Vláknové difrakční struktury Point-by-Point / The Point-by-Point fiber diffraction structures

Valášek, Martin

January 2017

The diploma thesis described the basic principles and characters of the long period fiber gratings (LPFGs). Our concern was to describe basic mathematical description of these gratings needed to their modelation and simulation. Consequently some exact models leading to changes in the shape of the spectrum LPFGs were suggested, these methods were the chirping, apodization and changes in the average refractive index navg. In the Matlab environment, programes for counting the important parametres LPFGs were created and meanwhile each model leading to the change in the shape of the spectrum was simulated.

An integrated nanoaperture optical-fiber tweezer for developing single-photon sources

Ehtaiba, Jamal Mehemed

04 May 2020

In this thesis, an approach for developing single-photon sources at the 1550nm wavelength will be demonstrated, based on optical trapping of luminescent upconverting nanoparticles. A single-photon source is a source that emits a single photon at a time, and hence it is a source of quantum bits that constitutes the basic building units in quantum computers and quantum communications. The approach exploits the plasmonic properties of gold films and the waveguiding characteristics of single mode optical fibers (SMFs). We start by planar nanofabrication of subwavelength nanoapertures in a thin gold film based on finite difference time domain simulations for a peak transmission at the wavelength in question. Subsequently, using ultraviolet curable epoxy adhesion material, a nanoaperture patterned on a gold film can be transferred to an SMF tip forming a nanoantenna enhanced optical fiber tweezer (NAFT). As a final step in building the optical tweezer, a test of the capability of the integrated optical fiber tweezer to trap 20 nm, and 30nm polystyrene nanospheres, as well as luminescent upconverting nanoparticles (UCNPs), has been experimentally realized with encouraging results. In addition to the optical trapping of the luminescent nanoparticles, the nano aperture antenna can improve light coupling into the low loss optical fiber guiding channel. Also, it could have a positive influence on enhancing the photon emission rate through the Purcell effect. Furthermore, we have combined NAFT with a low insertion loss wave splitter, a wavelength-division multiplexer (WDM), to allow measuring the 1550nm photon-emission statistics on a cooled superconducting nanowire single-photon detector (SNSPD) at ~ 2.4o K. Eventually, nanoantenna enhanced optical fiber tweezers can play an essential role in optical trapping towards developing single-photon sources and the emerging technology of quantum information processing, computation, and cryptography. / Graduate

UCNPs

Optical Trapping

Optical Tweezer

Optical Fiber

Single Photon

Second Coherence

Antibuched Light

Nanoantenna

WDM

Textile lumineux pour le traitement de l'eau par photocatalyse / Luminous textile for the treatment of water by photocatalysis

