Global ETD Search

661	Caractérisation des déformations tectoniques inter-sismiques de l’île de Taiwan par interférométrie radar / Characterization of the inter-seismic tectonic deformations of the island of Taiwan using SAR Interferometry Champenois, Johann 12 December 2011 (has links) L'île de Taiwan résulte de la collision active entre les plaques Eurasienne et Philippine. Ce travail de thèse porte sur la détection et la mesure des déformations tectoniques inter-sismiques engendrées par cette collision. Pour réaliser ce travail, l'interférométrie radar différentielle, et plus précisément la méthode des réflecteurs permanents, a été choisie pour l'étude de Taiwan. Cette méthode repose sur l'analyse d'une série d'images radar acquises à différentes dates sur une même zone. Au final, une carte des déplacements moyens du sol est obtenue, ainsi qu'une série temporelle des déplacements du sol consistant en une mesure par date (la référence étant la date la plus ancienne). Les résultats obtenus présentent une densité de point et une qualité de mesure très riche pour le suivi et l'analyse des déformations tectoniques. Après un état de l'art sur l'interférométrie radar et la mesure des déplacements, abordant tour à tour le principe, les méthodes et les limites de cette mesure, le potentiel de son application à Taiwan est détaillé. Cette méthode est ensuite appliquée, avec des données ALOS PALSAR, à trois zones clés de l'orogène taiwanais : (1) la Vallée Longitudinale, à l'Est de l'île ; située entre la Chaîne Centrale et la Chaîne Côtière, le raccourcissement horizontal à travers la vallée est d'environ 3 cm/an. Grâce à la carte des déplacements moyens entre 2007 et 2010, la faille inverse de la Vallée Longitudinale a pu être localisée avec une grande précision (entre 50 et 100 mètres), améliorant grandement les précédentes cartes. Le taux de glissement inter-sismique a ainsi été estimé (entre 1 et 3,2 cm/an) et sa variation spatiale analysée. Les résultats obtenus ont été comparés avec les données GPS avec succès. (2) la péninsule de Hengchun, au Sud de l'île ; il s'agit des déformations les plus récentes observables à Taiwan. La péninsule, située au sommet du prisme d'accrétion actuel, la structure tectonique majeure est la faille inverse de Hengchun. A partir de la carte des déplacements du sol obtenue, la trace de la faille de Hengchun a été mise en évidence, de même que son glissement inter-sismique (environ 1 cm/an). (3) le front de déformation, à l'Ouest de l'île ; il s'agit d'une étude préliminaire des déformations affectant la Plaine Côtière. Plusieurs types de déformations ont pu être observés entre 1995 et 2010 : le soulèvement de l'anticlinal de Tainan, la subsidence de la plaine de Pingtung, l'activité de la faille de Fengshan et la subsidence près de la rivière Choshui / Pas de résumé en anglais Taiwan Interferométrie radar différentielle Tectonique Réflecteur permanents Faille active Vallée Longitudinale Taiwan Differential SAR Interferometry Tectonic Persistent scatterers Active fault Longitudinal Valley
662	Vliv složek synoviální kapaliny na mazání náhrad kyčelního kloubu / The Effect of Synovial Fluid Constituents on Lubrication of Hip Joint Replacements Nečas, David January 2016 (has links) Dizertační práce se zabývá mechanismy mazání v náhradách kyčelního kloubu. Byla provedena systematická studie formování proteinového filmu při zahrnutí různých materiálů a provozních podmínek. Hlavní pozornost je přitom věnována roli jednotlivých proteinů obsažených v synoviální kapalině při současné přítomnosti dalších proteinů. Jelikož metody aplikované v předchozích studiích neumožňovaly separovat jednotlivé složky maziva, byla vyvinuta optická měřící metoda na principu fluorescenční mikroskopie. Z důvodu verifikace metody byly provedeny dvě nezávislé studie zaměřené na měření tloušťky mazacího filmu a dělení maziva na výstupu mazaného kontaktu. Z důvodu určitých limitací fluorescenční mikroskopie byla dále využita i metoda optické interferometrie, jejíž využití je ilustrováno ve studii zabývající se formováním mazacího filmu v náhradách kyčelního klubu při uvažování reálné konformity třecích povrchů. Závěrečná část práce představuje nový metodologický přístup založený na in situ pozorování kontaktní oblasti umožňující popsat roli jednotlivých proteinů ve vztahu k vývoji tloušťky mazacího filmu. Práce obsahuje originální výsledky, které přináší nové poznání v oblasti biotribologie náhrad kyčelního kloubu vedoucí k dalšímu vývoji implantátů při snaze zabránit jejich selhání v důsledku omezené životnosti.
