de plusieurs dizaines de gigabits par seconde. Pour traiter ces débits en bénéficiant des techniques développées dans le cadre de l'optique fibrée, il est souhaitable d'injecter le faisceau reçu dans une fibre monomode. Ainsi, l'optique adaptative est proposée pour limiter les pertes d'injection induites par la dégradation de la qualité du faisceau propagé à travers la turbulence atmosphérique.Dans ce travail nous considérons un lien entre un satellite et une station de réception au sol. En élévation haute lorsque les perturbations d'amplitude peuvent être moyennées en augmentant la taille de la pupille la correction de la phase par optique adaptative (OA) classique peut être suffisante. Mes travaux dans ce cadre portent sur la mise en œuvre expérimentale de l'optimisation du couplage entre un système d'OA classique et une fibre monomode, en corrigeant les aberrations différentielles entre la voie de mesure de la surface d'onde et la voie d'injection du signal corrigé par OA. Le travail accompli dans l'objectif de cette mise en œuvre, se résume par les tâches suivantes : Définition d'une méthode d'optimisation automatique de l'injection par contrôle d'un seul miroir déformable pour la correction conjointe des perturbations rapides de la phase et des aberrations différentielles quasi-statiques ; Étude numérique de l'implantation de la méthode définie par simulation end-to-end ; Mise en œuvre de la méthode en laboratoire sur le banc BOA en modélisant la turbulence atmosphérique par des écrans de phase en rotation et validation du fonctionnement de l'optimisation de l'injection en boucle fermée ; Application de la méthode sur le banc ODISSEE à l'OCA puis fermeture de la boucle sur un signal optique émis par le satellite japonais SOCRATE.Par ailleurs, le lien satellite doit être opérationnel sur une durée maximale. Pour cela, le système doit fonctionner même dans le cas où le satellite est bas sur l'horizon et donc lorsque la portion d'atmosphère traversée par le faisceau est épaisse. Dans ces conditions particulières, les perturbations induites par les fluctuations de l'indice de l'air sont plus fortes que pour l'observation astronomique, donc la correction simultanée de la phase et de l'amplitude est indispensable pour atteindre le taux d'injection désiré (> 50 %). La deuxième partie de la thèse se place dans ce cadre et est consacrée à l'étude de l'implantation expérimentale d'une approche innovante de la correction de la phase et de l'amplitude fondée sur l'utilisation d'un Mach-Zehnder en optique intégrée. Le travail réalisé dans cette partie comporte les points suivants : Élaboration du principe de la correction par un Mach-Zehnder et proposition d'un dispositif généralisé à N voies ; Étude analytique de la correction par le dispositif proposé ; Développement d'un algorithme de contrôle fondé sur l'architecture proposée en optique intégrée ;• Validation numérique du fonctionnement par simulation end-to-end ; Conception d'un prototype pour la validation expérimentale du concept. / Free space optical communications are able to allow rates of several tens of gigabits/s. In order to process these flows and benefit from the techniques developed in the context of fiber optics, it is desirable to inject the received beam into a single mode fiber. In this case, adaptive optics is proposed to limit the injection losses induced by the degradation of the beam quality caused by the atmospheric turbulence.In this thesis, we consider a link between a satellite and a ground receiving station.For high elevations when amplitude perturbations can be averaged by increasing the size of the pupil and the correction of the phase is sufficient by conventional adaptive optics (AO), this work deals with the experimental implementation of the coupling optimization between a conventional AO and a single mode fiber, by correcting the non common path aberrations between the measurement path of the wave front and the injection path of the corrected signal. The accomplished work in this context is summarized by the following tasks: definition of an automatic injection optimization method by controlling a single deformable mirror for the parallel correction of fast phase disturbance and quasi-static differential aberrations; numerical study of the implementation of the proposed method defined end-to-end simulations ; implementation of the method in the laboratory on the BOA bench, modeling the atmospheric turbulence by rotating phase screens, and validation of the injection optimization in closed loop ; application of the method on the ODISSEE bench at the OCA and closing of the loop on a laser signal emitted by the Japanese satellite SOCRATE.Besides, the link must be operational for a maximum duration. Indeed, the system must operate even when the satellite is low on the horizon and, therefore, when the crossed portion of atmosphere is thick. In these particular conditions, the disturbances induced by the air index fluctuations are stronger than for astronomical observations, so that, the simultaneous correction of the phase and the amplitude is essential to reach the desired injection ratio (> 50 %). Based on this analysis, the second part of this thesis focuses on the study of the experimental implementation of an innovative approach of a phase and amplitude correction based on using an integrated Mach-Zehnder. The work done in this part consists in the following points : elaboration of correction principle by a Mach-Zehnder and proposition of a generalized device with N channels ; theoretical analysis of the superposition by the proposed device ; development of a control algorithm based on the architecture proposed in integrated optics ; numerical validation of operation by end-to-end simulations ; design of the prototype for the experimental validation of the concept in the laboratory.

