Global ETD Search

11	The Novel Configuration Design of the Distributed Fiber Optic Leak Detection System Kang, Hsien-Wen 27 June 2001 (has links) The technique of the distributed fiber optic sensor system, the principle that we use Sagnac interferometer to sense time-varying physical field, can be used to measure the position of the disturbed physical field and have the ability of detecting continuous position. Based on the configuration of the Sagnac interferometer, sensing optic fiber is loop design, which is hard to be set in real surroundings, and a half length of loop fiber have to be the isolated protection of the physical field. Therefore, this essay brings up the In-Line conception to be the design direction. And we make use of the physical field of pipeline leak acoustic to detect disturbance position. The measurable range of systematic structure signal is 3¡Ñ10-4 ~ 3¡Ñ10-2 , and the dynamic range is 40 dB. On the other hand, the structure of polarization insensitive is brought up, the measurable range is 1.5¡Ñ10-3 ~ 3¡Ñ10-2 , and the dynamic range is 26 dB. Optical Fiber Sensor. Distribution Sagnac Interferometer In-Line Leak Detection
12	Simulation On Interferometric Fiber Optic Gyroscope With Amplified Optical Feedback Secmen, Basak 01 January 2003 (has links) (PDF) Position and navigation of vehicle in two and three dimensions have been important as being advanced technology. Therefore, some system has been evaluated to get information of vehicle&rsquo / s position. Main problem in navigation is how to determine position and rotation in three dimensions. If position and rotation is determined, navigation will also be determined with respect to their initial point. There is a technology that vehicle velocity can be discovered, but a technology that rotation can be discovered is needed. Sensor which sense rotation is called gyroscope. If this instrument consists of optical and solid state material, it&rsquo / s defined by Fiber Optic Gyroscope (FOG). There are various studies in order to increase the sensitivity of fiber optic gyroscopes, which is an excellent vehicle for sensing rotation. One of them is interferometric fiber optic gyroscope with amplified optical feedback (FE_FOG). In this system, a feedback loop, which sent the output pulse through the input again, is used. The total output is the summation of each interference and it is in pulse state. The peak position of the output pulse is shifted when rotation occurs. Analyzing this shift, the rotation angle can be determined. In this study, fiber optic gyroscopes, their components and performance characteristics were reviewed. The simulation code was developed by VPIsystems and I used VPItransmissionMakerTM software in this work. The results getting from both rotation and nonrotation cases were analyzed to determine the rotation angle and sensitivity of the gyroscope.
13	Advances In The Opto-mechanical Design And Alignment Of The Hehsi Imaging Spectrometer Based On A Sagnac Interferometer Schreiber, Michael Stuart 01 January 2005 (has links) The High Efficiency HyperSpectral Imager (HEHSI) is a Fourier Transform hyperspectral imager based on a Sagnac interferometer. This thesis research concentrates on the design upgrade and calibration of HEHSI from a proof of concept instrument to a prototype field instrument. Stability is enhanced by removing degrees of freedom and alignment is enhanced by providing for in-situ adjustments. The use of off the shelf components allows for reduced development time and cost constraints. HEHSI is capable of multiple configurations to accommodate sensors and optics with specialized capabilities for multiple wavelength ranges and viewing conditions. With a spectral response of 400 to 1000 nanometers in the visible and very near IR as well as 900 to 1700nm in the Near IR. Creation and use of a real time feedback alignment utility allow quantifiable signal comparison and image alignment. Advances allow for HEHSI to remain aligned during data collection sessions and confirmation of alignment through quantitative measures. Engineering Mechanical Engineering
14	Compressão de ruído quântico em um interferômetro Sagnac em fibra com laser pulsado em 1,55 microns PLAZAS ORTEGA, Lucero 24 February 2015 (has links) Submitted by Fabio Sobreira Campos da Costa (fabio.sobreira@ufpe.br) on 2017-02-15T13:05:07Z No. of bitstreams: 2 license_rdf: 1232 bytes, checksum: 66e71c371cc565284e70f40736c94386 (MD5) Compressão de Ruído Quantico em um Interferometro Sagnac em Fibra com um Laser Pulsado em 1,55 Microns - Dissertação de Mestrado em Física - Lucero Plazas Ortega.pdf: 7191693 bytes, checksum: 4eba611a9cee045f7f06747bb63a80cb (MD5) / Made available in DSpace on 2017-02-15T13:05:07Z (GMT). No. of bitstreams: 2 license_rdf: 1232 bytes, checksum: 66e71c371cc565284e70f40736c94386 (MD5) Compressão