663	Automatizované procedury pro Koherencí řízený holografický mikroskop / Automated Procedures for Coherence Controlled Holographic Microscope Dostál, Zbyněk January 2016 (has links) Coherence-Controlled Holographic Microscope (CCHM) and a Fluorescence Holographic Microscope (FHM) were developed particularly for quantitative phase imaging and measurement of live cell dynamics, which used to be a subject of digital holographic microscopy (DHM). CCHM and FHM in low-coherence mode extend capabilities of DHM in the study of living cells. However, this advantage following from the use of low coherence is accompanied by increased sensitivity of the system to its correct alignment. Therefore, the introduction of an automatic self-correcting system is inevitable. Accordingly, in the thesis, the theory of a suitable control system is derived and the design of an automated alignment system for both microscopes is proposed and experimentally proved. The holographic signal was identified as a significant variable for guiding the alignment procedures. On this basis the original basic realignment algorithms were proposed, which encompasses the processes for initial and advanced alignment as well as for long-term maintenance of the microscope aligned state. Automated procedures were implemented in both microscopes unique set of robotic mechanisms designed and built within the frame of the thesis work. All of the procedures described in the thesis were in real experimentally proved at real microscopes in the experimental biophotonics laboratory. In addition, the control software, which contains the needed automated procedures, was developed for FHM.
664	Analyse quantitative d’images de phase obtenues par interféromètrie à décalage quadri-latéral. Applications en biologie / Quantitative phase images analysis obtained by quadri-wave lateral shearing interferometry. Applications to biology Aknoun, Sherazade 04 December 2014 (has links) Ces travaux de thèse, consacrés à l'étude et analyse quantitative d'images de phase obtenues par interférométrie à décalage quadri-latéral, ont pour but la caractérisation d'un point de vue métrologique d'un outil de mesure et de ses différentes applications. Cette technique d'interférométrie, développée initialement par la société Phasics pour les marchés de la métrologie optique et de la caractérisation de faisceaux laser essentiellement, peut aussi permettre d'obtenir la cartographie d'un champ électromagnétique complexe grâce à une mesure de front d'onde. En l'utilisant sur un microscope en condition d'imagerie, ont été obtenues des images de l'intensité et de la différence de chemin optique introduite par un échantillon semi-transparent, définissant ainsi une nouvelle technique de contraste de phase quantitatif. La première partie de cette thèse sera consacrée aux techniques en microscopie qui permettent une quantification. Nous verrons les enjeux de l'obtention de ce caractère quantitatif et ce qu'il signifie dans le cadre de différentes techniques utilisant la fluorescence. On étudiera la mesure dans le cadre d'une approximation dite "projective" réalisant certaines hypothèses. On verra quelles sont les grandeurs accessibles grâce à une mesure dans le cadre de cette approximation et quelles applications en biologie peuvent être développées concernant les éléments isotropes dans une première partie et les éléments anisotropes dans une seconde partie.Nous démontrerons la possible transposition de ces applications réalisées en deux dimensions en trois dimensions avec une résolution axiale suffisante permettant une reconstruction tomographique. / The aim of this thesis, dedicated to the study and quantitative analysis of phase images obtained thanks to quadri-wave lateral shearing interferometry, is to caracterize a metrological tool and its three proposed different applications.This work has been done in collaboration between Institut Fresnel (Marseille, France) and Phasics company (Palaiseau, France) and continues that of Pierre Bon who has been in charge the application this technique to microscopy. This interferometric technique, developped by Phasics, for optical metrology and lasers characterization, allows to record complex eletromagnetic field maps thanks to a wave front measurement. By using it in the microscope image plane, one can obtain inetnsity and optical path difference images of a semi-transparent biological sample. this technique is now considered as a new quantitative phase contrast technique.The first part of this manuscript will be a state of the art of quantitative microscopy techniques. The issues of quantification and its meanings in the framework of different fluorescent and phase based techniques will be discussed.A description of the technique that is used and its comparison with similar phase techniques will be done.The measurement, under the projective approximation, is studied leading to different variables. We show different applications concerning isotropic elements in a first part and anisotropic elements in the second one.We show how this measurement is trnasposed to the third dimensions allowing three dimensional imaging and complete reconstruction of refractive index maps of biological samples. Phase quantitative Interférometrie Microscopie Biologie cellulaire Sans marquage Reconstruction tridimensionnelle Biréfringence Quantitative phase Interferometry Microscopy Cellular biology Label free Tridimensional reconstruction Birefringence