Indermuhle, Chloé

09 October 2015

L'objectif de ce travail de thèse était de tester le textile lumineux en termes de performances photocatalytiques en milieu aqueux. La durabilité des textiles face à une exposition prolongée à une irradiation UVA a été testée. Les tests ont mis en évidence un problème de vieillissement des tissus enduits de TiO2, induisant l'apparition d'une inhomogénéité de l'émission de lumière sur la surface du textile. Un modèle mathématique a été développé afin d'exprimer et de prévoir ce vieillissement en fonction du temps d'exposition aux UVA. Le dépôt d'une couche protectrice de silice a permis de résoudre ce problème de vieillissement. Parallèlement, les textiles lumineux enduits de TiO2 ont été caractérisés. La localisation de SiO2 et TiO2 par MEBE et analyse EDX a été démontrée comme étant homogène sur la surface des fibres optiques, mise à part pour le dépôt de TiO2 P25 localise en amas. La quantité de photocatalyseur déposé sur les textiles ainsi que l'absorbance des dépôts ont été évaluées. L'étude de l'adhérence des dépôts a démontré la stabilité du TiO2. Enfin, les performances photocatalytiques des différents textiles enduits de photocatalyseur ont été testées sur la dégradation de deux polluants modèles, l'acide formique et le phenol, en réacteur ferme. L'étude de la vitesse de dégradation en fonction de la masse de TiO2 a permis de déterminer la masse optimum (environ 2mg cm-2). Des rendements photoniques de l'ordre de 30 à 55% dans le cas de l'acide formique et de 6 à 8% pour le phenol ont été obtenus. Un réacteur pilote plan, ouvert, a permis de confirmer les résultats obtenus et ouvre la voie à une configuration multicouche, en vue d'une application industrielle / The objective of this thesis was to test luminous textiles in terms of photocatalytic performances in aqueous medium. The durability of textile under long-time UVA irradiation was tested. Results showed the aging of luminous textile coated by TiO2, involving an inhomogeneity of light emission on the overall surface of the textile. A mathematical model was developed to express and predict the aging depending on the time of exposure to UVA. Also, a protective layer of silica allows avoiding the optical fiber aging. In parallel, luminous textiles coated by TiO2 were characterized. The location of SiO2 and TiO2 by ESEM and EDX analysis was shown to be uniform over the surface of optical fibers textiles, except for TiO2 P25 coating, located in clusters. The amount of photocatalyst deposited on the textiles, and the absorbance of the coatings were determined. Moreover, the study of coating adhesion demonstrated excellent adhesion and stability of the photocatalyst layer. Finally, the photocatalytic performances of the different TiO2 coatings were tested for degradation of two model pollutants, formic acid and phenol, in batch reactor. The study of the evolution of the degradation rate with the mass of photocatalyst was used to determine the optimum mass of TiO2 (about 2mg cm-2). Photonic yields ranging from 30 to 55% in the case of formic acid and 6 to 8% in the case of phenol were obtained. A continuous plan pilot reactor confirmed the results and opens the way for a multi-layer configuration, for industrial application

Photocatalyse

Fibre Optique

TiO2

Traitement des Eaux

Vieillissement

Photocatalysis

Optical Fiber

TiO2

Wastewater Treatment

Aging

540

Existence of the guided modes of an optical fiber

Solov'ëv, Sergey I.

11 April 2006

The present paper is devoted to the investigation of the guided wave problem. This problem is formulated as the eigenvalue problem with a compact self-adjoint operator pencil. Applying the minimax principle for the compact operators in the Hilbert space we obtain a necessary and sufficient condition for the existence of a preassigned number of linearly independent guided modes. As a consequence of this result we also derive simple sufficient conditions, which can be easily applied in practice. We give a statement of the problem in a bounded domain and propose an efficient method for solving the problem.