de Ruído Quantico em um Interferometro Sagnac em Fibra com um Laser Pulsado em 1,55 Microns - Dissertação de Mestrado em Física - Lucero Plazas Ortega.pdf: 7191693 bytes, checksum: 4eba611a9cee045f7f06747bb63a80cb (MD5) Previous issue date: 2015-02-24 / CAPES / Componentesemquadraturadocampoeletromagn´eticoobedecemaoprincipio de incerteza de Heisenberg. Como resultado a Mecˆanica Quˆantica prevˆe que estas componentes n˜ao podem ser especiﬁcadas simultaneamente com precis˜ao ilimitada. Estados de incerteza m´ınima (estados coerentes) permitem atingir o menor produto das incertezas em cada quadratura, ambas de mesma magnitude. Al´em disto ´e poss´ıvel construir estados quˆanticos comprimidos, para os quais uma das suas quadraturas atinge um valor menor para o desvio padr˜ao queaqueledeﬁnidoparaumestadodem´ınimaincerteza,incrementandoconsequentemente a incerteza na outra quadratura. Nesta disserta¸c˜ao fazemos uma revis˜ao destes conceitos e apresentamos um esquema experimental com o qual geramosestadoscomprimidos(squeezedstates)daradia¸c˜ao. Este´ebaseadoem umlaserdeﬁbrapulsado(comprimentodeondaλ = 1.56µm, taxaderepeti¸c˜ao fR = 146MHz, largura de pulso τp = 200fs) associado a um interferˆometro de Sagnac n˜ao linear em ﬁbra. Al´em de uma descri¸c˜ao dos principais componentes ´opticos ser˜ao discutidos os mecanismos de gera¸c˜ao e caracteriza¸c˜ao dos estados comprimidos. / QuadraturecomponentsoftheﬁeldobeyaHeisenberguncertaintyrelation. As a result, quantum mechanics predicts that these components cannot be speciﬁed simultaneously with unlimited accuracy. Minimum uncertainty states or coherent states, allow reaching the lowest value of the uncertainty in each quadrature component, both having the same magnitude. It is still possible to construct squeezed quantum states, for which, one of its quadrature components achieves a less value for standard deviation than one that have a state of minimum uncertainty, with the consequence of an increase in the uncertainty of the other quadrature. In this dissertation, these concepts are reviewed and we provide an experimental scheme in order to generate squeezed states of light. This design is based on a pulsed ﬁber laser (λ = 1.56µm, repetition rate fR = 146MHz, pulse width τp = 200fs) coupled with a nonlinear interferometer, which is composed by a ﬁber loop in a Sagnac conﬁguration. In order to discuss the experimental results obtained with this scheme, will be carried out adescriptionofthemainopticalcomponents,takingintoaccounttheprincipal mechanisms of generating and measuring of squeezed states. Estados comprimidos Laser pulsado Fibras ópticas Interferômetro de Sagnac Nonlinear optics Fiber lasers Squeezed states Sagnac interferometer Quadratures of the ﬁeld
15	Estudo do desempenho de componentes baseados em fibras Ãpticas especiais: fibras de cristal fotÃnico e de metamateriais e suas aplicaÃÃes em comunicaÃÃes / Study of performance of components based on fiber optics special: photonic crystal fiber and metamaterials and its applications in communications Alex Sander Barros Queiroz 26 November 2015 (has links) nÃo hÃ / Neste trabalho foi realizado um estudo numÃrico do interferÃmetro de Sagnac baseado em cristais fotÃnicos e de acoplador Ãptico de metamaterial. Na simulaÃÃo do interferÃmetro foram analisados os efeitos da propagaÃÃo da luz, considerando-se a dispersÃo de velocidade de grupo (GVD) e de terceira ordem (TOD), espalhamento Raman intrapulso, auto-inclinaÃÃo (Self-steepening) e auto-modulaÃÃo de fase na equaÃÃo nÃo linear de SchrÃdinger generalizada. No primeiro momento foi realizado o estudo para quatro fatores de razÃo de divisÃo da potÃncia incidente em uma das portas do dispositivo e trÃs dimensÃes para o comprimento do anel do dispositivo. Para caracterizar o desempenho do sistema, foram analisadas as curvas de transmissÃo, taxa de extinÃÃo, crosstalk e fator de compressÃo do pulso transmitido. No segundo momento, foi verificada a performance do chaveamento nÃo-linear para obtenÃÃo de porta lÃgica sob ModulaÃÃo por Amplitude de Pulsos (PAM). Excitando-se as duas portas de entrada do dispositivo com nÃveis lÃgicos "0" e "1", observando o seu comportamento em uma das saÃdas do dispositivo. Inicialmente, variou-se o parÃmetro de ajuste da modulaÃÃo (\|ε\|), obtendo-se apenas a porta lÃgica OR. E, em uma segunda aplicaÃÃo, manteve-se o parÃmetro da modulaÃÃo fixa e variou-se a fase de uma das portas de entrada, de 0 a 2π rad, encontrando-se portas lÃgicas do tipo OR, AND e XOR. TambÃm foram estudadas as caracterÃsticas de um guia metamaterial que possui a parte real da permissividade elÃtrica e da permeabilidade magnÃtica negativas. Esse guia metamaterial Ã acoplado com um guia convencional, observando-se as caracterÃsticas de transmissÃo e potÃncia crÃtica desse tipo de acoplador e, comparando-se com um acoplador