Optique adaptative

Turbulence atmosphérique

Communication optique

Fibre optique

Adaptive optics

Atmospheric turbulence

Optical communication

Optical fiber

520

Aplicação de sensor de deslocamento angular em fibra óptica para medição de concentração de líquidos via ondas acústicas guiadas / Application of optical fiber angular displacement sensor for liquid concentration measurement by guided acoustic waves

Garcia, Marlon Rodrigues [UNESP]

23 February 2016

Submitted by MARLON RODRIGUES GARCIA null (marlon92319@aluno.feis.unesp.br) on 2016-04-18T18:04:02Z No. of bitstreams: 1 Dissertação Final - Marlon.pdf: 6766003 bytes, checksum: 4849566caadd0c8935bb400de40fb690 (MD5) / Approved for entry into archive by Felipe Augusto Arakaki (arakaki@reitoria.unesp.br) on 2016-04-19T14:54:06Z (GMT) No. of bitstreams: 1 garcia_mr_me_ilha.pdf: 6766003 bytes, checksum: 4849566caadd0c8935bb400de40fb690 (MD5) / Made available in DSpace on 2016-04-19T14:54:06Z (GMT). No. of bitstreams: 1 garcia_mr_me_ilha.pdf: 6766003 bytes, checksum: 4849566caadd0c8935bb400de40fb690 (MD5) Previous issue date: 2016-02-23 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES) / Neste trabalho aborda-se a utilização de um sensor de deslocamento angular em fibra óptica para a caracterização de líquidos utilizando-se ondas de Lamb e o modo quase Scholte (QSCH) propagados em placa metálica. O sensor reflexivo compreende duas fibras ópticas, uma emissora e outra receptora, uma lente positiva, uma superfície reflexiva, um laser e um fotodetector. Primeiramente, realiza-se um breve estudo sobre a propagação de ondas mecânicas guiadas em placas metálicas imersas em fluidos. Nesse estudo, são obtidas as curvas de dispersão para a velocidade de fase e para a velocidade grupo em função do produto frequência-semiespessura da placa, tanto para as ondas de Lamb quanto para o modo QSCH, considerando diferentes fluidos. Posteriormente, aborda-se o modelamento matemático do sensor reflexivo, obtendo-se as curvas características estáticas para quatro diferentes configurações. Em seguida, descreve-se o processo de montagem do sensor reflexivo, com todos os seus detalhes construtivos. Já na parte experimental, aplicando-se um pulso senoidal de envoltória gaussiana em um transdutor, investiga-se primeiramente a excitação do modo fundamental simétrico da onda de Lamb, S0. Captando-se simultaneamente os sinais da onda propagada na placa pelo sensor reflexivo e por uma piezocerâmica em modo de recepção, obtêm-se os valores experimentais da velocidade de grupo. Comparando-se os valores experimentais com os valores teóricos previstos pelas curvas de dispersão, percebe-se que o sensor reflexivo pode ser utilizado para se medir modos simétricos da onda de Lamb.Visando-se a caracterização de líquidos, imerge-se parcialmente uma placa de alumínio em um fluido sob teste, e excita-se o modo fundamental antissimétrico da onda de Lamb, A0. O modo A0 converte-se em modo QSCH na interface ar-fluido, o qual sofre reflexão na borda da placa e se reconverte em modo A0 na interface fluido-ar. Utilizando-se o sensor reflexivo, pode-se medir a velocidade de propagação do modo QSCH. Sabendo-se que a velocidade do modo QSCH é diferente para diferentes fluido, verifica-se que o sensor pode ser utilizado para medir porcentagens de misturas de fluidos. Adicionalmente, medem-se também os deslocamentos lineares gerados pelo modo A0 na placa de alumínio na direção out-of-plane, comparando-se os resultados com as medições realizadas por um interferômetro de Michelson. / In this work one approaches the use of an angular displacement optical fiber sensor for characterization of liquids using Lamb waves and quasi-Scholte waves (QSCH) propagated in a metal plate. The reflective sensor comprises two optical fibers, one emitting and another receiving, a reflective surface, a laser and a photodetector. Firstly, one develops a brief study about the propagation of mechanical waves in metal plates imbibed in fluids. In this study, one obtains the dispersion curves for the phase velocity and the group velocity as a function of the frequency-halfwidth product for both Lamb waves and QSCH mode, considering different fluids. Subsequently, it one approaches the mathematical modeling of the reflective sensor, obtaining the static characteristic curves for four different configurations. Next, one describes the assembly process of the reflective sensor, with all the construction details. In the experimental part, one investigates the excitement of the symmetrical fundamental mode of the Lamb wave applying a sinusoidal pulse of gaussian envelope. Catching up simultaneously the wave propagated signals by the reflective sensor and by a piezoceramic, one obtains the experimental values of the group velocity. Comparing the experimental values with the values proposed by the dispersion curves, one notices that the reflective sensor can be used to measure the symmetric modes of the Lamb waves. Aimed at the characterization of liquids, one immerges partially an aluminum plate in a fliud under test, and one excites the fundamental antisymmetric mode of the Lamb wave, A0. The A0 mode becomes QSCH in the air-fluid interface, which reflects in the edge of the plate and is reconverted into A0 mode in the fluid-air interface. Using the reflective sensor, one can measure the QSCH mode propagation velocity. Knowing that the QSCH velocity is different for different fluids, one verifies that the sensor can be used to measure percentages of fluid mixtures. One measures also the linear displacements generated by the A0 mode in the aluminum plate in the out-of-plane direction, comparing the results with the measurements made by a Michelson interferometer.