info:eu-repo/classification/ddc/510

ddc:510

guided modes, optical fiber

Design of optical fiber sensors and interrogation schemes

Sartiano, Demetrio

15 February 2021

[ES] Las fibras ópticas son dispositivos muy utilizados en el campo de las telecomunicaciones desde su descubrimiento. En las últimas décadas, las fibras ópticas comenzaron a utilizarse como sensores fotónicos. Los primeros trabajos se centraron en la medición de unas dimensiones físicas en un punto específico. Posteriormente, surgió la posibilidad de medir las propiedades de la fibra óptica en diferentes puntos a lo largo de la fibra. Este tipo de sensores se definen como sensores distribuidos. Los componentes optoelectrónicos fueron desarrollados e investigados para telecomunicaciones. Los avances en las telecomunicaciones hicieron posible el desarrollo de sistemas de interrogación para sensores de fibra óptica, creciendo en paralelo con los avances de las telecomunicaciones. Se desarrollaron sistemas de interrogación de fibra óptica que permiten el uso de una única fibra óptica monomodo estándar como sensor que puede monitorear decenas de miles de puntos de detección al mismo tiempo. Los métodos que extraen la información de detección de la señal reflejada en la fibra óptica son los más empleados debido a la facilidad de acceso al sensor y la flexibilidad de estos sistemas. Los más estudiados son la reflectometría en dominios de tiempo y frecuencia. La reflectometría óptica en el dominio del tiempo (OTDR) fue la primera técnica utilizada para detectar la posición de los fallos en las redes de comunica-ción de fibra óptica. El OTDR sensible a la fase hizo posible detectar la elongación y la temperatura en una posición específica. Paralelamente, los gratings de Bragg (FBG) se convirtieron en los dispositivos más utilizados para implementar sensores en fibra óptica discretos. Se desarrollaron técnicas de multiplexación para realizar la detección en múltiples puntos utilizando FGBs. La reflectometría realizada interrogando arrays de FBG débiles demuestra que mejora el rendimiento del sistema en comparación al uso de una fibra monomodo. Los sistemas de interrogatorio actuales tienen algunos inconvenientes. Algunos de ellos son velocidad de interrogatorio limitada, grandes dimensiones y alto costo. En esta tesis doctoral se desarrollaron nuevos sistemas de interrogación y sensores de fibra óptica para superar algunos de estos inconvenientes. Los sensores de fibra óptica de plástico demuestran ser una plataforma innovadora para desarrollar nuevos sensores y sistemas de interrogación de bajo costo y fáciles de implementar para fibras de plástico comerciales. Se investigó la reflectometría en el dominio del tiempo y las técnicas fotónicas de microondas para la interrogación de una matriz de rejillas débiles que permitieron simplificar el sistema de interrogación para la detección de temperatura y vibración. / [CA] Les fibres òptiques són dispositius molt utilitzats en el camp de les telecomunica-cions des del seu descobriment. En les últimes dècades, les fibres òptiques van començar a utilitzar-se com a sensors fotònics. Els primers treballs es van centrar en el mesurament d'unes dimensions físiques en un punt específic. Posteriorment, va sorgir la possibilitat de mesurar les propietats de la fibra òptica en diferents punts al llarg de la fibra. Aquest tipus de sensors es defineixen com a sensors distribüits. Els components optoelectrònics van ser desenvolupats i investigats per a telecomunicacions. Els avanços en les telecomunicacions van fer possi-ble el desenvolupament de sistemes d'interrogació per a sensors de fibra òptica, creixent en paral·lel amb els avanços de les telecomunicacions. Es van desenvolupar sistemes d'interrogació de fibra òptica que permeten l'ús d'una única fibra òptica monomodo estàndard com a sensor que pot monitorar desenes de milers de punts de detecció al mateix temps. Els mètodes que extreuen la informació de detecció del senyal reflectit en la fibra òptica són els més utilitzats a causa de la facilitat d'accés al sensor i la flexibilitat d'aquests sistemes. Els més estudiats són la reflectometría en dominis de temps i freqüència. La reflectometría òptica en el