Global ETD Search

151	On-line C-arm intrinsic calibration by means of an accurate method of line detection using the radon transform / On-line C-arm Calibration intrinsèque "On-line" d'un C-arm par une méthode de détection de droite avec la transformée de Radon Spencer, Benjamin 18 December 2015 (has links) Les ``C-arm'' sont des systémes de radiologie interventionnelle fréquemment utilisés en salle d'opération ou au lit du patient. Des images 3D des structures anatomiques internes peuvent être calculées à partir de multiples radiographies acquises sur un ``C-arm mobile'' et isocentrique décrivant une trajectoire généralement circulaire autour du patient. Pour cela, la géométrie conique d'acquisition de chaque radiographie doit être précisément connue. Malheureusement, les C-arm se déforment en général au cours de la trajectoire. De plus leur motorisation engendre des oscillations non reproductibles. Ils doivent donc être calibrés au cours de l'acquisition. Ma thèse concerne la calibration intrinsèque d'un C-arm à partir de la détection de la projection du collimateur de la source dans les radiographies.Nous avons développé une méthode de détection de la projection des bords linéaires du collimateur. Elle surpasse les méthodes classiques comme le filtre de Canny sur données simulées ou réelles. La précision que nous obtenons sur l'angle et la position (phi,s) des droites est de l'ordre de: phi{RMS}=+/- 0.0045 degrees et s{RMS}=+/- 1.67 pixels. Nous avons évalué nos méthodes et les avons comparés à des méthodes classiques de calibration dans le cadre de la reconstruction 3D. / Mobile isocentric x-ray C-arm systems are an imaging tool used during a variety of interventional and image guided procedures. Three-dimensional images can be produced from multiple projection images of a patient or object as the C-arm rotates around the isocenter provided the C-arm geometry is known. Due to gravity affects and mechanical instabilities the C-arm source and detector geometry undergo significant non-ideal and possibly non reproducible deformation which requires a process of geometric calibration. This research investigates the use of the projection of the slightly closed x-ray tube collimator edges in the image field of view to provide the online intrinsic calibration of C-arm systems.A method of thick straight edge detection has been developed which outperforms the commonly used Canny filter edge detection technique in both simulation and real data investigations. This edge detection technique has exhibited excellent precision in detection of the edge angles and positions, (phi,s), in the presence of simulated C-arm deformation and image noise: phi{RMS} = +/- 0.0045 degrees and s{RMS} = +/- 1.67 pixels. Following this, the C-arm intrinsic calibration, by means of accurate edge detection, has been evaluated in the framework of 3D image reconstruction. Radiographie interventionnelle C-Arm calibration Géométrie conique et pin-Hole Détection de droites Transformée de Radon Cb ct Interventional radiology C-Arm on-Line calibration Conical and pin-Hole geometry X-Ray edge detection Radon transform Cone-Beam Computed Tomography (CB CT) 660
152	Experimental and Analytical Methodologies for Predicting Peak Loads on Building Envelopes and Roofing Systems Asghari Mooneghi, Maryam 09 December 2014 (has links) The performance of building envelopes and roofing systems significantly depends on accurate knowledge of wind loads and the response of envelope components under realistic wind conditions. Wind tunnel testing is a well-established practice to determine wind loads on structures. For small structures much larger model scales are needed than for large structures, to maintain modeling accuracy and minimize Reynolds number effects. In these circumstances the ability to obtain a large enough turbulence integral scale is usually compromised by the limited dimensions of the wind tunnel meaning that it is not possible to simulate the low frequency end of the turbulence spectrum. Such flows are called flows with Partial Turbulence Simulation. In this dissertation, the test procedure and scaling requirements for tests in partial turbulence simulation are discussed. A theoretical method is proposed for including the effects of low-frequency turbulences in the post-test analysis. In this theory the turbulence spectrum is divided into two distinct statistical processes, one at high frequencies which can be simulated in the wind tunnel, and one at low frequencies which can be treated in a quasi-steady manner. The joint probability of load resulting from the two processes is derived from which full-scale equivalent peak pressure coefficients can be obtained. The efficacy of