Ondas de Lamb

Sensor em fibra óptica

Caracterização de líquidos

Modo quase Scholte

Optical fiber sensor

Concentration measurement

Lamb waves

Liquids characterization

Sistema multiespectral portátil para monitoramento de oxigênio dissolvido em meios aquosos e da dinâmica de crescimento microbiano. / Portable multispectral system for oxygen dissolved monitoring in aqueous media and microbial growth dynamics.

Fatima Cristina de Oliveira

21 December 2017

Nos dias de hoje o controle e monitoração de sistemas biológicos relacionados ao controle ambiental tem sido considerado importante para o diagnóstico e biorremediação de sistemas aquosos como rios e lagos. A eficácia dos processos de controle está diretamente relacionada aos processos de medição \"in-situ\" em tempo real. Nesse sentido o presente trabalho apresenta o desenvolvimento de sistemas multiespectrais portáteis para monitoramento, \"in-situ\" e em tempo real, da dinâmica do crescimento microbiano utilizados em processos de biorremediação. Assim, para este fim foram desenvolvidos dois sistemas, um para monitorar a concentração de oxigênio dissolvido (OD) em meio aquoso e outro para monitorar a absorção óptica do meio de cultura. O sensor óptico para monitorar a concentração de OD está baseado em uma fibra óptica na qual em uma de suas pontas (extremidades) foi depositado um filme fino de Poli (cloreto de vinila) (PVC) dopado com moléculas de octaetilporfirina de platina (PtOEP) como parte sensível do dispositivo. O sensor mostrou resposta linear em regiões entre 4 e 18 mg/L de OD em meio aquoso, tendo como tempo de resposta de 8 s e tempo de recuperação de 236 s. O sistema de medida de absorção óptica do meio de cultura foi projetado e fabricado utilizando-se um fotodetector multiespectral e um diodo LED (600nm) como fonte de excitação. A aquisição, controle e processamento de sinais deste sistema está baseado em uma placa de aquisição NI modelo myRIO-1900 fabricado pela National Instruments, utilizando-se tecnologia Field Programmable Gate Array (FPGA). Os resultados obtidos com este sistema mostram ter o mesmo nível de desempenho se comparado ao de um sistema biofotométrico comercial na faixa de concentração entre 1,13 mg/ml à 2,11mg/ml. / Nowadays, the controlling and monitoring biological systems related to environmental control has been considered important for the diagnosis and bio-remediation of aqueous systems like rivers and lakes. The effectiveness of this control processes are directly related to \"in-situ\" and real-time measurement processes. In this sense the present work presents the development of portable multispectral systems for monitoring, \"in-situ\" and in real time, the dynamics of microbial growth used in bio-remediation processes. So, for this purpose were fabricated two systems, one to monitor the concentration of dissolved oxygen (DO) in aqueous medium and another to monitor the optical absorption of culture medium. The optical sensor to monitor the DO is based on an optical fiber in which in one of its ends was deposited a poly(vinyl chloride) (PVC) thin film doped with Platinum octaethylphorphyrin molecules (PtOEP) as part of the device. The sensor showed linear response in regions between 4 and 18 mg/L of DO in aqueous medium, with response time of 8s and the recovery time of 236s. The system of measurement of optical absorption of culture medium was designed and manufactured using a multispectral photodetector and a diode LED (600nm) as a source of excitation. The acquisition, signal processing and control of this system are based on an acquisition card NI myRIO-1900 model manufactured by National Instruments, using FPGA technology. The results obtained with this system shows to have the same level of performance to that of a commercial biophotometric system in the concentration range of 1.13 mg/mL to 2.11 mg/mL.