domini del temps (OTDR) va ser la primera tècnica utilitzada per a detectar la posició de les fallades en les xarxes de comunicació de fibra òptica. El OTDR sensible a la fase va fer possible detectar l'elongació i la temperatura en una posició específica. Paral·lelament, els gratings de Bragg (FBG) es van convertir en els dispositius més utilitzats per a implementar sensors en fibra òptica discrets. Es van desenvolupar tècniques de multiplexació per a realitzar la detecció en múltiples punts utilitzant FGBs. La reflectometría realitzada interrogant arrays de FBG febles demostra que millora el rendiment del sistema en comparació a l'ús d'una fibra monomodo. Els sistemes d'interrogatori actuals tenen alguns inconvenients. Alguns d'ells són velocitat d'interrogatori limitada, voluminositat i alt cost. En aquesta tesi doctoral es van desenvolupar nous sistemes d'interrogació i sensors de fibra òptica per a superar alguns d'aquests inconvenients. Els sensors de fibra òptica de plàstic demostren ser una plataforma innovadora per a desenvolupar nous sensors i siste-mes d'interrogació de baix cost i fàcils d'implementar per a fibres de plàstic comercials. Es va investigar la reflectometría en el domini del temps i les tècniques fotòniques de microones per a la interrogació d'una matriu de reixetes febles que van permetre simplificar el sistema d'interrogació per a la detecció de temperatura i vibració. / [EN] Optical fibers are devices largely used in telecommunication field since their discovery. In the last decades, optical fibers started to be used as photonic sensors. The first works were focused on the measurement of physical dimensions to a specific point. Afterward, emerged the possibility to measure the optical fiber properties at different locations along the fiber. These kinds of sensors are defined as distributed sensors. The optoelectronic components were developed and investigated for telecommunications. The progress in telecommunication made possible the development of optical fiber sensors interrogation systems, growing in parallel with the advances of telecommunications. Optical fiber interrogation systems were developed to use a single standard monomode optical fiber as a sensor that can monitor tens of thousands of sensing points at the same time. The methods that extract the sensing information from the backscattered signal in the optical fiber are widely employed because of the easiness of access to the sensor element and the flexibility of these systems. The most studied are the reflectometry in time and frequency domains. The optical time domain reflectometry (OTDR) was the first technique used to detect the position of the failures in the optical fiber communication networks. Using phase sensitive OTDR it is possible to sense strain and temperature at a specific position. In parallel, fiber Bragg gratings (FBGs) became the most widely used devices to implement discrete optical fiber sensors. Multiplexing techniques were developed to perform multi points sensing using these gratings. The reflectometry performed interrogating weak FBGs arrays demonstrate to improve the performance of the system employing a single mode fiber. The interrogation systems nowadays have some drawbacks. Some of them are limited speed of interrogation, bulkiness, and high cost. New interrogation systems and optical fiber sensors were developed in this doctoral thesis to overcome some of these drawbacks. Plastic optical fiber sensors demonstrate to be an innovative platform to develop both new sensors and low cost, easy to implement interrogation systems for commercial plastic fibers. Reflectometry in time domain and microwave photonic techniques were investigated for the interrogation of weak gratings array allowed to simplify the interrogation system for the sensing of temperature and vibration. / I would like to greatly thank the European Union’s Horizon 2020 Research and Innovation Program that funded the research described in this thesis under the Marie Sklodowska-Curie Action Grant Agreement 722509. / Sartiano, D. (2021). Design of optical fiber sensors and interrogation schemes [Tesis doctoral]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/161357 / TESIS