the method is proved by comparing predicted data derived from tests on large-scale models of the Silsoe Cube and Texas-Tech University buildings in Wall of Wind facility at Florida International University with the available full-scale data. For multi-layer building envelopes such as rain-screen walls, roof pavers, and vented energy efficient walls not only peak wind loads but also their spatial gradients are important. Wind permeable roof claddings like roof pavers are not well dealt with in many existing building codes and standards. Large-scale experiments were carried out to investigate the wind loading on concrete pavers including wind blow-off tests and pressure measurements. Simplified guidelines were developed for design of loose-laid roof pavers against wind uplift. The guidelines are formatted so that use can be made of the existing information in codes and standards such as ASCE 7-10 on pressure coefficients on components and cladding. Low-rise Buildings Wind Loads Large-scale Testing Partial Turbulence Simulation Building Envelope Probability Distribution Function Pressure Coefficient Roof Pavers Wind Uplift Conical Vortices Design Guidelines Civil Engineering Computational Engineering Structural Engineering
153	Finite Element Limit Analysis for Solving Different Axisymmetric Stability Problems in Geomechanics : Formulations and Solutions Chakraborty, Manash January 2015 (has links) (PDF) Limit analysis is a very powerful tool to find accurate solutions of several geotechnical stability problems. This analysis is based on the theory of the plasticity and it provides two limiting solutions within lower and upper bounds. With the advancement of the finite elements and different robust optimization techniques, the numerical limit analysis approach in association with finite elements is becoming quite popular to assess the stability of various complicated structures. The present thesis deals with the formulations and the implementation of the finite element limit analysis to obtain the solutions of different geotechnical axisymmetric stability problems. The objectives of the present thesis are twofold: (a) developing limit analysis formulations in conjunction with linear and nonlinear optimizations for solving axisymmetric stability problems related with soil and rock mechanics, and then (b) implementing these axisymmetric formulations for solving various important axisymmetric stability problems in geomechanics. Three noded linear triangular elements have been used throughout the thesis. In order to solve the different problems, the associated computer programs have been written in MATLAB. With reference to the first objective of the thesis, the existing finite element lower bound axisymmetric formulation with linear programming has been presented. A new technique has also been proposed for solving an axisymmetric geomechanics stability problem by employing an upper bound limit analysis in combination with finite elements and linear programming. The method is based on the application of the von-Karman hypothesis to fix the constraints associated with the magnitude of the circumferential stress (), and finally the method involves only the nodal velocities as the basic unknown variables. The required computational effort becomes only marginally greater than that needed for an equivalent plane strain problem. The proposed methodology has been found to be computationally quite efficient. A new lower bound axisymmetric limit analysis formulation, by using two dimensional finite elements, the three dimensional Mohr-Coulomb (MC) yield criterion, and nonlinear optimization has also been presented for solving different axisymmetric stability problems in geomechanics. The nonlinear optimization was carried out by employing an interior point method based on the logarithmic barrier function. The yield surface was smoothened (i) by removing the tip singularity at the apex of the pyramid in the meridian plane, and (ii) by eliminating the stress discontinuities at the corners of the yield hexagon in the plane. No inherent assumption concerning with the hoop stress needs to be made in this formulation. The Drucker-Prager (DP) yield criterion was also used for computing the lower bound axisymmetric collapse load. The advantage of using the DP yield criterion is that it does not exhibit any singularity in the plane. A new proposal has also been given to simulate the DP yield cone with the MC hexagonal yield pyramid. The generalized Hoek-Brown (HB) yield criterion has also been used. This criterion has been smoothened both in the meridian and  planes and a new formulation is prescribed for obtaining the lower bound axisymmetric problems in rock