665	Electro-Optic Phase Modulation, Frequency Comb Generation, Nonlinear Spectral Broadening, and Applications Oscar E Sandoval (6887678) 15 August 2019 (has links) <p>Electro-optic phase modulation can be used to generate high repetition rate optical frequency combs. The optical frequency comb (OFC) has garnered much attention upon its inception, acting as a crucial component in applications ranging from metrology and spectroscopy, to optical communications. Electro-optic frequency combs (EO combs) can be generated by concatenating an intensity modulator and phase modulator together. The first part of this work focuses on broadening the modest bandwidth inherent to the EO combs. This is achieved by propagation in a nonlinear medium, specifically propagation in a nonlinear optical loop mirror (NOLM). This allows for broadening the EO frequency comb spectrum to a bandwidth of 40 nm with a spectral power variation of < 10 dB. This spectrally broadened EO comb is then used in dual comb interferometry measurements to characterize the single soliton generated in an anomalous dispersion silicone-nitride microresonator. This measurement allows for rapid characterization with low average power. Finally, electro-optic phase modulation is used in a technique to prove frequency-bin entanglement. A quantum network based on optical fiber will require the ability to perform phase modulation independent of photon polarization due to propagation in optical fiber scrambling the polarization of input light. Commercially available phase modulators are inherently dependent on the polarization state of input light making them unsuited to be used in such a depolarized environment. This limitation is overcome by implementing a polarization diversity scheme to measure frequency-bin entanglement for arbitrary orientations of co- and cross- polarized frequency-bin entangled photon pairs.</p> electro-optics eelctro-optic phase modulation electro-optic frequency combs dual comb interferometry frequency-bin entanglement
666	Accéléromètre à atomes froids aéroporté pour un test du Principe d'Equivalence / Airborne cold atom accelerometer : towards a test of the equivalence principle Ménoret, Vincent 28 September 2012 (has links) Dans ce mémoire, nous présentons l'étude d'un senseur inertiel à ondes de matière embarqué dans un avion effectuant des vols paraboliques.Une source laser bi-fréquence robuste et compacte permettant de refroidir et d'interroger simultanément des atomes de 87Rb et 39K a été développée. Elle est basée sur des lasers télécom asservis sur un peigne de fréquences optique et doublés en fréquence. L'utilisation de composants optiques fibrés permet de rendre le système intrinsèquement résistant aux vibrations et aux fluctuations thermiques. Le dispositif a été validé en vol par l'obtention d'un double piège magnéto-optique.Nous avons utilisé la source laser pour faire fonctionner un interféromètre à atomes froids de 87Rb dans l'avion. Un accéléromètre mécanique auxiliaire permet d'augmenter la dynamique du capteur atomique et d'enregistrer des franges d'interférences malgré le niveau élevé des fluctuations d'accélération. Le senseur hybride ainsi réalisé a une résolution de 4.10-3 m.s-2.Hz-1/2, environ 100 fois plus faible que le niveau des vibrations dans l'avion.Dans la perspective de réaliser un test du principe d'équivalence en microgravité avec des atomes froids, nous étudions enfin de manière théorique le fonctionnement d'un interféromètre différentiel et nous intéressons à l'influence de certains effets systématiques. / In this thesis, we report on the study of a matter-wave inertial sensor, operated in an airplane carrying out parabolic flights.We have developped a compact and robust dual-wavelength laser source to cool and interrogate 87Rb and 39K atoms. It is based on frequency-doubled telecom lasers locked on a femtosecond optical frequency comb. The use of fibered optical components makes the setup intrinsically immune to vibrations and thermal fluctuations. The laser source was validated in flight by obtaining a double-species magneto-optical trap.We have used