convencional. Para essa anÃlise foi utilizado um perfil de automodulaÃÃo decrescente linearmente com cinco valores mÃnimo, observando-se um comportamento de histerese. / In this paper we present a numerical study of the Sagnac interferometer based on photonic crystals and optical coupler metamaterial. In the simulation of the interferometer effects of light propagation were analyzed, considering the dispersion of the group velocity (GVD) and third order (TOD), intrapulse Raman scattering, self-slope (self-steepening) and self-modulation phase in the generalized non-linear SchrÃdinger equation. The first time the study was conducted for four power division ratio of factors incident in one of the device ports and three dimensions for the device ring length. To characterize the system performance, were analyzed the transmission curves, extinction ratio, crosstalk and compression factor of the transmitted pulse. In the second moment, the performance of the non-linear switching was observed for obtaining gate under Pulse Amplitude Modulation (PAM). Exciting the two device input ports with logical levels "0" and "1", observing their behavior in one of the device outputs. Initially, the modulation is varied adjustment parameter (\| ε \|), obtaining only the logical OR gate. And in a second application, the fixed modulation parameter remained and was varied the phase of the input ports 0 to 2π rad, lying type logic gate OR, AND and XOR. The characteristics of a metamaterial guide that has the real part of electrical permittivity and magnetic permeability negatives were also studied. This metamaterial guide is coupled to a conventional guide, observing the transmission characteristics and critical power of this type of coupler and compared with a conventional coupler. For this analysis we used a decreasing automodulation profile linearly with five minimum, observing a hysteresis behavior. InterferÃmetro de Sagnac Fibra de Cristal FotÃnico Portas lÃgicas Metamateriais ComunicaÃÃes Ãpticas Sagnac interferometer Photonic crystal fiber Pulse amplitude modulation (PAM) Logic gates Metamaterials TELECOMUNICACOES
16	Gyromètre optique basé sur une cavité résonante passive en fibre à cœur creux / Resonant fiber otpical gyroscope based on hollow core fiber Ravaille, Alexia 09 November 2018 (has links) Dans ce manuscrit, nous rapportons les développements, théoriques et expérimentaux, en cours à TRT ainsi qu’à TAV et au LAC, visant la réalisation d’un gyromètre résonant passif en fibre optique à cœur creux atteignant des performances permettant la navigation inertielle. Nous y décrivons mathématiquement l’effet Sagnac, effet relativiste à la base des mesures optiques dans les gyromètres. Ensuite, nous exposons en détail les méthodes utilisées à ce jour pour mesurer des rotations avec des gyromètres passifs par les différentes équipes de recherches. Nous explicitons les limitations de ces méthodes, et en quoi la fibre optique à cœur creux semble être la solution la plus prometteuse pour pallier les défauts des gyromètres passifs résonants actuels. Une partie de cette thèse est alors consacrée à l’étude des propriétés physiques des fibres à cœur creux (Kagomé et bande interdite photonique), telles que leur atténuation, leur capacité à maintenir la polarisation, et leur rétrodiffusion. Nous présentons la première mesure de zone aveugle (plage de faibles vitesses de rotations non mesurables par un gyromètre) dans un gyromètre résonant passif en fibre à cœur creux. Un modèle mathématique est posé pour expliquer le lien entre cette zone aveugle et la rétrodiffusion au sein de la cavité résonante. Nous décrivons ensuite un protocole expérimental permettant de s’affranchir de cette limitation dans notre gyromètre. Nous détaillons enfin la mise en œuvre de ce protocole et caractérisons les performances ainsi atteintes par notre gyromètre / In this manuscript, we report the theoretical and experimental developments at TRT, TAV and LAC, aiming the realization of a hollow-core passive resonant fiber optical gyroscope that can achieve navigation grade performances. We mathematically describe the Sagnac effect, which is a relativistic effect used to optically probe mechanical rotations. Then, we detail the state of the art in passive resonant fiber optical gyroscope development. We identify their limitations, and explain why the hollow core fiber seems to be the best solution to cope with the actual limitations of such gyroscopes. We then focus on two different types of hollow core fibers: Kagome and photonic bandgap. We evaluate their performances in terms of transmission, polarization holding and backscattering. We describe the first measurement of a lock in region in a hollow core fiber passive optical gyroscope, i.e the range of rotation rates that cannot be measured because of backscattering. A mathematical model is propounded to link the lock in to the backscattering of the cavity. We then discuss the experimental protocol that we implemented to circumvent this limitation. Finally, we characterize the performances of our gyroscope based on these features Gyromètre résonant Fibre optique à cœur creux Bande interdite photonique Kagomé Sagnac Resonant gyrometer Hollow core optic fiber Photonic Bandgap fiber Kagome Sagnac