media in combination with finite elements and nonlinear optimization. With reference to the second objective, a few important axisymmetric stability problems in soil mechanics associated with footings and excavations have been solved in the present thesis. In all these problems, except that of a flat circular footing lying over either homogeneous soil or rock media, it is assumed that the medium is governed by the MC failure criterion and it follows an associated flow rule. For determining the collapse loads for a circular footing over homogenous soil and rock media, the problem has been solved with the usage of Drucker-Prager, Mohr-Coulomb and Hoek-Brown criteria. The bearing capacity of a circular footing lying over fully cohesive strata, with an inclusion of a sand layer is evaluated. The effects of the thickness and internal friction angle of the sand layer () on the bearing capacity have been examined for different combinations of cu/(b) and q; where (i) cu defines the undrained shear strength, (ii)  is the unit weight of sand, (iii) b corresponds to the footing radius, and (iv) q is the surcharge pressure. The results have been presented in the form of a ratio () of the bearing capacities with an insertion of the sand layer to that for a footing lying directly over clayey strata. It is noted that an introduction of a layer of medium dense to dense sand over soft clay improves considerably the bearing capacity of the foundation. The improvement in the bearing capacity increases continuously (i) with decreases in cu/(b), and (ii) increases in  and q/(b). The bearing capacity factors, Nc, Nq and N, for a conical footing are obtained in a bound form for a wide range of the values of cone apex angle () and with  = 0, 0.5 and . The bearing capacity factors for a perfectly rough ( = conical footing generally increase with a decrease in . On contrary for  = 0, the factors Nc and Nq reduce gradually with a decrease in . For  = 0, the factor N for  ≥ 35o becomes minimum for  approximately equal to 90o. For  = 0, the factor N for  ≤ 30o, like in the case of  = , generally reduces with an increase in . It has also been intended to compute the bearing capacity factors Nc, Nq and N, for smooth and rough ring footing for different combinations of ri/ro and ; where ri and ro refer to inner and outer radii of the ring, respectively. It is observed that for a smooth footing, with a given value of ro, the magnitude of the collapse load decreases continuously with an increase in ri. On the other hand, for a rough base, for a given value of ro, hardly any reduction occurs in the magnitude of collapse load up to ri/ro ≈ 0.2, whereas beyond this ri/ro, the magnitude of the collapse load, similar to that of a smooth footing, decreases continuously with an increase in ri/ro. An attempt has also been made to determine the ultimate bearing capacity of a circular footing, placed over a soil mass which is reinforced with horizontal layers of circular reinforcement sheets. For performing the analysis, three different soil media have been separately considered, namely, (i) fully granular, (ii) cohesive frictional, and (iii) fully cohesive with an additional provision to account for an increase of cohesion with depth. The reinforcement sheets are assumed to be structurally strong to resist axial tension but without having any resistance to bending; such an approximation usually holds good for geogrid sheets. The shear failure between the reinforcement sheet and adjoining soil mass has been considered. The increase in the magnitudes of the bearing capacity factors (Nc and N) with an inclusion of the reinforcement has been computed in terms of the efficiency factors c and . The critical positions and corresponding optimum diameter of the reinforcement sheets, for achieving the maximum bearing capacity, have also been established. The increase in the bearing capacity with an employment of the reinforcement increases continuously with an increase in . The improvement in the bearing capacity becomes quite extensive for two layers of the reinforcements as compared to the single layer of the reinforcement. The stability of an unsupported vertical cylindrical excavation has been assessed. For the purpose of design, stability numbers (Sn) have been generated for both (i) cohesive frictional soils, and (ii) pure cohesive soils with an additional provision to account for linearly increasing cohesion with depth by using a non-dimensional factor m. The variation of Sn with H/b has been established for different values of m and ; where H and b refer to height and radius of the cylindrical excavation. A number of useful observations have been drawn about the variation of the