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81	Surface plasmon resonance sensor based on the tilted fiber bragg grating / Shevchenko, Yanina. January 1900 (has links) Thesis (M.App.Sc.) - Carleton University, 2007. / Includes bibliographical references (p. 80-92). Also available in electronic format on the Internet.
82	Modeling holographic grating imaging systems using the angular spectrum propagation method / Blasiak, Thomas C. January 2006 (has links) Thesis (M.S.)--Rochester Institute of Technology, 2006. / Typescript. Includes bibliographical references (leaves 111-114).
83	Fabrication of Tapered Dual-core As2Se3-PMMA Fiber and Its Applications Gao, Song 15 January 2019 (has links) Fiber optical temperature and strain sensors have been extensively investigated for applications in the civil structures to ensure safety and prevent disasters in advance. Most of the demonstrated fiber sensors are based on the silica fibers to form an interferometer by measuring the spectrum wavelength shift caused by the change of the refractive index and fiber length, and the sensitivities, defined as the rate of wavelength shift with respect to temperature or strain, are limited by the small values of thermal-expansion coefficient and thermo-optic effect of the silica materials. To improve the sensitivity, we designed the dual-core As2Se3-PMMA fiber with the PMMA cladding diameter 56.5 times larger than that of the As2Se3 cores, which brings out many interesting sensing applications. Nonlinear devices have a variety of practical applications including parametric amplification, all-optical switching, super-continuum generation, and sensing applications. Tapered chalcogenide-polymer fiber structures composed of an As2Se3 core and a polymethyl methacrylate (PMMA) cladding are a promising platform for nonlinear applications because the As2Se3 core provides high nonlinearity over the near- and mid-infrared spectral ranges for compact nonlinear devices with low power consumption and the PMMA cladding provides high mechanical strength for easy handling. Advanced As2Se3-PMMA fiber structures such as dual-core fibers that support guided propagation of an even mode and an odd mode will open the way for a variety of novel devices in the near- and mid-IR wavelength range. In my work I utilized two As2Se3 fibers and a polymethyl methacrylate (PMMA) tube for the fabrication of dual-core As2Se3-PMMA tapers and demonstration of the sensing applications and nonlinear optical effects. The thesis mainly consists of three parts: the fabrication process, the sensing applications, and the nonlinear applications in the tapered dual-core As2Se3-PMMA fiber. In the first part, the fabrication process of the tapered dual-core As2Se3-PMMA fiber is introduced. The dual-core As2Se3-PMMA fibers are fabricated using a rod-in-tube method. The images of the setups and fibers in process are listed. In the second part, a theoretical model for temperature and strain measurement and four sensing applications are introduced. Firstly, we demonstrate an approach for high-sensitivity simultaneous temperature and strain measurement in a dual-core As2Se3-PMMA taper with As2Se3 core diameter of 0.55 μm. High measurement sensitivities are observed for both principal polarization axes of the tapered dual-core As2Se3-PMMA fiber with temperature sensitivities of -115 pm/ºC for axis-1, -35.5 pm/ºC for axis-2, and strain sensitivities of -4.21 pm/με for axis-1 and -3.16 pm/με for axis-2. Secondly, the thermal forces in a dual-core As2Se3-PMMA taper are investigated. A temperature-insensitive strain sensor is proposed and demonstrated based on the thermal forces. Finally, two approaches for temperature and strain sensitivity enhancement are investigated. The first approach is by reducing the value of the variation of the difference between phases of the even and odd modes with respect to wavelength (∂ϕd(λ)/∂λ) and increasing thermal-forces in a dual-core As2Se3-PMMA taper with As2Se3 core diameter of 2.5 μm. The value of ∂ϕd(λ)/∂λ decreases with the As2Se3 core diameter and thermal-forces on the As2Se3 cores are enhanced in the fibers with large PMMA cladding, which work together to enhance the measurement sensitivity. The second approach is based on effective group-velocity matching between the even and odd modes of a dual-core As2Se3-PMMA taper on which an antisymmetric long-period grating is inscribed. The variation of the difference between phases of the even and odd modes with respect to wavelength tends to 0 (∂ϕd(λ)/∂λ→0) near the resonance wavelength of the grating due to the effective group-velocity matching between the two modes, and consequently, thermally-induced change of the difference between phases of the two modes ϕd (λ) leads to a large wavelength shift indicating enhancement of the temperature measurement sensitivity. In the third part, I study the nonlinear optical effects in the hybrid fibers. Firstly, I demonstrate modulation instability within the normal-dispersion regime in a dual-core As2Se3-PMMA fiber. Then I review the work about the forward stimulated Brillouin scattering and its sensing applications. The radial and torsional-radial guided acoustic modes of silica fibers and tapered dual-core As2Se3-PMMA fibers are investigated experimentally and the preliminary results are presented. Fiber optics sensors Fiber optics Fiber materials Gratings