Sensors de fibra òptica

Fibra òptica de vidre

Fotònica de microones

Fotónica de microondas

Rejillas de Bragg

Fibra óptica de sílice

Fibra óptica de vidrio

Fibra óptica plástica

Sensores de fibra óptica

Optical fiber sensors

Plastic optical fiber

Glass optical fiber

Silica optical fiber

Fiber Bragg gratings

Microwave photonics

TEORIA DE LA SEÑAL Y COMUNICACIONES

Mesures réparties par réflectométrie fréquentielle sur fibre optique / OFDR for optical fiber detectors

Boldyreva, Ekaterina

20 October 2016

Les travaux de la présente thèse concernent l’étude théorique et la réalisation d’un Capteur réparti à Fibres Optiques fondé sur la réflectométrie fréquentielle et la rétrodiffusion de Rayleigh. La genèse de cette méthode remonte aux années 80 pour les mesures distribuées. Il y a un peu plus d’une dizaine d’années qu’elle a été mise en œuvre secrètement pour les meures réparties (continument sensibles) par la société américaine « Luna Innovations ». Cette approche permettant de réaliser des profils continus le long de la fibre des paramètres environnants (température et déformation principalement) offre une très bonne résolution spatiale ainsi qu’une résolution de mesure fine et présente donc un grand intérêt pour de nombreuses applications, venant ainsi en complément des techniques reposant sur la diffusion Raman ou Brillouin. L'aspect théorique de cette méthode dite OFDR Rayleigh a été analysé. Pour effectuer une mesure profilométrique il est nécessaire de déterminer simultanément deux informations : la distance physique allant de l’entrée de la fibre jusqu'au point où un paramètre physique à mesurer a été appliqué, et le paramètre physique proprement dit. Pour réaliser cette mesure un lien entre l'influence du paramètre d’influence et le changement d'indice du cœur de la fibre sous test doit être exploité. Il s’agit donc des sensibilités de mesure, mais aussi de l’influence de l’environnement sur le chemin optique parcouru, et donc sur la localisation précise des points de mesure. Ces différents aspects ont donc été analysés et rapportés dans le présent mémoire. Pour mettre en œuvre cette technique fréquentielle, et en particulier son traitement de signal, relativement complexe, deux méthodes différentes ont été proposées : la première dite « corrélationnelle » (mise en œuvre par « Luna Innovations » mais très peu documentée) et la méthode « tensorielle » proposée uniquement dans le cadre de la présente étude. Etant fondée sur les mesures répétitives des décalages spectraux induits par le paramètre physique à mesurer le long de la fibre, la méthode corrélationnelle est plus universelle, s’adressant à tous types de paramètres d’influence. Pourtant, elle s’avère moins précise du fait d'une erreur systématique dans le calcul des décalages spectraux. La méthode tensorielle, quant à elle, fournit un résultat plus précis, cependant elle n'est applicable que pour les mesures de déformations, puisque reposant sur l'effet élasto-optique dans le cœur de la fibre. Une procédure de traitement de signal a ensuite été élaborée pour les deux méthodes précitées, la corrélationnelle et la tensorielle. Les performances capacités de l'appareil dont nous disposons, Luna OBR 4600, ont également été montrées, tant en ce qui concerne les mesures de température que de déformations. Un banc expérimental mettant en œuvre cette méthode de mesure OFDR-Rayleigh a également été conçu est mis au point au laboratoire. Un logiciel de traitement des données a de fait été élaboré est réalisé. Ce programme a été testé à l'aide d'une simulation et grâce à l’utilisation des données brutes délivrées par l’appareil Luna OBR 4600. Plusieurs tests du programme de traitement des données brutes de cet instrument ont été réalisés. Les résultats de ces tests peuvent être considérés plutôt comme satisfaisants, étant globalement en bon accord avec les résultats fournis directement par l'instrument commercial OBR 4600. Au-delà, de nombreux exemples d'applications innovantes de la méthode Rayleigh OFDR ont été présentés et illustrés. Parmi ceux-ci, citons, le système de détection de fuites de sodium liquide pour la surveillance de fonctionnement des circuits de refroidissement des réacteurs de génération IV que nous avons élaboré, grâce à cette méthode Rayleigh OFDR, et un prototype industriel d'un tel système proposé. Enfin, l’analyse des points pouvant faire l’objet d’améliorations et/ou de marges de progrès a été menée, et est rapportée en fin de mémoire. / The present PhD thesis have been carried out at the Laboratoire de Mesures Optiques (Optical Measurement Laboratory) based at CEA Saclay Nuclear Research Center, France. It concerns theoretical analysis and experimental realizations of a “distributed Optical Fiber Sensor” based on Optical Frequency Domain Reflectometry using the Rayleigh backscattering phenomena. As the OFS community know, such technology has been developed by the US company Luna Innovations Inc., which keeps carefully secret any details of both the technology involved and the signal processing of such instruments, named OBR (Optical Backscattered Reflectometer). Advantageously, the present Rayleigh-OFDR method provides a very high spatial resolution (in comparison with other methods based on reflectometry, i.e. OTDR, DTS Raman, Brillouin BOTDR and BOTDA…) and so remains extremely sought for many applications, especially for Structural Health Monitoring. In the present PhD thesis the theoretical aspects of the Rayleigh OFDR method has been presented. As a reminder, in order to measure a physical parameter profile along the fiber, it is required to determine two subjects simultaneously: the distance at which the physical parameter is applied (i.e. the sensor address) to the fiber under test, and the amplitude of this parameter (i.e. “the measurement” itself). A relation between the influence of any environment parameter (temperature, strain, etc.) and the fiber core refractive index changes has to be used. These relations have been shown, as far as the hypothesis linked to the theoretical aspects. Two different methods for such measurement have been proposed: first of all the “correlation method” (used by Luna) and second “a tensor-based method”, fully innovative as developed during the present PhD thesis. The correlation method may be considered as more “universal” as based on the measurement of spectral shifts caused by the physical parameter to measure. But, in the same time, we consider it is less accurate, as a systematic error may somehow fail the spectral shift calculation algorithm. The tensor method do not suffer of such systematic error, but it remains only applicable to strain sensing, as based on the elasto-optic effect. Signal processing procedure has been elaborated and tested for both methods, and of course discussed in the manuscript. In the same time, performances of the existing Luna OBR 4600 reflectometer has been tested at Lab. and are reported for both temperature and strain measurements. An optical mock-up for Rayleigh OFDR method has also been developed. A software, dedicated to signal processing has been fully developed either. This program has been tested for simulated sensing signals and for raw data delivered by the Luna OBR 4600 reflectometer. Results of such tests could be considered as satisfactory, even some questions to be solved remains. Finally, some practical examples of Rayleigh OFDR industrial applications have been shown and detailed. Moreover, in such context of real applications on field, an innovative Rayleigh OFDR system devoted to liquid sodium leakage detection around secondary cooling circuitry of generation IV nuclear reactors has been developed and tested on a nuclear installation. An industrial prototype of such measurement system has been elaborated. Finally, way of progress are analyzed and discussed for future R&D activities.