stability number and nodal velocity patterns with changes in H/b,  and m. In the last, by using the smoothened generalized HB yield criterion, the ultimate bearing capacity of a circular footing placed over a rock mass is evaluated in a non-dimensional form for different values of GSI, mi, ci/(b) and q/ci. For validating the results, computations were exclusively performed for a strip footing as well. For the various problems selected in the present thesis, the failure and nodal velocity patterns have been examined. The results obtained from the analysis have been thoroughly compared with that reported from literature. It is expected that the various design charts presented here will be useful for the practicing engineers. The formulations given in the thesis can also be further used for solving various axisymmetric stability problems in geomechanics. Geomechanics Finite Element Limit Analysis Geotechnical Axisymmetric Stability Soil Mechanics Rock Mechanics Axisymmetric Geomechanics Soil Reinforcement Circular Footing Bearing Capacity Foundations Conical Footing Ring Foundations Circular Foundation Civil Engineering
154	Théorie des opérateurs sur les espaces de tentes / Operator theory on tent spaces Huang, Yi 12 November 2015 (has links) Nous donnons un mécanisme de type Calderón-Zygmund concernant la théorie de l’extrapolationpour des opérateurs d’intégrale singulière sur les espaces de tentes. Pour des opérateursde régularité maximale sur les espaces de tentes, nous donnons des résultats optimaux enexploitant la structure des opérateurs intégraux de convolution et en utilisant des estimationsde la décroissance hors-diagonale du semi-groupe ou de la famille résolvante sous-jacente.Nous appliquons des techniques précédentes d’analyse harmonique et fonctionnelle pourestimer sur les espaces de tentes certains opérateurs d’intégrale évolutionnelle, nées de l’étudedes problèmes aux limites elliptiques et des systèmes non-autonomes du premier ordre. / We give a Calderón-Zygmund type machinery concerning the extrapolation theory for thesingular integral operators on tent spaces. For maximal regularity operators on tent space, wegive some optimal results by exploiting the structure of convolution integral operators and byusing the off-diagonal decay estimates of the underlying semigroup or resolvent family.We apply the previous harmonic and functional analysis techniques to estimate on tentspaces certain evolutionary integral operators arisen from the study of boundary value ellipticproblems and first order non-autonomous systems. Espaces de tentes Opérateurs d’intégrale singulière Extrapolation Régularité maximale conique Problèmes aux limites elliptiques Systèmes du premier ordre Tent spaces Singular integral operators Extrapolation Conical maximal regularity Boundary value elliptic problems First order systems
155	Návrh nové technologie výroby vybrané součásti / A new technology of a machined part Reňák, Antonín January 2011 (has links) The fully fashioned master’s thesis within the frame of the master’s study at the Faculty of mechanical engineering is focused on manufacture problems of complex shaped tool specifically for splitting of wood. In the thesis the concept of construction of the tool is analysed with emphasis on correct and efficient functionality. Large emphasis is laid on the analyse of action of force on the gusset and the analyse of conditions of self-locking. This knowledge is applied to the concept of construction of the tool. In the next part the procedure of manufacture is drafted with specification of suitable tools and machines. Then CNC program is elaborated with using of parametrical programming with mathematical function. Then finally the valuation of theoretical results with real production semiautomatic lathe SPN 12 CNC with operation system Simumerik 810D, SPN 12 CNC.
156	Untersuchungen an einer Kolbenexpansionsmaschine mit integrierten Wärmeübertragerflächen (Wärmeübertrager-Expander) zur Realisierung eines neuartigen Neon-Tieftemperatur-Prozesses Fredrich, Ole 23 April 2004 (has links) Viele Anwendungen der Hochtemperatur-Supraleitung arbeiten vorteilhaft im Temperaturbereich zwischen 30 - 50 K. Für diesen Temperaturbereich existieren nur wenige geeignete Kältemaschinen mit kleiner Kälteleistung (1-2 W) u. gutem Wirkungsgrad. Neon ist aufgrund seiner Stoffeigenschaften ein hervorragendes Kältemittel für diesen Temperaturbereich, wie z.B. anhand einer realisierten Joule-Thomson (JT) Demonstrationsanlage deutlich wird. Als Ergebnis einer Prozessanalyse wird ein Kreislauf vorgestellt, der speziell den Eigenschaften von Neon angepasst ist. Durch die Überlagerung von Wärmeübertragung u. arbeitsleistender Expansion sowie