84	[en] BRAGG GRATING IN OPTICAL FIBERS AND APPLICATIONS / [pt] REDES DE BRAGG EM FIBRAS ÓPTICAS E APLICAÇÕES LILIANA ROCHA KAWASE 07 June 2006 (has links) [pt] O objetivo principal deste trabalho foi o de estudar as redes de Bragg em fibras ópticas e suas principais aplicações, com especial interesse na compensação de dispersão de pulsos ópticos em sistemas de telecomunicações, onde uma implementação original foi construída. Faz-se uma revisão geral das técnicas existentes para fabricá-las e caracterizá-las, além de suas principais aplicações, não somente na área de telecomunicações mas também na área sensoriamento óptico. São mostrados os resultados experimentais obtidos nas montagem realizadas para escrever redes de Bragg em fibras ópticas e para caracterizá-las. Algumas experiências usando redes de Bragg para o controle do comprimento de onda de emissão de um laser de semicondutor e para medição de força aplicada numa estrutura são mostradas. São mostrados também os resultados experimentais inéditos obtidos com a compensação de dispersão de pulsos ópticos em enlaces de telecomunicações, onde várias montagens foram realizadas para comprovar a superioridade da utilização da redes de Bragg para esse fim. Demonstra-se também um sistema para gerar pulsos solitônicos sintonizável em comprimento de onde numa faixa de MHZ. Finalmente são mostrados os resultados obtidos com a utilização de fibras ópticas para chaveamento interferométrico de luz. Neste sistema são utilização como elemento óptico não linear fibras tipo D, com e sem redes de Bragg, revestidas com filme de materiais semicondutores amorfos. / [en] Bragg grating in optical fibers are used to compensate the dispersion of optical pulses in telecommunication systems. Initially, an overview is presented of the existing fabrication techniques of such gratings, as well as the techniques used for characterization. Some useful applecations in telecommunications and sensing are also shown. The results obtained in the set-up to write and to characterize Bragg gratings are presented. Some measurements were also done with typical applications such as controlling the emitting wavelength in semiconductors lasers, and monitoring the applied pressure in an optical fiber. Some new results are described on dispersion compensation in fibers. Using specially chirped Bragg gratings to pre- compensatedispersion of an optical pulse in a 80 km fiber link, we demonstrated that the poor quality of the input laser pulses has little impact on the duration of the pulses recovered after transmission. Finally, an interferometric switching arrangement using a semiconductor coated D fiber as nonlinear control element, is presented. The configuration uses infrared optical pulses to control a continuous wave light signal. It is also shown that the original reflected wavelength of a semiconductor coated D-fiber with Bragg grating can be shited with an external optical control signal. [pt] TELECOMUNICACOES [en] TELECOMUNICATIONS [en] OPTICAL FIBERS [pt] REDES DE BRAGG [en] BRAGG GRATINGS
85	Leitura de redes de Bragg por modulação ótica Oliveira, Valmir de 2010 October 1914 (has links) Neste trabalho é apresentado um sistema de leitura de redes de Bragg derivado da técnica por filtro Fabry-Perot sintonizável. A técnica apresentada é implementada através de um sistema atuador piezelétrico que modula mecanicamente uma rede de Bragg de referência, com seu espectro de reflexão convoluido com o espectro de reflexão de uma rede sensora. A técnica desenvolvida apresenta vantagens em relação ao processo original por ter implementação mais simples, menor custo e melhor discriminação de posição espectral. / This work presents a process to detect Bragg grating spectra based on the tunable Fabry Perot filter technique. The apparatus is assembled with a piezoelectric actuator that mechanically modulates a reference Bragg grating. The spectrum of that grating is convoluted with the spectrum of the sensor during a sweep. The device presents some advantages as, eg., simplicity, lower cost and better discrimination for the spectral position of the reflected band. Fibras óticas Redes de Bragg Fiber optics Bragg gratings