17	An Ultrafast Source of Polarization Entangled Photon Pairs based on a Sagnac Interferometer Smith, Devin Hugh January 2009 (has links) This thesis describes the design, development, and implementation of a pulsed source of polarization-entangled photons using spontaneous parametric down-conversion in a Sagnac interferometer. A tangle of 0.9286 ± 0.0015, fidelity to the state (\|10〉 + \|01〉)/√2 of 0.9798 ± 0.0004 and a brightness of 597 pairs/s/mW were demonstrated. Spontaneous parametric down-conversion is a nonlinear optical process in which one photon is split into two lower-frequency photons while conserving momentum and energy, in this experiment nearly degenerate photons are produced. These photons are then interfered at the output beamsplitter of the interferometer, exchanging path entanglement for polarization entanglement and generating the desired polarization-entangled photon pairs. entanglement quantum optics sagnac interferometer ultrafast photon pair polarization entanglement Physics
18	An Ultrafast Source of Polarization Entangled Photon Pairs based on a Sagnac Interferometer Smith, Devin Hugh January 2009 (has links) This thesis describes the design, development, and implementation of a pulsed source of polarization-entangled photons using spontaneous parametric down-conversion in a Sagnac interferometer. A tangle of 0.9286 ± 0.0015, fidelity to the state (\|10〉 + \|01〉)/√2 of 0.9798 ± 0.0004 and a brightness of 597 pairs/s/mW were demonstrated. Spontaneous parametric down-conversion is a nonlinear optical process in which one photon is split into two lower-frequency photons while conserving momentum and energy, in this experiment nearly degenerate photons are produced. These photons are then interfered at the output beamsplitter of the interferometer, exchanging path entanglement for polarization entanglement and generating the desired polarization-entangled photon pairs. entanglement quantum optics sagnac interferometer ultrafast photon pair polarization entanglement Physics
19	The Modification Scheme for a Hybrid Mach-Zehnder & Sagnac Interferomtric Fiber Optical Leak Detection System Hsieh, Yen-Li 27 June 2001 (has links) The reason of the essay research find position of leakage point, and design a fiber optical leakage detection system. The research of fiber optical detection system in past year, because property of structure produce SNR smaller, quality of detection system is too bed. The essay brings to a hybrid Mach-Zehnder & Sagnac interferomtric can improve the SNR to 10dB. Therefore, it provides the better SNR. The experiment is added to signal process, such as PTL, PGC structure. To provide the systematic characteristic, such as dynamic range(60dB), percentage error(0.025%). The focal of the essay provide leak detection systematic characteristics how we make use of signal process. demodulation Mach-Zehnder interferometer leak detector optical fiber sensor Sagnac interferometer
20	The Measurement of the Fluid Pipes of the Distributed Fiber Optic Leak Detection System Tseng, Kuan-Hua 09 July 2002 (has links) The main frame of the distributed fiber optic leak detection system adopted the hybrid Mach-Zehnder & Sagnac interferomtric. We use the sensing fiber of In-Line frame to detect leak physical field. We can measure the position of the leak physical field through our sensing system and signal process system. In the cause of improving detective ability of leak detection system, we modify three elements of the system, including (1) the choice of the acoustic response of sensing fiber, (2) modification of the PZT phase modulator, and (3) modification of the PGC demodulator. The frame of our experiment is composed of the distributed fiber optic leak detection system and leak system of the fluid pipes. In which leak system of fluid pipes is designed the leaky frame of high-pressure fluid pipes. The main of experiment introduce the leak detection system to measure the leak acoustics of the fluid pipes. Then we can discuss the experimental result. The measurable minimum range of our distributed fiber optic leak detection system is3.3x10^-4(rad/¡ÔHz), and the dynamic range is above 75 dB. The dynamic range of this system can improve the original system to above 15 dB. Leak Detection Demodulation Optical Fiber Sensor Sagnac Interferometer Mach-Zehnder Interferometer In-Line Fluid Pipes.

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