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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Far-infrared/millimeter Wave Source And Component Development For Imaging And Spectroscopy

Du Bosq, Todd 01 January 2007 (has links)
The far-infrared and millimeter wave (FIR/mmW) (wavelength 75 micrometer to 10 mm) portion of the electromagnetic spectrum is fairly underdeveloped technologically, owing to the large amount of atmospheric attenuation in that range. At present, the FIR/mmW region is lacking in compact, high-brightness radiation sources and practical imaging systems. This dissertation focuses on development of two complementary technologies in this area - an active mmW imaging system and high-reflectivity Bragg mirrors for the FIR p-Ge laser. The imaging system uses a vector network analyzer in the frequency range of 90-140 GHz as the radiation source and receiver. Raster scanning is used to map a two-dimensional field of view, demonstrating the detection and imaging of buried plastic landmines. Principal components analysis is used for hyperspectral signal processing, where a series of images is taken at discrete frequencies. Results are obtained as a function of depth and disturbance of the soil surface. In support of this study, various types of soils were characterized for scattering loss across the mmW/FIR region, with measured results compared to theory. This mmW imaging system was also used to demonstrate imaging through walls and other obscuring materials, as well as for imaging of rocks beneath volcanic sand, simulating the conditions encountered by an imaging system on a Mars rover vehicle. Furthermore, a high-reflectivity Si-etalon FIR mirror design was developed and demonstrated as a cavity mirror for the p-Ge laser. These components stand to have a number of systems-level impacts on FIR imagers. In the context of an active illuminator, they may allow narrowband selection from the broad emission spectrum of the p-Ge laser source. These mirrors can also be used in a Fabry-Perot FIR scanning spectrometer, where the resulting high finesse would give discrimination advantages in chemical sensing and astrophysical spectroscopy applications.
2

Scanning Fabry-perot Spectrometer For Terahertz And Gigahertz Spectroscopy Using Dielectric Bragg Mirrors

Cleary, Justin 01 January 2007 (has links)
A scanning Fabry-Perot transmission filter composed of a pair of dielectric mirrors has been demonstrated at millimeter and sub-millimeter wavelengths. The mirrors are formed by alternating quarter-wave optical thicknesses of silicon and air in the usual Bragg configuration. Detailed theoretical considerations are presented for determining the optimum design including factors that affect achievable finesse. Fundamental loss by lattice and free carrier absorption are considered. High resistivity in the silicon layers was found important for achieving high transmittance and finesse, especially at the longer wavelengths. Also considered are technological factors such as surface roughness, bowing, and misalignment for various proposed manufacturing schemes. Characterization was performed at sub-mm wavelengths using a gas laser together with a Golay cell detector and at millimeter wavelengths using a backward wave oscillator and microwave power meter. A finesse value of 422 for a scanning Fabry-Perot cavity composed of three-period Bragg mirrors was experimentally demonstrated. Finesse values of several thousand are considered to be within reach. This suggests the possibility of a compact terahertz Fabry-Perot spectrometer that can operate in low resonance order to realize high free spectral range while simultaneously achieving a high spectral resolution. Such a device is directly suitable for airborne/satellite and man-portable sensing instrumentation.
3

Synthesis of chirped Bragg mirrors for spectral widening of optical cavities

Iordachescu, Grigore-Adrian 21 October 2013 (has links) (PDF)
This thesis proposes a new method for the generation of continuous spectra with possible applications in optical WDM access networks. This new method would allow the development of a continuum laser type structure with better performances in terms of cost and simplicity compared to the current supercontinuum sources. For this purpose, we have analyzed the possibility of extending the resonant modes of a Fabry-Perot cavity acting only on the design of one of the cavity mirrors. The design of the mirror is generated with a genetic algorithm targeting a desired reflectivity spectrum. An active medium is then added inside the cavity formed with the synthesized mirror and the cavity's emission is simulated below the lasing threshold. The spectra thus obtained are continuous on an interval of 5 to 15 nm.
4

A contribution to photonic MEMS : study of optical resonators and interferometers based on all-silicon Bragg reflectors / A contribution to photonic MEMS Contribution aux MEMS photoniques : étude de résonateurs et interféromètres optiques basés sur des réflecteurs de Bragg tout silicium