86	[en] DISPERSION COMPENSATION USING OPTICAL FIBRE CHIRPED BRAGG GRATTINGS / [pt] COMPENSAÇÃO DE DISPERSÃO CROMÁTICA COM O EMPREGO DE REDES DE BRAGG EM FIBRA COM CHIRP WALDEMAR ROBERTO RUZISCKA 09 November 2006 (has links) [pt] A utilização de redes de Bragg com chirp em fibra, para compensação dos efeitos da dispersão cromática, é uma técnica promissora que permite o aumento progressivo da capacidade de canalização dos sistemas ópticos. Dentre as diversas técnicas para a compensação da dispersão, sendo propostas nos tempos correntes, o emprego da rede de Bragg em fibra tem se mostrado o mais exequível em virtude de serem passivas, relativamente fáceis de fabricar, de boa reprodutibilidade e alto grau de integrabilidade aos sistemas. Este trabalho mostra a aplicação desse dispositivo em experimentos de compensação de dispersão com o emprego de modulação direta e externa em diferentes taxas de transmissão. / [en] The use of in-fibre Bragg gratings with dispersion compensating purposes, is a promissing technique for the increasing optical systems bitrate pace development. Among the various dispersion compensation techniques, in-fibre Bragg gratings had proven, to be the most feasible. They are passive, higly reproducible, relatively easy to fabricate at reasonable costs and have a good degree of integrability. This dissertation exploits significant aspects of the Bragg fibre grating fabrication and its employment as dispersion compensation device. [en] OPTICAL FIBERS [pt] DISPERSAO [en] DISPERSION [pt] REDES DE BRAGG [en] BRAGG GRATINGS
87	Development of a multi-point temperature fiber sensor based on a serial array of optical fiber interferometers Della Tamin, Michelin 29 June 2015 (has links) M.Ing. (Electrical and Electronic Engineering) / An experimental study of a multi-point optic fibre sensor for monitoring temperature changes is presented. The multi-point optic fibre sensor is made of a serial array of weak-reflectivity identical gratings. The weak-reflectivity identical gratings form the interferometric cavities UV printed on the single mode fibre. The ability to measure temperatures changes at different cavities along the serial array is particularly interesting for the monitoring of power transformers, high temperature furnaces and jet engines. Changes in temperature in each respective cavity is measured based on the spectral shift in the phase of the light from each respective cavity. The performance of the multi-point fibre sensor system is evaluated. Further, a theoretical and experimental investigation of a serial array composed of two cavities of different lengths is conducted. This investigation is aimed at measuring the impact of the overlap of the two distinct cavities in their respective frequency domain and determining the accuracy of the measurement. The result found shows that the sensor phase response is no more linear to temperature changes. It is also found that the nonlinear response of the sensor to temperature changes increases with the magnitude of the overlap. Interferometers Optical fibers Bragg gratings Optical fiber detectors
88	Diseño, fabricación y caracterización de sensores basados en fibras ópticas de múltiples núcleos Madrigal Madrigal, Javier 14 February 2022 (has links) [ES] La fibra óptica ha supuesto una gran revolución en el mundo de las telecomunicaciones debido a su alta capacidad de transmisión y sus bajas pérdidas. Hoy en día no sería posible transportar la cantidad de tráfico que se genera en internet si no fuera por sis- temas de comunicaciones basados en fibras ópticas. Sin embargo, el número de dispo- sitivos conectados a internet es cada vez mayor, por lo que la capacidad de la fibra óptica estándar de un solo núcleo se puede ver limitada en un futuro no muy lejano. Una forma de aumentar dicha capacidad es utilizar fibras ópticas con varios núcleos. Actualmente existe un gran interés sobre la investigación en este tipo de fibras para aplicaciones de telecomunicaciones, por lo que no es difícil encontrar fibras multinú- cleo comerciales. Aunque el uso más común de la fibra óptica es para telecomunicaciones, también se puede utilizar como sensor. Uno de los métodos más comunes para la implementa- ción de sensores es la inscripción de redes de difracción en fibras ópticas de un solo núcleo. Sin embargo, la inscripción de redes de dirección en fibras de múltiples núcleos abre nuevas líneas de investigación para el desarrollo de sensores avanzados. En esta tesis se ha estudiado distintos tipos de redes de difracción inscritas en una fibra de siete núcleos para su aplicación en la implementación de sensores. En primer lugar, se describe el sistema de fabricación que permite inscribir distintos tipos de redes de difracción en la fibra multinúcleo de forma selectiva, es decir, permite seleccionar en que núcleos se va a inscribir la red. Mediante este sistema se han inscrito redes de periodo largo y posteriormente se han caracterizado como sensor de deformación, tor- sión y curvatura. Después, se han inscrito redes de Bragg inclinadas para aumentar de forma intencionada la diafonía entre los núcleos de la fibra mediante el acoplo de luz entre ellos. Además, se ha demostrado experimentalmente que esta diafonía es sensible a la deformación de la fibra, a la curvatura, a la temperatura y al índice de refracción que rodea la fibra. Por otro lado, se ha demostrado que las redes de Bragg inscritas en fibras multinúcleo se pueden utilizar para implementar sensores de curvatura capaces