der Einbeziehung einer JT-Stufe kann auch mit wenig effizienten Komponenten ein vergleichsweise hoher Gütegrad erreicht werden. Durch die Integration von Wärmeübertragerflächen in eine Kolbenexpansionsmaschine wird ein neues Konzept vorgeschlagen, um Kälte in einem großen Temperaturbereich in vielen Expansionsschritten zu erzeugen, ohne dafür viele Expander zu verwenden. Diese Einheit wird als Wärmeübertrager-Expander (WE) bezeichnet. Mit einem Arbeitsraum in konischer Grundform wird der Wärmeübergangskoeffizient günstig gestaltet u. die Wärmeübergangsfläche vergrößert. Mehrere Versuchsmaschinen wurden untersucht. Anhand der Versuche konnten die wesentlichen Verlustquellen u. Problembereiche identifiziert werden. Es wurde im Rahmen der Versuchsbedingungen nachgewiesen, dass für das vorgesehene Druckverhältnis eine nahe isotherme Expansion u. Kompression möglich ist. Es werden Möglichkeiten zur Verringerung der Längswärmeleitung vorgestellt. Zwei Simulationsprogramme wurden verwendet. Mit Hilfe des Wärmeübertrager-Programms wurden die Wärmeübertragungsvorgänge unter Berücksichtigung der Längswärmeleitung simuliert. Hierbei geht die Expansionsarbeit als stationäre Wärmesenke ein. Der im Ergebnis vorliegende stationäre Temperaturverlauf ist die Grundlage für die Berechnung der Expansionsarbeit unter Berücksichtigung der Realgaseigenschaften im Expander-Programm. Für die Neon-Tieftemperaturvariante wurde eine Grundvariante des WE definiert. Anhand dieser wurde mit Hilfe der Programme der Einfluss verschiedener Parameter auf Kälteleistung u. Gütegrad untersucht. Der WE wird als Teil des beschriebenen Prozesses mit einer JT-Stufe betrachtet. Die Kälteleistung weist sowohl in Abhängigkeit vom Massestrom als auch vom Hub ein Maximum auf. Der Shuttle-Verlust verschiebt durch Wärmetransport mittels des Kolbens die effektive Kälteleistung zu kleineren Hüben. Die durch die Güte (NTU) des JT-Wärmeübertragers bestimmte Eintrittstemperatur des Niederdruckstroms in den WE hat einen großen Einfluss auf die Kälteleistung. Mit steigender Eintrittstemperatur steigen der NTU-Wert für den Arbeitsraum u. somit auch die Kälteleistung. Das Maximum der Kälteleistung stimmt nicht mit dem Optimum für den Gütegrad überein. Der Gütegrad strebt mit sinkenden Masseströmen einem Optimum zu. Durch den zunehmenden Einfluss der Längswärmeleitung u. begrenzt durch die Minimalfüllung der Maschine aufgrund des Schadraumes ergibt sich ein Optimum. Der Einfluss des Massestroms ist entscheidend. Als untergeordnete Größen beeinflussen die Eintrittstemperatur des Niederdruckstroms u. der Hub den optimalen Gütegrad. Der Einfluss der Längswärmeleitung auf Kälteleistung u. Gütegrad wird exemplarisch anhand von vergleichenden Rechnungen gezeigt. Konkret kann für einen Eintrittsdruck von 200 bar, einen Austrittsdruck von 60 bar bei einer Eintrittstemperatur des Niederdruckstroms von 80 K für die Grundvariante eine maximale effektive Kälteleistung von 1,3 W mit einem Massestrom von 0,22 g/ s bei einem Hub von ca. 17 mm ausgewiesen werden. Der effektive Gütegrad für diese Bedingungen beträgt ca. 14%. Kommerzielle Split-Stirlingkühler erreichen bei 42 K einstufig Gütegrade von ca. 7%. Mit der vorgeschlagenen Konfiguration wird ein Konzept vorgestellt, das trotz technologisch offener Fragen das Gütegradniveau bekannter Kryokühler übertreffen kann. / Many applications of high temperature superconductivity are working advantageously within a temperature range between 30 K and 50 K. But for this temperature range only few suitable cryocooler with small refrigerating capacity (1-2 W) and good efficiency exist.Due to its properties Neon is an excellent refrigerant for this temperature level as an example with realised Joule-Thomson plant shows. A process analysis results in the presented cycle which is especially adapted to the properties of Neon. By combination of heat exchange and work extracting expansion and integration of a Joule-Thomson stage a high efficiency could be reached in spite of less efficient components.By arranging heat exchanger surfaces into a piston expansion machine a new concept is suggested to produce refrigeration in a large temperature range with a lot of expansion steps with reduced number of expanders. This unit is referred hereinafter to as heat exchanger-expander.The conical shaped working space results in an increase of the heat transfer coefficient and the heat transfer area.Several test machines were investigated. By means of testing the main loss sources and critical zones could be identified. The test results prove the opportunity of a near isothermal expansion and compression for the specified pressure ratio.Options to reduce the axial heat conduction are