Fibra óptica

Octaetilporfirina de platina

Oxigênio

Sensor

Sistema multiespectral portátil

Optical fiber sensor

Oxygen dissolved

Platinum octaethylphorphyrin

portable multispectral system.

Aplicação de sensor de deslocamento angular em fibra óptica para medição de concentração de líquidos via ondas acústicas guiadas /

Garcia, Marlon Rodrigues.

January 2016

Orientador: Cláudio Kitano / Resumo: Neste trabalho aborda-se a utilização de um sensor de deslocamento angular em fibra óptica para a caracterização de líquidos utilizando-se ondas de Lamb e o modo quase Scholte (QSCH) propagados em placa metálica. O sensor reflexivo compreende duas fibras ópticas, uma emissora e outra receptora, uma lente positiva, uma superfície reflexiva, um laser e um fotodetector. Primeiramente, realiza-se um breve estudo sobre a propagação de ondas mecânicas guiadas em placas metálicas imersas em fluidos. Nesse estudo, são obtidas as curvas de dispersão para a velocidade de fase e para a velocidade grupo em função do produto frequência-semiespessura da placa, tanto para as ondas de Lamb quanto para o modo QSCH, considerando diferentes fluidos. Posteriormente, aborda-se o modelamento matemático do sensor reflexivo, obtendo-se as curvas características estáticas para quatro diferentes configurações. Em seguida, descreve-se o processo de montagem do sensor reflexivo, com todos os seus detalhes construtivos. Já na parte experimental, aplicando-se um pulso senoidal de envoltória gaussiana em um transdutor, investiga-se primeiramente a excitação do modo fundamental simétrico da onda de Lamb, S0. Captando-se simultaneamente os sinais da onda propagada na placa pelo sensor reflexivo e por uma piezocerâmica em modo de recepção, obtêm-se os valores experimentais da velocidade de grupo. Comparando-se os valores experimentais com os valores teóricos previstos pelas curvas de dispersão, percebe-se que... (Resumo completo, clicar acesso eletrônico abaixo) / Abstract: In this work one approaches the use of an angular displacement optical fiber sensor for characterization of liquids using Lamb waves and quasi-Scholte waves (QSCH) propagated in a metal plate. The reflective sensor comprises two optical fibers, one emitting and another receiving, a reflective surface, a laser and a photodetector. Firstly, one develops a brief study about the propagation of mechanical waves in metal plates imbibed in fluids. In this study, one obtains the dispersion curves for the phase velocity and the group velocity as a function of the frequency-halfwidth product for both Lamb waves and QSCH mode, considering different fluids. Subsequently, it one approaches the mathematical modeling of the reflective sensor, obtaining the static characteristic curves for four different configurations. Next, one describes the assembly process of the reflective sensor, with all the construction details. In the experimental part, one investigates the excitement of the symmetrical fundamental mode of the Lamb wave applying a sinusoidal pulse of gaussian envelope. Catching up simultaneously the wave propagated signals by the reflective sensor and by a piezoceramic, one obtains the experimental values of the group velocity. Comparing the experimental values with the values proposed by the dispersion curves, one notices that the reflective sensor can be used to measure the symmetric modes of the Lamb waves. Aimed at the characterization of liquids, one immerges partially an alumi... (Complete abstract click electronic access below) / Mestre

Ondas de Lamb

Sensor em fibra óptica

Caracterização de líquidos

Modo quase Scholte

Optical fiber sensor

Concentration measurement

Lamb waves

Liquids characterization