de operar en entornos radioactivos. Finalmente se han fabricado redes de Bragg rege- neradas capaces de operar a altas temperaturas, estas redes se han caracterizado como sensor de temperatura, deformación y curvatura. / [CAT] La fibra òptica ha suposat una gran revolució en el món de les telecomunicacions a causa de la seua alta capacitat de transmissió i les seues baixes pèrdues. Hui en dia no seria possible transportar la quantitat d'informació que es genera en internet si no fos pels sistemes de comunicacions basats en fibres òptiques. No obstant això, el nombre de dispositius connectats a internet es cada vegada més gran, per la qual cosa la capacitat de la fibra òptica estàndard d'un sol nucli es pot veure limitada en un futur no gaire llunyà. Una manera d'augmentar aquesta capacitat es utilitzar fibres òptiques amb diversos nuclis. Actualment existeix un gran interès sobre la investigació en aquesta mena de fibres per a aplicacions de telecomunicacions, per la qual cosa no es difícil trobar fibres de múltiples nuclis comercials. Encara que l'ús mes comú de la fibra òptica es per a telecomunicacions, també es pot utilitzar com a sensor. Un dels mètodes més comuns per a la implementació de sensors es la inscripció de xarxes de difracció en fibres òptiques d'un sol nucli. No obstant això, la inscripció de xarxes de difracció en fibres de múltiples nuclis obri noves línies d'investigació per al desenvolupament de sensors més complexos. En aquesta tesi s'ha estudiat diferents tipus de xarxes de difracció inscrites en una fibra de set nuclis per a la seua aplicació en la implementació de sensors en fibra òptica. En primer lloc, es descriu el sistema de fabricació de xarxes de difracció que permet inscriure diferents tipus de xarxes de difracció en la fibra de múltiples nuclis de manera selectiva, es a dir, permet seleccionar en que nuclis s'inscriurà la xarxa. Mitjançant aquest sistema s'han inscrit xarxes de període llarg i posteriorment s'han caracteritzat com a sensor de deformació, torsió i curvatura. Després, s'han inscrit xarxes de Bragg inclinades per a augmentar de manera intencionada la diafonia entre els nuclis de la fibra mitjançant l'acoblament de llum entre ells. A més d'això, s'ha demostrat experimentalment que aquesta diafonia es sensible a la deformació de la fibra, a la curvatura, a la temperatura i a l'índex de refracció que envolta la fibra. D'altra banda, s'ha demostrat que les xarxes de Bragg inscrites en fibres múltiples nuclis es poden utilitzar per a implementar sensors de curvatura que poden operar en entorns radioactius. Finalment s'han fabricat xarxes de Bragg regenerades que suporten altes temperatures, aquestes xarxes s'han caracteritzat com a sensor de temperatura, deformació i curvatura. / [EN] Optical fiber has been a great revolution in the world of telecommunications due to its high transmission capacity and low attenuation. Today it would not be possible to transport the amount of traffic that is generated on the Internet without communication systems based on optical fibers. However, the number of devices connected to the Internet is increasing, so the capacity of standard single-core fiber optics may be limited so far in the future. One way to increase this capacity is to use multi-core optical fibers. Nowadays is a great interest in research in this type of fibers for telecommunications applications, so it is not difficult to find commercial multicore fibers. Although the most common use of fiber optics is for telecommunications, it can also be used as a sensor. One of the most common methods for sensor implementation is the inscription of diffraction gratings on single-core optical fibers. However, the enrollment of steering networks in multi-core fibers opens new lines of research for the development of advanced sensors. In this thesis, different types of diffraction gratings inscribed in a seven-core fiber have been studied for their application in the implementation of sensors. In the first place, the diffraction grating manufacturing system is described that allows to inscribe different types of diffraction gratings in the multicore fiber selectively, that is, it allows to select in which cores the grating is going to be inscribed. By means of this system, long-period networks have been inscribed and subsequently they have been characterized as a deformation, torsion, and curvature sensor. Then, slanted Bragg gratings have been inscribed to intentionally increase the crosstalk between the fiber cores by coupling light between them. Furthermore, this crosstalk has been experimentally shown to be sensitive to fiber deformation, curvature, temperature, and the index of refraction surrounding the fiber. On the other hand, it has been shown that Bragg networks inscribed in multicore fibers can be used to implement curvature sensors capable of operating in radioactive environments. Finally, regenerated Bragg nets capable of operating at high temperatures have been manufactured. These nets have been characterized as a temperature, deformation, and curvature sensor. / Agradezco a la Universitat Politècnica de València la beca FPI (PAID-01-18) que me fue concedida para realizar está tesis. / Madrigal Madrigal, J. (2022). Diseño, fabricación y caracterización de sensores basados en fibras ópticas de múltiples núcleos [Tesis doctoral]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/180806 / TESIS Multi Core Fiber (MCF) Tilted Fiber Bragg Gratings (TFBG) Regenerated Fiber Bragg Gratings (RFBGs) Long Period Gratings (LPGs) Fiber Bragg gratings (FBGs) Fibra óptica multinúcleo Sensores Redes de fibra de Bragg inclinadas Redes de fibra de Bragg regeneradas TEORIA DE LA SEÑAL Y COMUNICACIONES