presented.Two simulation programs were utilised. Using the heat exchanger program the heat transfer is simulated in consideration of the axial heat conduction. Thereby the expansion work is considered as a stationary heat sink. The resulting stationary temperature pattern is the base for the expansion work calculation using the real gas properties in the expander program. Referring to the defined basic neon low temperature application the influence of different parameters on refrigerating capacity and efficiency was researched with the programs. The heat exchanger-expander is part of the described process with a Joule-Thomson stage. The refrigerating capacity shows a maximum depending as well from the mass flow as from the stroke. In result of the shuttle loss smaller strokes lead to better capacity due to heat transport with the piston.The inlet temperature of the low pressure flow influenced by the quality (NTU) of the Joule-Thomson heat exchanger has a large influence on the refrigerating capacity. With increasing inlet temperature the number of transfer units (NTU) for the fluid in the working volume increases and so the refrigerating capacity, too. The location of refrigerating capacity maximum and efficiency optimum is different. While decreasing mass flow efficiency is increasing to an optimum caused by the increased influence of axial heat conduction but limited by the minimum charge of the machine due to the dead space. The influence of the mass flow is dominating. As lower range values the inlet temperature of the low pressure flow and the stroke are influencing the optimal efficiency. The influence of axial heat conduction on refrigerating capacity and efficiency is shown using comparing calculations.For an inlet pressure of 200 bar, an outlet pressure of 60 bar, an inlet temperature of the low pressure flow of 80 K, a mass flow of 0,22 g/ s and a stroke of about 17 mm for the basic version of heat exchanger-expander a maximal effective refrigerating capacity of 1,3 We could be shown. The effective efficiency therefore is 14 %. Current commercial split Stirling cryocooler reach with single stage operation efficiencies of about 7 % at 42 K. The suggested configuration represents a concept that could be able to master the efficiency level of known cryocooler. info:eu-repo/classification/ddc/620 ddc:620
157	Photophysics and photochemistry of diiodomethane and hexabromoiridate - paradigm molecules for organic and inorganic chemistry - studied with sub-50-fs broadband pump-probe spectroscopy Matveev, Sergey M. 15 July 2016 (has links) No description available. Chemistry Physical Chemistry photochemistry photo photophysics iridium copper photodynamics Jahn-Teller spin-orbit non-adiabatic ultrafast pump-probe time-resolved vibronic diiodomethane polyhalomethanes conical intersection sub-50-fs fs multiexponential
158	Ultrawideband Time Domain Radar for Time Reversal Applications Lopez-Castellanos, Victor 31 March 2011 (has links) No description available. Electrical Engineering Electromagnetics Electromagnetism time reversal tr inverse scattering uwb radar time domain random media random medium conical antenna TEM horn tr mirror time reversal mirror deconvolution DORT impulse radar
159	Dynamique moléculaire par imagerie attoseconde Ruf, Hartmut 06 December 2012 (has links) Depuis sa première observation, la génération d'harmoniques d'ordre élevé (GHOE) dans les gaz a demontré son importance, ouvrant la voie à la science attoseconde. Cette technique produit un rayonnement impulsionnel XUV qui s'étend dans le domaine spectral intermédiaire entre l'ultraviolet et les rayons X. Ces impulsions attosecondes donnent accès à des résolutions temporelles extrêmes, permettant ainsi d'observer des dynamiques électroniques dans des atomes ou des molécules. En effet le processus de généneration d'harmonique repose sur l'oscillation de paquets d'électrons attosecondes issus des molécules, accélérés par le champ de laser intense et se recombinant radiativement avec leurs ions moléculaires parents. Ainsi, le rayonnement harmonique émis lors de la recombinaison permet d'encoder l'information structurale sur le ou les orbitales impliquées avec une résolution spatiale de l'ordre l'Angström et temporelle femtoseconde ou attoseconde. La génération d'harmonique peut être utilisée comme signal de sonde dans des expériences de spectroscopie pompe-sonde résolue en temps. Ces expériences de spectroscopie harmoniques permettent d'étudier la structure des orbitales et les dynamiques moléculaires ultra-rapides. L'objectif de cette thèse est d'utiliser le processus de la GHOE, pour sonder les processus fondamentaux qui interviennent dans les atomes, les molécules et