the source to carry out airborne measurements with an atom interferometer operating with cold 87Rb atoms. An auxiliary mechanical accelerometer makes it possible to increase the atomic sensor's dynamic range, and to record interference fringes despite the high level of acceleration fluctuations. This hybrid sensor has a resolution of 4.10-3 m.s-2.Hz-1/2, which is approximately 100 times lower than the typical vibration level in the plane.In the perspective of testing the equivalence principle with cold atoms in microgravity, we finally theoretically study the operation of a differential interferometer and investigate the influence of some systematic effects. Interférométrie atomique Atomes froids Senseurs inertiels Principe d'équivalence Source laser embarquable Microgravité Atom interferometry Cold atoms Inertial sensors Equivalence principle Onboard laser source Microgravity
667	Development of compensated immersion 3D optical profiler based on interferometry / Développement d'un profilomètre optique 3D à immersion compensée basé sur l'interférométrie Mukhtar, Husneni 29 June 2018 (has links) La CSI (Coherence Scanning Interferometry) ou la WLSI (White Light Scanning Interferometry) est une technique d'imagerie optique bien établie pour mesurer la rugosité de surface et la forme des surfaces microscopiques. Les avantages sont la sensibilité axiale nanométrique, un large champ de vision (des centaines de μm à plusieurs mm) et la vitesse de mesure (quelques secondes à quelques minutes). La technique est basée sur l'interférométrie optique avec une configuration de Linnik très difficile à ajuster mais elle présente plusieurs avantages: des objectifs d'ouverture numérique plus élevés pour améliorer la résolution spatiale; longue distance de travail, car il n'y a aucun besoin de l'un des composants devant l'objectif; une configuration de mode de lumière polarisée; franges contrastées en raison de la possibilité de modifier les voies optiques et les intensités des deux bras indépendamment. Alors que l'utilisation d'un objectif d'immersion dans l'eau présente les avantages suivants: éviter les problèmes liés à l'ajustement entre la formation des franges et le plan de formation de l'image; et pour minimiser la différence de dispersion entre les bras de l'interféromètre. Afin de pouvoir mesurer en mode eau et d'obtenir des échantillons à haute résolution latérale de types chimiques et biologiques, plusieurs défis doivent être surmontés tels que l'équilibrage de l'OPD sur les deux bras; trouver et ajuster les bonnes franges de contraste; trouver et adapter une compensation adéquate de l'eau dans le bras de référence horizontal pour faire fonctionner un système dans l'eau. / Coherence Scanning Interferometry (CSI) or White Light Scanning Interferometry (WLSI) is a well-established optical imaging technique for measuring the surface roughness and the shape of microscopic surfaces. The advantages are the nanometric axial sensitivity, a wide field of view (hundreds of μm to several mm) and the measurement speed (a few seconds to a few minutes). The technique is based on optical interferometry with a Linnik configuration which very difficult to adjust but it offers several advantages: higher numerical aperture objectives to improve spatial resolution; long working distance, because there is no need for any of the components in front of the lens; a polarized light mode configuration; contrasting fringes because of the possibility of modifying the optical pathways and the intensities of the two arms independently. While the use of a water-immersion objective gives the following advantages: to avoid the problems related to the adjustment between the formation of the fringes and the plane of formation of the image; and to minimize the difference in dispersion between the arms of the interferometer. In order to be able to measure in water mode and to obtain high lateral resolution samples of chemical and biological types, several challenges must be overcome such as balancing the OPD on both arms; finding and adjusting the good contrast fringes; finding and adapting a suitable water compensation of water in horizontal reference arm to operate a system in water. CSI WLSI Linnik Interférométrie Immersion compensée Polymère élastique SPA PDMS CSI WLSI Linnik Interferometry Compensated immersion Elastic polymer SPA PDMS 621.38