Réflectométrie fréquentielle

Capteur aux fibres optiques

Diffusion de Rayleigh

OFDR

Optical fiber detectors

Rayleigh scattering

Ethernet Over Plastic Optical Fiber for Use in the Control System Network for Automotive Applications

Nazaretian, Ryan Nicholas

11 December 2015

Plastic optical fiber (POF) for use in automotive applications is not a new concept and has been used in some vehicles for infotainment media distribution within the Media Oriented Systems Transport protocol. However, the use of POF for the control network’s physical layer is a concept that has not been implemented in automotive applications. Many aspects of a vehicle can be improved by implementing POF as the physical backbone for the control network. Currently, the Controller Area Network (CAN) is used as the primary backbone control network protocol for most automobiles as it is inexpensive and reliable. However, CAN is limited to 500 kbps in most vehicles and is easily accessible. Ethernet may provide the improvements of speed and security needed in today’s feature rich and connected vehicles. The feasibility of implementing Ethernet over POF as the control network for automotive applications is the topic of this research investigation.

weight

can

controller area network

plastic optical fiber

ethernet

automotive

security

Slab-Coupled Optical Fiber Sensors for Electric Field Sensing Applications

Gibson, Richard S.

20 November 2009

This dissertation presents the creation of slab coupled optical sensors (SCOS) for electric field sensing applications. SCOS devices utilize the benefits of an optical fiber system for high bandwidth and low electromagnetic interference. These sensors are fabricated by means of mode coupling between a small section of D-shaped optical fiber (D-fiber) with a multi-mode electro-optic slab waveguide. Electric field detection is accomplished by monitoring the behavior of the resonances, seen as transmission dips in the D-fiber transmission, as they shift with electric fields. The novelties of SCOS devices include their small compact nature, potential for sensor multiplexing and a dielectric structure allowing low electromagnetic interference. The SCOS developed in this work been used to measure fields as low as 30 V/m with 1 kHz resolution bandwidth and a high degree of linearity. Due to their compact size they are capable of placement within devices to measure interior electric fields immeasurable by other sensors that are either too large for internal placement or disruptive of the internal fields due to metallic structure. Wavelength multiplexing allows multiple sensors to be placed on a single fiber for mapping electric fields at multiple instances. As an extension, SCOS multiplexing allows the potential for 3-d field sensing by use of multiple electro-optic crystals having orthogonal orientations of the electro-optic axis. This work performs a thorough analysis of SCOS design in order to optimize sensor efficiency for its various applications. Furthermore, the straightforward fabrication process for these sensors is outlined for the development of future uses of these sensors.