Malak Karam, Maurine 17 November 2011 (has links)
Ce travail de recherche a été mené afin d'introduire une nouvelle classe de résonateurs Fabry-Pérot (FP) : les cavités FP incurvées basées sur des miroirs de Bragg sans revêtement, de forme cylindrique sont obtenues par micro-usinage du silicium. Une autre spécificité est la longueur de la cavité relativement grande (L> 200 µm) combinée à un haut facteur de qualité Q (jusqu'à 10^4 ), pour répondre aux applications de type spectroscopie d'absorption améliorée par résonance optique, dans lesquelles le produit Q.L est une figure de mérite. Dans ce contexte, l'architecture de base a été modélisée analytiquement pour déterminer les modes transverses d'ordre élevé supportés par de telles cavités. Par conséquent, les conditions expérimentales qui conduisent à une excitation préférentielle (ou rejet) de ces modes ont été testées menant à la validation de notre modèle théorique et à une meilleure compréhension du comportement de la cavité. Une seconde architecture,basée sur la cavité FP incurvée avec une lentille cylindrique a été développée dans le but de fournir une architecture plus stable. Cette dernière a été également modélisée, fabriquée et caractérisée, menant à l'amélioration attendue en termes de performances. D'un autre côté, un point surlignant l'une des applications potentielles que nous avons identifiées pour les cavités incurvées est présentée en insérant la cavité dans un système électromécanique. Ceci consiste à exciter et mesurer les vibrations d'amplitude nanométrique par couplage opto-mécanique dans un résonateur mécanique MEMS intégrant une cavité optique FP. Enfin, comme complément à notre étude sur les résonateurs, nous avons commencé à explorer les applications des interféromètres optiques à base de miroirs de Bragg en silicium. À cette fin, un microsystème de mesure optique a été conçu, fabriqué et caractérisé, il consiste en une sonde optique pour la profilométrie de surface dans des milieux confinés, basé sur un interféromètre de Michelson monolithique en silicium / This research work has been conducted to introduce a novel class of Fabry-Perot (FP) resonators : curved FP cavity based on coating-free Bragg mirrors of cylindrical shape, obtained by silicon micromachining. Another specificity is the rather large cavity lengths (L>200 µm) combined with high quality factor Q (up to 104), for the purpose of applications requiring cavity enhanced absorption spectroscopy, in which the product Q.L is a figure of merit. In this contest, the basic architecture has been modeled analytically to know the high order transverse modes supported by such cavities. Hence, the experimental conditions which lead to preferential excitation (or rejection) of these modes have been tested experimentally leading to the validation of our theoretical model and to a better understanding of the cavity behaviour. A second architecture, based on the curved FP together with a fiber rod lens has been developed for the purpose of providing stable designs. It was also modeled, fabricated and characterized leading to the expected performance improvements. On another side, a highlight on one of the potential applications that we identified for the curved cavities is presented by inserting the cavity into an electro-mechanical system. It consists of exciting and measuring tiny vibration through opto-mechanical coupling in a MEMS mechanical resonator embedding an FP cavity.Finally, as a complement to our study on resonators, we started exploring applications of optical interferometers based on similar micromachined silicon Bragg mirrors. For this purpose, an optical measurement microsystem was designed, fabricated and characterized ; it consists of an optical probe for surface profilometry in confined environments, based on an all-silicon Michelson interferometer
5

A contribution to photonic MEMS : study of optical resonators and interferometers based on all-silicon Bragg reflectors