668	Análise experimental da influência da frequência de injeção de combustível em chamas pulsadas de spray de etanol. / Experimental analysis of fuel injection frequency of pulsed ethanol spray flames. Fukumasu, Newton Kiyoshi 02 September 2014 (has links) E consenso que o crescente consumo de combustíveis fósseis na geração de potencia tem provocado uma maior degradação do meio ambiente. Para mitigar os efeitos adversos desse consumo, novas fontes e usos sustentáveis de energia são necessários. O uso de etanol na atual geração de motores de combustão interna demanda informações detalhadas sobre os processos de nebulização, evaporação, mistura e combustão das gotas desse combustível. Adicionalmente, novas estratégias de injeção de combustível em MCIs com injeção direta estão em desenvolvimento, como a injeção estraticada. Essa estratégia consiste na injeção de combustível em elevadas frequências durante as etapas de admissão e combustão do ciclo motor. Neste trabalho, técnicas avançadas de diagnostico a laser são utilizadas para analisar a inuência da frequência de injeção de combustível no processo de combustão de sprays pulsados de etanol, em que as chamas resultantes são estabilizadas por um swirler. A técnica de interferometria por efeito Doppler (PDI) foi utilizada para medir o diâmetro e a componente axial da velocidade das gotas. O campo de velocidades do escoamento de ar foi avaliado pela técnica de velocimetria por imagens de partículas (PIV) em duas taxas de aquisição (7,4 Hz e 2.000 Hz) para avaliar tanto valores médios quanto rastrear estruturas coerentes no escoamento. O mesmo sistema PIV foi utilizado para identificar a posição de aglomerados de gotas pela técnica de espalhamento Mie ao longo de eventos individuais de injeção. Já a técnica de uorescência induzida por laser do radical hidroxila (LIF-OH) foi utilizada com taxa de aquisição de 4.700 Hz para rastrear a região com presença deste radical próximo ao queimador utilizado. Imagens da luminescência química espontânea foram obtidas para observar características globais das chamas. O queimador, posicionado em um ambiente aberto, e composto por um dispositivo swirler e um injetor automotivo. As frequências de injeção de 100 Hz, 250 Hz e 400 Hz foram escolhidas para as análises por produzirem chamas com características que variam desde uma chama estável e ancorada ao queimador até o comportamento similar a uma chama suspensa e instável. Etanol anidro líquido foi utilizado como combustível e fornecido ao injetor a pressão e vazão constantes para todos os casos. Os resultados indicaram que a variação na frequência de injeção produziu sprays com diferentes densidades. A menor frequência de injeção produziu um spray com maior densidade, em que as gotas formaram um aglomerado pouco sensível ao escoamento de ar na linha de centro do queimador. Esse aglomerado produz uma chama ancorada ao queimador com formato alongado e estreito. Já a maior frequência de injeção produziu um spray com menor densidade, permitindo que a dinâmica das gotas seja mais susceptível ao escoamento de ar. Essa maior inuência do escoamento de ar promoveu uma maior dispersão espacial das gotas e um processo de combustão com maior susceptibilidade a instabilidades locais do escoamento. Essas instabilidades locais foram associadas a passagem periódica de estruturas coerentes do escoamento de ar através da região de reação das chamas, produzindo uma chama com presença intermitente do radical OH e ausência de emissão de luminescência química espontânea próximo a saída do queimador. / The increase in consumption of petroleum-based fuels promotes environmental degradation and, to mitigate the adverse effects of this consumption, new sustainable sources and uses of energy are required. The use of ethanol as an option to conventional fuels on current generation of engines and gas turbines requires detailed information on atomization, evaporation, mixture and combustion processes of ethanol droplets. In addition, new strategies to fuel injection in ICEs are being developed, such as the stratied fuel injection. In this strategy, fuel is injected in higher injection frequencies along the air intake and combustion phases of the engine cycle. In this work, advanced techniques of laser diagnostic are applied to analyze the inuence of fuel injection frequency on the behavior of the combustion process of pulsed ethanol sprays, in which the resulting ames are stabilized by a swirler. The Phase Doppler Interferometry (PDI) technique is applied to measure both diameter and axial velocity of droplets produced by the injector under different conditions of injection frequency. The velocity eld of the airow is evaluated by the Particle Image Velocimetry (PIV) using two repetition rates (7,4 Hz and 2.000 Hz) to evaluated both mean values and to track coherent structures in the ow. The PIV equipment is also used to evaluate the position of droplet groups by Mie scattering during the individual injection events. A high repetition rate (4.700 Hz) Laser Induced Fluorescence of hydroxyl radical (LIF-OH) system is applied to track the region with presence of OH in a vertical plane near the exit of the burner. Images of spontaneous chemical