la matière condensée. Tout d'abord, pour comprendre comment extraire des informations dynamiques ou structurelles sur les orbitales à partir du signal harmonique nous avons étudié un système simple et connu: l'argon. Une nouvelle approche théorique développée par Fabre et Pons a permis de reproduire fidèlement l'expérience. Nous avons continué à étudier la structure et la dynamique moléculaire dans N2 et CO2. Les molécules issues d'un jet supersonique Even-Lavie qui permettait d'obtenir des températures rotationelles de moins de 10K ont été alignées par laser avec un fort degré d'alignement. Ce type de jet permet d'améliorer la sensibilité à la structure des orbitales impliquées et d'identifier la contribution de plusieurs orbitales. Ensuite nous avons utilisé la sensibilité de la génération des harmoniques d'ordre élevé à la structure des orbitales moléculaires pour sonder la dynamique complexe du NO2 excité autour d'une intersection conique. Nous avons appliqué la méthode du réseau d'excitation transitoire qui permet d'améliorer la sensibilité aux molécules excitées. Nous avons donc mené une étude dans les agrégats. A l'aide d'une étude différentielle en température et d'une méthode de cartographie spectrale et spatiale, nous avons pu isoler la contibution des grands agrégats. Notre analyse suggère un nouveau mécanisme de génération par des agrégats et permet même une estimation de la longeur de corrélation des électrons dans les agrégats. Ce manuscrit se termine avec la présentation d'une ligne de lumière XUV. Cette technique consiste à utiliser le rayonnement XUV fs produit par la GHOE comme impulsion sonde pour ioniser des fragments de dissociation moléculaire à l'aide d'une transition à un photon. / Since the first observation of high-order harmonic spectra in gases, high harmonic generation (HHG) has demonstrated its importance, opening a door to the field of attosecond sience. The bandwidth of the emitted spectrum reaches up to the XUV. The attosecond pules reach a very high time resolution, allowing the study of electron dynamics in atoms or molecules. The generation mechanism of HHG is based on the oscillation of the attosecond electron wavepacket emitted by the atoms/molecules, accelerated by the laser field. The electron wavepacket finally recombines radiatively with its parent ion. Thus the structural information of the probed orbital is encoded in the high harmonic spectrum with a spatial resolution of one Angtröm and a temporal resolution of few femtoseconds. HHG can be used as a probe signal resolved for pump-probe spectroscopy. High harmonic spectroscopy allows the study of the orbital structure and ultra-fast molecular dynamics.In this thesis the fundamental mechanisms playing a role in atoms, molecules and condensed matter are probed using HHG. In order to understand how to extract dynamical and structural information of orbitals from a harmonic signal, we have studied an easy and well known systems: the argon atom. A new theoretical approach developped by Fabre and Pons allowed us to reproduce the experimental results in good agreement. We continued with a study of the molecular structure and dynamics of N2 and CO2. A supersonic Even-Lavie jet permitted to reach rotational temperatures lower than 10K with an excellent alignment distribution. Owing to the good alignment in such gas jet, we were able to resolve the orbital structure with a higher sensitivity and to identify the contribution of several orbitals. In the next step we used the sensitivity of HHG towards the structure of molecular orbitals in order to probe the complex dynamics of NO2 in the vicinity of a conical intersection. We applied HHG combined with transient grating spectroscopy which leads to a higher sensitivity of the excited molecules. We then continued with studying cluster. We were able to disentangle the contribution of large clusters to the harmonic signal due to a 2D spatio-spectral representation of a temperature dependent differential measurement. Our analysis suggests a new generation mechanism in clusters and allows an estimation of the electron correlation length in clusters. This thesis ends with the presentation of a XUV beamline. This technique uses the emitted fs-XUV radiation, provided by HHG, as a probe pulse for ionizing the photofragments by a one photon transition. Spectroscopie harmonique Interaction laser-matière Alignement moléculaire Jet supersonique Dynamique moléculaire Intersection conique Impulsions attosecondes Spectroscopie XUV-fs High-order harmonic generation High harmonic spectroscopy Laser-matter interaction Atomic, molecular and cluster physics Molecular alignment Supersonic gas jet Molecular dynamics Conical intersection Attosecond pulses Fs-XUV spectroscopy
