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161	Modélisation de la Physique Atomique et du Transfert Radiatif pour le laser X-UV Robillart, Bruno 29 October 2010 (has links) (PDF) Les sources X-UV sont l'objet d'un développement important depuis une dizaine d'années. Dans cette gamme spectrale, nous sommes maintenant capables de produire des sources cohérentes, collimatées et de forte brillance. De telles sources ont des applications dans l'imagerie médicale, la photolithographie, ou encore le diagnostic de plasmas denses... Cette thèse a été consacrée à la modélisation du laser X-UV "OFI", source X-UV étudiée au LOA (ENSTA, Palaiseau). Ce type de laser X-UV est généré suite à l'ionisation d'un gaz (Kr, Xe) par un laser infrarouge de forte puissance. Le plasma créé par cette interaction constitue la source X-UV. Le travail produit au cours de la thèse a porté sur l'amplification d'un signal X-UV injecté dans ce plasma. L'objectif était d'obtenir une analyse plus détaillée du profil spatio-temporel du signal. Un nouveau code numérique 3D a alors été élaboré. Il utilise un modèle de transfert radiatif décrit par les équations de Maxwell-Bloch. Les résultats du code ont d'une part montré que le profil temporel du signal X-UV changeait considérablement au cours de l'amplification. Notamment il peut, à forte saturation, révéler des pics d'intensité de très courte durée (<100fs). La forte saturation ne pouvant être obtenue qu'avec un plasma de plusieurs centimètres de long, ceci nous amène à considérer avec intérêt les expériences utilisant le guidage du laser infrarouge, permettant la création de tels plasmas. D'autre part, l'analyse de la structure du profil transverse du signal X-UV en sortie calculé à partir de ce même code, nous a permis de mettre en évidence que le plasma amplifi cateur agissait comme un filtre spatial sur l'impulsion X-UV injectée. Laser X-UV Maxwell-Bloch oscillations de Rabi plasmas OFI
162	Modélisation et simulation numérique multi-échelle du transport cinétique électronique Duclous, Roland 24 November 2009 (has links) Ce manuscrit est dédié au transport relativiste cinétique sous influence de champs magnétiques, identifié comme obstacle pour la modélisation et la simulation intégrée, dans le cadre de la Fusion par Confinement Inertiel (FCI). Une réalisation importante concerne le développement d'un code déterministe de référence, 2Dx-3Dv, de type Maxwell-Fokker-Planck-Landau, permettant la prise en compte de fonctions de distribution à large degré d'anisotropie. Ce travail se situe à l'interface de l'analyse numérique, des mathématiques appliquées, et de la physique des plasmas. Un deuxième résultat marquant concerne la dérivation d'un modèle collisionel multi-échelle, pour le transport d'électrons relativistes dans la matière dense. Des processus importants sont mis en évidence pour la FCI, et une analogie est menée vis-à-vis des processus de transport collisionels connus en radiothérapie. Enfin, un modèle mésoscopique aux moments angulaires, avec fermeture entropique, a été dérivé et utilisé pour le dépôt de dose pour la radiothérapie. Des schémas numériques précis, d'ordre élevé, et robustes, ont été développé dans ce cadre. / This manuscript is dedicated to the relativistic kinetic transport, under the influence of the magnetic field, identified as a barrier for the modeling and integrated simulations, in the frame of the Inertial Confinement Fusion (ICF). An important achievement concerns the development of a deterministic, reference code, 2Dx-3Dv, of Maxwell-Fokker-Planck-Landau type, that permits the treatment of distribution functions with large anisotropy degree. This work is at the interface between the numerical analysis, applied mathematics, and plasma physics. Another milestone result concerns the derivation of a multi-scale, collisional model, for the transport of relativistic electrons in dense matter. A set of processes is demonstrated to be of importance for ICF, and an analogy is conducted with respect to well-known collisional transport processes in radiotherapy. Finally, a mesoscopic angular moment model, with entropic closure, is derived and employed for radiotherapy dose computation. High order precise and robust numerical schemes are then developed in this framework. FCI Radiothérapie Transport électronique Maxwell Fokker-Planck-Landau Relativiste Boltzmann Moment angulaire Déterministe