optics

fiber optics

optical fiber sensors

electric field sensors

EOS

D-fiber

Electrical and Computer Engineering

Mode-division Multiplexed Transmission In Few-mode Fibers

Bai, Neng

01 January 2013

As a promising candidate to break the single-mode fiber capacity limit, mode-division multiplexing (MDM) explores the spatial dimension to increase transmission capacity in fiberoptic communication. Two linear impairments, namely loss and multimode interference, present fundamental challenges to implementing MDM. In this dissertation, techniques to resolve these two issues are presented. To de-multiplex signals subject to multimode interference in MDM, Multiple-InputMultiple-Output (MIMO) processing using adaptive frequency-domain equalization (FDE) is proposed and investigated. Both simulations and experiments validate that FDE can reduce the algorithmic complexity significantly in comparison with the conventional time-domain equalization (TDE) while achieving similar performance as TDE. To further improve the performance of FDE, two modifications on traditional FDE algorithm are demonstrated. i) normalized adaptive FDE is applied to increase the convergence speed by 5 times; ii) masterslave carrier recovery is proposed to reduce the algorithmic complexity of phase estimation by number of modes. Although FDE can reduce the computational complexity of the MIMO processing, due to large mode group delay (MGD) of FMF link and block processing, the algorithm still requires enormous memory and high hardware complexity. In order to reduce the required tap length (RTL) of the equalizer, differential mode group delay compensated fiber (DMGDC) has been proposed. In this dissertation, the analytical expression for RTL is derived for DMGDC systems under the weak mode coupling assumption. Instead of depending on the overall MGD of the link iii in DMGD uncompensated (DMGDUC) systems, the RTL of DMGDC systems depend on the MGD of a single DMGDC fiber section. The theoretical and numerical results suggest that by using small compensation step-size, the RTL of DMGDC link can be reduced by 2 orders of magnitude compared to DMGDUC link. To compensate the loss of different modes, multimode EDFAs are presented with reconfigurable multimode pumps. By tuning the mode content of the multimode pump, modedependent gain (MDG) can be controlled and equalized. A proto-type FM-EDFA which could support 2 LP modes was constructed. The experimental results show that by using high order mode pumps, the modal gain difference can be reduced. By applying both multimode EDFA and equalization techniques, 26.4Tb/s MDM-WDM transmission was successfully demonstrated. A brief summary and several possible future research directions conclude this dissertation.

Optical fiber communication

multiplexing

fiber amplifier

digital signal processing

Electromagnetics and Photonics

Optics

Polymer Optical Fibers For Luminescent Solar Concentration

Banaei, Esmaeil

01 January 2013

Luminescent solar concentrators (LSC’s) are promising candidates for reducing the cost of solar power generation. Conventional LSC’s are slab waveguides coated or doped with luminescence materials for absorption and guiding of light to the slab edges in order to convert optical energy into electricity via attached photovoltaic (PV) cells. Exploiting the advantages of optical fiber production, a fiber LSC (FLSC) is presented in this thesis, in which the waveguide is a polymeric optical fiber. A hybrid fiber structure is proposed for an efficient two-stage concentration of incident light, first into a small doped core using a cylindrical micro-lens that extends along the fiber, and second to the fiber ends by guiding the fluoresced light from the active dopants. Flexible sheets are assembled with fibers that can be bundled and attached to small-area PV cells. Small dimensions and directional guiding of the fibers allow for approximately one order of magnitude geometrical gain improvement over that of existing flat LSC’s. In addition, the undesired limit of LSC size is eliminated in one direction. Modeling and optimization of an FLSC design is presented using polarization-ray tracing under realistic conditions with solar spectrum radiation and broad-band absorption and emission spectra of fluorescence materials with their inevitable self-absorption effect. Methods and results of fabrication and accurate optical characterization of such FLSC using two off-the-shelf organic dyes and a commercially available polymer, COP, are discussed in detail. Fiber preforms, fabricated under optimized conditions for lowlight transport loss, are thermally iv drawn into sub-millimeter-size fibers. Characterization of several samples with various concentrations of the two dyes shows an optical-to-optical conversion efficiency of 9.1% for a tandem combination of two 2.5-cm-long fibers with the efficiency gradually decreasing to 4.9% with increase in fiber length to 10 cm.

Polymer optical fiber

luminescent solar concentration

photo voltaics

Electrical and Computer Engineering

Electrical and Electronics

Engineering