Malak Karam, Maurine 17 November 2011 (has links) (PDF)
This research work has been conducted to introduce a novel class of Fabry-Perot (FP) resonators : curved FP cavity based on coating-free Bragg mirrors of cylindrical shape, obtained by silicon micromachining. Another specificity is the rather large cavity lengths (L>200 µm) combined with high quality factor Q (up to 104), for the purpose of applications requiring cavity enhanced absorption spectroscopy, in which the product Q.L is a figure of merit. In this contest, the basic architecture has been modeled analytically to know the high order transverse modes supported by such cavities. Hence, the experimental conditions which lead to preferential excitation (or rejection) of these modes have been tested experimentally leading to the validation of our theoretical model and to a better understanding of the cavity behaviour. A second architecture, based on the curved FP together with a fiber rod lens has been developed for the purpose of providing stable designs. It was also modeled, fabricated and characterized leading to the expected performance improvements. On another side, a highlight on one of the potential applications that we identified for the curved cavities is presented by inserting the cavity into an electro-mechanical system. It consists of exciting and measuring tiny vibration through opto-mechanical coupling in a MEMS mechanical resonator embedding an FP cavity.Finally, as a complement to our study on resonators, we started exploring applications of optical interferometers based on similar micromachined silicon Bragg mirrors. For this purpose, an optical measurement microsystem was designed, fabricated and characterized ; it consists of an optical probe for surface profilometry in confined environments, based on an all-silicon Michelson interferometer
6

Synthesis of chirped Bragg mirrors for spectral widening of optical cavities / Conception de cavités optiques à résonance élargie avec des miroirs de Bragg à pas variable

Iordachescu, Grigore-adrian 21 October 2013 (has links)
Cette thèse propose une nouvelle méthode pour générer des spectres continus avec des applications possibles dans les réseaux d'accès optiques WDM. Cette nouvelle méthode devrait permettre le développement d'une structure laser type continuum avec de meilleures performances en termes de coût et de simplicité comparées aux sources supercontinuum actuelles. Dans ce but, nous avons analysé la possibilité d'élargir les modes résonants d'une cavité Fabry-Perot en n’agissant que sur la conception de l'un des miroirs de la cavité. La conception du miroir est réalisée avec un algorithme génétique en ciblant un spectre de réflectivité souhaitée. Un milieu actif est alors ajouté à l'intérieur de la cavité formée avec un tel miroir synthétisé et son comportement en dessous du seuil est simulé. Les spectres des cavités ainsi obtenues sont continus sur une bande de 5 à 15nm. / This thesis proposes a new method for the generation of continuous spectra with possible applications in optical WDM access networks. This new method would allow the development of a continuum laser type structure with better performances in terms of cost and simplicity compared to the current supercontinuum sources. For this purpose, we have analyzed the possibility of extending the resonant modes of a Fabry-Perot cavity acting only on the design of one of the cavity mirrors. The design of the mirror is generated with a genetic algorithm targeting a desired reflectivity spectrum. An active medium is then added inside the cavity formed with the synthesized mirror and the cavity’s emission is simulated below the lasing threshold. The spectra thus obtained are continuous on an interval of 5 to 15 nm.
7