89	Propagation Effect In Inhomogeneous Media, Including Media With Light-induced And Fixed Gratings Tsai, Chang-Ching 01 January 2006 (has links) Optical waves propagation in various types of volume gratings, materials with constant impendence and optical fibers are studied. Instability of crossphase modulation and of Energy transfer via GRON-type (Grating-type Orientational Nonlinearity in Liquid Crystal) Stimulated Scattering is numerically observed. Two diffractive optical elements made of volume gratings are suggested and analyzed. A transmission hologram based on the analogy with Stimulated Raman Adiabatic Passage (STIRAP) in nonlinear optics is proposed. This transmission hologram demonstrates high diffraction efficiency and low sensitivity to polarization and hologram strength. The other is a reflection hologram with two crossed-gratings. It features good angular selectivity in comparison with the poor angular selectivity of conventional Bragg grating mirror. This defense also contains the approximation of Maxwell equations for the description of depolarized light sources and polarization-insensitive detectors. A scalar wave equation, Z-Helmholtz equation, is proposed and discussed in the approximation of constant impedance media. As examples, this equation successfully describes a) Fresnel transmission coefficient, and b) Goose-Hanschen shift in total internal reflection, for depolarized incident light and, at the same time, polarization-insensitive detectors. Evolution of polarization during light propagation in an inhomogeneous locally isotropic medium, and also in a single-mode fiber is described by Rytov's non-rotation equation. With arbitrary chosen real unit vector, the complete description of polarization change can be described in a single rotation angle obtained from the integral of rotation rate. Based on introduction of this reference frame, a device is suggested as rigid body's rotation sensor due to polarization change in a twisted fiber. volume hologram gratings liquid crystal fiber sensor Electromagnetics and Photonics Optics
90	Ultra High Density Spectral Beam Combining By Thermal Tuning Of Volume Bragg Gratings In Photo-thermo-refractive Glass Drachenberg, Derrek 01 January 2011 (has links) High power lasers with diffraction limited beam quality are desired for many applications in defense and manufacturing. A lot of applications require laser beams at the 100 kW power level along with divergence close to the diffraction limit. The figure of merit for a beam used in such applications should be radiance which determines the laser power delivered to a remote target. One of the primary limiting factors is thermal distortion of a laser beam caused by excessive heat generated in the laser media. Combination of multiple laser beams is usually considered as a method to mitigate these limitations. Spectral beam combining (SBC) by volume Bragg gratings (VBGs) is a very promising method for the future of high radiance lasers that needs to achieve 100 kW-level power. This work is dedicated to development of methods to increase spectral density of combined beams keeping their divergence at an acceptably low level. A new figure of merit for a beam combining system is proposed, the Beam Combining Factor (BCF), which makes it possible to distinguish the quality of the individual beams from the quality of beam combining. Also presented is a method of including the effect of beam divergence and spectral bandwidth on the performance of VBGs, as well as a method to optimize VBG parameters in terms of thickness and refractive index modulation for an arbitrary number of beams. A novel thermal tuning technique and apparatus is presented with which the SBC system can be tuned for peak efficiency from low to high power without the need for mechanical re- iv alignment. Finally, a thermally tuned SBC system with five beams, with a spectral separation between beams of 0.25 nm at a total power of 685 W is presented. The results show the highest power spectral density and highest spectral radiance of any SBC system to date. Recent demonstrations in SBC by multiplexed VBGs and the use of super Gaussian beams for beam quality improvement are also discussed. Bragg gratings Laser beams Lasers Electromagnetics and Photonics Optics

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