luminescence are acquired to analyze general aspects of the ames. The burner consists on a swirler and an automotive injector and is positioned in an open space with quiescent air. The analyzed injection frequencies are 100 Hz, 250Hz and 400 Hz, presenting characteristics ranging from a stable anchored ame to a lifted-like unstable ame. Liquid anhydrous ethanol is delivered to the injector with constant pressure and ow rate for all cases. Results show different spray densities produced by the change in the injection frequency. The case with lower injection frequency produced higher spray densities, in which the formation of large groups of droplets prevents the inuence of the recirculating airow on droplet dynamics. This case presented an anchored, elongated, narrow and stable ame. The case with higher injection frequency produced lower spray densities, in which droplet dynamics are more susceptible to the velocities of the airow. This inuence of the airow promotes spatial dispersion of droplets, been more prone to instabilities on the local combustion process. These local instabilities are associated to the inuence of periodic coherent structures of the ow passing through the reaction zone, which leads to the intermittent presence of OH and the absence of spontaneous chemical luminescence near the injection plane of the burner. Combustão Combustion Etanol Ethanol Fluorescência Induzida por Laser (LIF) Interferometria por Efeito Doppler (PDI) Laser-induced Fluorescence (LIF) Phase Doppler Interferometry (PDI)
669	A mobile, high-precision atom-interferometer and its application to gravity observations Hauth, Matthias 01 September 2015 (has links) Atom Interferometrie ist eine sehr genaue und sensitive Methode mit einer Vielzahl von Anwendungsmöglichkeiten, zu der auch die Messung der Erdbeschleunigung zählt. Während die meisten Atom Interferometer aus großen, ortsfesten Aufbauten bestehen, werden auf diesem Gebiet häufig mobile Messgeräte benötigt. Das Gravimetric Atom Interferometer (GAIN) Projekt wurde ins Leben gerufen, um dieser zusätzlichen Anforderung bei bestmöglicher Messgenauigkeit gerecht zu werden. Es soll eine Alternative zu anderen modernsten Gravimetertypen geschaffen werden, die wichtige funktionale Eigenschaften wie eine hohe Auflösung und absolute Genauigkeit in einem Gerät vereint. Der GAIN Sensor verwendet lasergekühlte Rb87 Atome in einer 1 m hohen Fontäne. Mit Hilfe von stimulierten Raman Übergängen wird ein beschleunigungssensitives Interferometer realisiert. In dieser Arbeit wurde der Sensor mit Blick auf mobile und driftfreie Langzeitmessungen weiterentwickelt. Dafür wurden einzelne Subsysteme des Laseraufbaus auf die daraus resultierenden Anforderungen hin angepasst oder neu entwickelt. Mit derselben Zielstellung wurden weiterhin systematische Effekte in dem Messaufbau untersucht und Maßnahmen für ihre Reduzierung realisiert. Der Aufbau wurde transportiert und in relevanten Umgebungen getestet. Dabei konnte gezeigt werden, dass die Leistungsfäigkeit dieses Aufbaus mit denen der wichtigsten und modernsten Gravimeter konkurieren kann, sie teilweise übertrifft und dass dieser Sensor zur präzisen Kalibrierung der relativen Gravimeter verwendet werden kann. In den Messungen wurde eine Sensitivität von 138 nm/s^2/Sqrt(Hz) sowie eine Langzeitstabilität von 5 x 10^−11 g über 10^5 s erreicht. / Atom interferometry offers a very precise and sensitive measurement tool for various areas of application whereof one is the registration of the gravity acceleration. While the vast majority of atom interferometers include large and stationary setups, this field very often implies the additional request for a mobile apparatus. The Gravimetric Atom Interferometer (GAIN) project has been started to meet this requirement and to provide best possible accuracy at the same time. It aims to realize an alternative to other types of gravimeters and to combine important qualities such as high sensitivity and absolute accuracy in one instrument. The GAIN sensor is based on laser-cooled Rb87 atoms in a 1 m atomic fountain. Stimulated Raman transitions form a Mach-Zehnder type interferometer which is sensitive to accelerations. In this work it has been advanced to meet all requirements for mobile and drift-free long-term operation. Therefore, selected parts of the laser system have been improved or redeveloped. A second focus has been on systematic effects for the same objective. They have been analyzed and measures for their suppression have been undertaken. The apparatus has been transported, tested in relevant environments, and compared to the most important state-of-the-art gravimeter types where a competitive performance has been achieved. It is demonstrated, that the gravity signal of this sensor allows for a precise calibration of the relative gravimeter types. During the measurements a best sensitivity of 138 nm/s^2/Sqrt(Hz) and a stability of 5 x 10^−11 g after 10^5 s has been reached. Absolutgravimetrie Hochpräzisionsmessungen Atominterferometrie Erdbeschleunigung Schwere absolute gravimetry high precision measurements atom interferometry gravitational acceleration gravity 530 Physik 29 Physik, Astronomie UH 8700 ddc:530