Direct Write of Chalcogenide Glass Integrated Optics Using Electron Beams

Hoffman, Galen Brandt 16 December 2011 (has links)
No description available.
8

Nanostructures photoniques ultimes pour l'information quantique

Nedel, Patrick 25 June 2010 (has links)
La généralisation des communications numériques (téléphonie mobile, courrier électronique, commerce électronique...) rend nécessaire la mise au point de systèmes dont la confidentialité des informations est garantie de manière absolue. L'utilisation des lois de la mécanique quantique comme moyen de cryptage répond à ce critère. Bien que les physiciens théoriciens aient commencé à réfléchir sur ce type de cryptage depuis les années 1970, les dispositifs effectivement utilisables et industrialisables à grande échelle ne sont pas encore disponibles. Parmi les dispositifs qu’il convient de développer et maîtriser, les sources de lumières capables de générer des photons à l’unité tiennent une place centrale. Une des principales difficultés rencontrées dans leur mise au point réside dans la nécessité d’atteindre une efficacité de collection de la lumière émise proche de l’unité. La solution généralement proposée consiste à maitriser leur environnement électromagnétique à l'aide de résonateurs optiques miniaturisés à l’échelle de la longueur d’onde. On peut ainsi bénéficier d'effets d’électrodynamique quantique, tel que l'effet Purcell, pour améliorer, par exemple, la dynamique et/ou la directivité d'émission des photons. La réalisation pratique de sources de photons n'a été rendue possible que par les progrès des nanotechnologies. L'utilisation de la technologie des semi-conducteurs est la voie prometteuse choisie dans ce travail, dans l'objectif de développer des composants miniaturisés et facilement intégrables, à la base d’une nouvelle génération de résonateurs optiques de taille ultime. Dans ce travail de thèse, nous proposons de développer une source de photons uniques utilisant des boites quantiques InAs -comme émetteurs uniques- incluses dans une membrane GaAs dans laquelle on réalise un résonateur optique consistant en une cavité à cristal photonique membranaire. On exploite la technologie des cristaux photoniques afin d’utiliser un unique mode optique résonant, dit mode de Bloch lent non dégénéré, opérant au-dessus de la ligne de lumière. On exploite diverses méthodes numériques pour la conception et la simulation du comportement électromagnétique des dispositifs. Nous effectuons ainsi une ingénierie fine de modes optiques permettant : (1) d'optimiser le facteur de Purcell dans une hétérostructure photonique(puits photonique analogue des puits quantiques électroniques). Nous montrons que le report de cette cavité sur un miroir de Bragg entraîne le doublement du taux de collection des photons, ainsi que de la dynamique d’émission; (2) de contrôler la directivité d'émission du mode pour améliorer l’efficacité d'extraction /collection des photons. Une étude détaillée de l’ingénierie du diagramme de rayonnement est présentée permettant d’appréhender la physique et de prévoir les caractéristiques10de l’émission du mode. Nous montrons, notamment, que la présence du miroir de Bragg peut fortement modifier la directivité d’émission. Les développements technologiques effectués en vue d'obtenir des résonateurs photoniques de hautes qualités sont également exposés. A la longueur d’onde d’émission de 900nm, choisie pour une adaptation optimale aux caractéristiques des détecteurs, la période du cristal photonique nécessaire est de l’ordre de quelques centaines de nm. Les outils et les paramètres de technologie de fabrication (par exemple, calibration de l’épaisseur du masque dur et des paramètres d’exposition de la résine par lithographie électronique) sont exposés en détail. / The current demand of digital communications (mobile phones, email, e-commerce ...) requires the development of systems which can guarantee full confidentiality. The use of quantum mechanics laws as a way of encryption is considered as an efficient way to meet confidentiality requirements. While physicists have begun to think about this type of encryption since the 1970s, the practical devices with large scale manufacturability are not yet available. Among devices to be developed, light sources capable of generating photons per unit are the most promising. One of the main difficulties encountered in their development is the need to achieve a collection efficiency of the emitted light close to unity. The solution usually proposed is to control their electromagnetic environment using optical resonators miniaturized at the wavelength scale. Thus, we can benefit from quantum electrodynamics effects, as the Purcell effect, in order to improve for example the dynamics and/or the directivity of the emitted photons. The practical realization of photon sources has been made possible by advances in nanotechnology. The use of semiconductor technology is the promising way chosen in this work, in view of developing miniaturized and easily integrated components to lay foundations for a new generation of ultimate-size optical resonators. In this thesis, we propose to develop a single photon source using InAs/GaAs quantum dots -as single emitters - inserted in a GaAs membrane. The quantum dots are coupled to an optical resonator consisting in a photonic crystal cavity formed in the GaAs membrane. Use of the photonic crystal approach allows for the generation of a single-resonant-optical mode so called non degenerated slow Bloch mode, operating above the light line, hence providing efficient communication with free space. We employ various numerical methods for designing and simulating the electromagnetic behaviours of the devices. Thus, we perform a fine engineering of the optical modes in order to:(1) optimize the Purcell factor in a photonic heterostructure (where photonics wells are equivalent to electronic quantum wells). We show that the positioning of a Bragg mirror above the cavity results in a two-fold increase of the collection efficiency of photons, as well as of their emission dynamics;(2) control the directivity of the emission diagram, thus improving the efficiency of extraction/collection of photons. A detailed engineering study of the radiation pattern is presented in12order to predict the features of the emission diagram. We show in particular that the presence of the Bragg mirror may alter the directivity of the emission if its location is not properly optimized. Technological developments meant to result in high quality photonic resonators are described. A wavelength of 900nm of the emission is chosen for an optimal matching to the detector characteristics, which requires a period of the photonic crystal in the range of a few hundreds of nm. The tools and technological parameters of manufacturing (eg, calibration of the thickness of hard mask and exposure parameters of the resist by electron beam lithography) are detailed.

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