160	Conception et réalisation d'antennes intégrables en mâture pour les plateformes navales : applications aux communications V/UHF et à un radar de navigation à balayage électronique en bande X / Design and manufacturing of antennas for integrated mast : application to a communication antenna in V/UHF band and an electrical beam scanning antenna in X-band Clauzier, Sébastien 03 October 2013 (has links) En raison des conflits maritimes qui s'étendent (piraterie, embargo,...), les besoins de communiquer et de détecter les menaces sont de plus en plus importants. Ceci conduit irrémédiablement à l'augmentation du nombre d'aériens à bord des plateformes navales. Afin de gérer au mieux cet accroissement du nombre d'antennes, qui conduit à des effets de couplage et à une augmentation de la signature radar du navire, les principales entreprises du secteur ont mis en place des structures de mâts intégrés. C'est dans un contexte d'amélioration de leur mâture intégrée compacte (Cmast™) que les Constructions Mécaniques de Normandie (CMN) de Cherbourg en collaboration avec l'IETR de Rennes et INEO Défense ont proposé cette thèse. Ces travaux ont pour objectifs le développement de deux systèmes antennaires intégrables au sein de cette mâture intégrée compacte : une antenne de communication en bande V/UHF et une antenne de radar de navigation à balayage électronique en bande X. Une première étude a permis le développement d'une antenne conique large bande (225-400MHz) dont les paramètres géométriques ont été optimisés pour assurer une communication entre les navires et des aéronefs. Un prototype de cette antenne a été réalisé et a permis une validation expérimentale de ses performances. Une seconde étude a permis le développement d'une antenne d'un radar de navigation à balayage électronique en bande X. Cette antenne est basée sur une technologie transmit-array comprenant une source illuminante et un réseau permettant la formation du diagramme. Un effort particulier a été porté sur la source illuminante qui doit éclairer, à des distances très courtes (<550mm), un réseau qui présente des dimensions particulières (1530mmx100mm). Plusieurs sources utilisant un principe de focalisation en zone champ proche ont été développées et validées expérimentalement. Enfin deux architectures d'antennes transmit-array ont été étudiées, utilisant respectivement une technologie imprimée et une technologie en guide. Le fonctionnement de l'antenne complète (source illuminante + réseau transmit-array) a été étudié théoriquement. / The need to communicate and detect potential enemies increases with the extension of maritime conflicts. This need impacts directly the number of antennas on naval platforms. However, this increase of aerials leads to several damaging effects: like coupling or high radar signature. To limit this effect, some companies have developed integrated mast design. This structure limits the coupling effect between aerials by a subdivision of the mast and provides an omnidirectional coverage for all antennas inserted inside the mast. The objective of the thesis is to design two antenna systems for the compact integrated mast (CmastTM) developed by the Constructions Mécanique de Normandie (CMN): a communication antenna in the V/UHF band and an electronically scanning antenna for a maritime navigation radar in X-band. For the communication in the V/UHF band, a broadband conical antenna has been developed (225-400MHz). This antenna provides an optimized radiation pattern to insure the communications between the ship and the aircrafts. An experimental validation has been done with a prototype. In the second study, we have developed an electronically scanning antenna for a navigation radar. This antenna is based on a transmit-array technology including an illuminating feed and an antenna which generates the appropriate radiation pattern. A large part of the study has been done on the feed, which illuminates an array with specific dimensions (1530mmx100mm). Three different near-field focusing feeds have been developed and some of them have been validated experimentally. Then, two architectures of transmit-array antennas have been studied, using two different technologies: printed technology and a mixed technology with waveguide and horn. Mâture intégrée compacte Antenne conique Radar de navigation en bande X Antenne à balayage électronique Antenne à focalisation champ-proche Antenne transmit-array Guide d’onde Compact integrated mast Conical antenna X-band navigation radar Electronically scanning antenna Near-field focused antenna Transmit-array antenna Waveguide

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