670	Anwendung ultrakurzer Lichtimpulse in der digital-holographischen Interferometrie Hansel, Thomas 06 September 2010 (has links) In dieser Arbeit wird die digital-holographisch-interferometrische Zwei-Wellenlängen-Formerfassung sehr schnell bewegter Objekte behandelt und dafür unter Nutzung einer Ultrakurzpuls-Laserquelle mit der digitalen Einzelimpuls-Mehr-Wellenlängen-Holographie ein neuartigen Ansatz der digital-holographischen Aufnahme und Auswertung entwickelt. Mit der Entwicklung spezieller Methoden zur Formung der spektralen Signatur einer Ultrakurzpuls-Laserquelle hoher Leistungsdichte wurde zum ersten Mal die Voraussetzung für eine Zwei-Wellenlängen-Formerfassung hochdynamischer Objekte geschaffen. Die intrinsisch kurze Belichtungszeit unter einer Pikosekunde macht das Verfahren absolut stabil gegenüber Umwelteinflüssen. Für die simultane Aufnahme werden die spektral verschiedenen Hologramme mit einem eigens entwickelten Prinzip der Polarisationskodierung räumlich getrennt und zum ersten Mal mit zwei synchron laufenden Kameras gespeichert. Mit den in der digital-holographischen Einzelimpuls-Mehr-Wellenlängen-Interferometrie zusammengefassten numerischen Routinen zur Rekonstruktion und Phasenauswertung wird eine Zwei-Wellenlängen-Formerfassung mit mehreren Kameras möglich. In Anwendung des neuartigen Verfahrens an verschiedenen dynamischen Mikrosystemen konnte eine Genauigkeit von einem Zwanzigstel der erzeugten synthetischen Wellenlänge, bei der Auswertung der spektralen Differenzphase an Objekten in Reflexion erreicht werden. In einer digital-holographischen Hochgeschwindigkeitsformerfassung in Transmission wurden erstmals Bildfolgefrequenz von mehr als 0,4 kHz erreicht und der interferometrische Eindeutigkeitsbereich auf mehr als das 60-fache der optischen Wellenlänge ausgedehnt. Es wurden die Voraussetzungen für eine digitale Vier-Wellenlängen-Holographie geschaffen. Zukünftig wird eine Formerfassung mit einer Genauigkeit von 10nm über einen eindeutigen interferometrischen Bereich einiger 10 μm und die Untersuchungen von Prozessen auf einer Pikosekunden-Zeitskala möglich sein. / This work deals with the digital holographic interferometric two-wavelength contouring of very fast moving objects and develops with the digital single pulse multiwavelength holography a novel approach of digital holographic recording and analysis, using an ultrashort pulse laser source. The development of several methods to shape the spektral signature of an high power ultrashort pulse laser source provides the precondition for a two-wavelength contouring of highly dynamic objects for the first time. The intrinsically short exposure time shorter than a picosecond makes the system stable regarding external impacts. For the simultaneous recording the spektral different holograms are spatially separated in novel interferometric setups by the especially developed principle of polarization encoding and stored with two synchronized cameras for the first time. The digital holographic single pulse multi-wavelength interferometry combines the numeric routines of reconstruction and phase evaluation that make a two-wavelength contouring possible using more than one camera. The novel approach is successfully demonstrated on several dynamic microsystems. Evaluating the spectral phase difference for objects in reflection an accuracy of 2 μm, which corresponds to the twentieth of the realized synthetic wavelength, could be achieved. In a digital holographic high speed contouring in transmission a frame rate higher than 0,4 kHz was achieved for the first time and the interferometric range of unambiguity was extended larger than sixty times the optical wavelength. Furthermore, the developed digital holographic single pulse multi-wavelength interferometry is not limited to the evaluation of two wavelength. The principles of the method allow to perform digital four-wavelength holography. Future a contouring with an accuracy of 10nm over the unambiguous interferometric range of several 10 μm and the investigation of processes on a picosecond time scale will be possible. Digitale Holographie Mehr-Wellenlängen-Interferometrie Ultrakurzpuls-Laser Mikrosystemtechnik Digital Holography Multi-Wavelength Interferometry Ultrashort pulse laser Micro-Electro-Mechanical Systems 530 Physik 29 Physik, Astronomie ddc:530

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