163	Accuracy of Wave Speeds Computed from the DPG and HDG Methods for Electromagnetic and Acoustic Waves Olivares, Nicole Michelle 20 May 2016 (has links) We study two finite element methods for solving time-harmonic electromagnetic and acoustic problems: the discontinuous Petrov-Galerkin (DPG) method and the hybrid discontinuous Galerkin (HDG) method. The DPG method for the Helmholtz equation is studied using a test space normed by a modified graph norm. The modification scales one of the terms in the graph norm by an arbitrary positive scaling parameter. We find that, as the parameter approaches zero, better results are obtained, under some circumstances. A dispersion analysis on the multiple interacting stencils that form the DPG method shows that the discrete wavenumbers of the method are complex, explaining the numerically observed artificial dissipation in the computed wave approximations. Since the DPG method is a nonstandard least-squares Galerkin method, its performance is compared with a standard least-squares method having a similar stencil. We study the HDG method for complex wavenumber cases and show how the HDG stabilization parameter must be chosen in relation to the wavenumber. We show that the commonly chosen HDG stabilization parameter values can give rise to singular systems for some complex wavenumbers. However, this failure is remedied if the real part of the stabilization parameter has the opposite sign of the imaginary part of the wavenumber. For real wavenumbers, results from a dispersion analysis for the Helmholtz case are presented. An asymptotic expansion of the dispersion relation, as the number of mesh elements per wave increase, reveal values of the stabilization parameter that asymptotically minimize the HDG wavenumber errors. Finally, a dispersion analysis of the mixed hybrid Raviart-Thomas method shows that its wavenumber errors are an order smaller than those of the HDG method. We conclude by presenting some contributions to the development of software tools for using the DPG method and their application to a terahertz photonic structure. We attempt to simulate field enhancements recently observed in a novel arrangement of annular nanogaps. Galerkin methods Helmholtz equation Maxwell equations Applied Mathematics
164	A comparison of design techniques for gradient-index thin film optical filters 08 August 2012 (has links) M.Ing. / This work comprises the implementation and comparison of five design techniques for the design of gradient-index thin film optical filters: classical rugate, inverse Fourier transform, a wavelet-based design procedure, as well as the flip-flop and the genetic optimization techniques. Designs for a high-reflectance filter, a beamsplitter, a discrete level filter, a distributed filter, and an anti-reflection coating were used to compare the various filter synthesis techniques. The optical thickness of the various examples was maintained below 30 and the refractive index excursion limits were between 1.5 and 3.2. The overall performance of a specific design was evaluated by a weighted merit function. The classical rugate filter uses a sinusoidal refractive index modulation that produces a single reflection band. More complex filters are realized by linear superposition of these elementary profiles. Sidelobe and ripple suppression are obtained by applying quintic windowing functions to the refractive index profile and adding matching layers at the edges of the filter. This filter design procedure has the best figure of merit of 3.73 for the discrete level filter, and the second best of 3.09 for the high-reflectance filter. The inverse Fourier transform links the refractive index profile and reflection spectrum of an optical filter by an approximate relation. It is self-correcting and iterative in nature. It produces filters with the highest optical density. The procedure excels in the design of the distributed filter with a figure of merit of 4.17. Mortlett's wavelet is used as the basis of the wavelet design technique. A single wavelet yields a single reflection band, similar to the classical rugate filter. Sidelobe suppression is an inherent property of the method, but matching layers are needed for passband ripple suppression. The optical density of the high reflection filter is larger for a filter designed with this method than for the equivalent classical rugate filter. The figure of merit of 1.75 for the high-reflectance filter is the best for any of the designs. Flip-flop refinement is a brute force approach to filter design. The layers of a starting design are flipped between two values of refractive index, the change in figure of merit evaluated and the best case saved. This process is repeated for a fixed number of iterations. It is computationally intensive and lacks ripple suppression characteristics. The flip-flop method does not compare well with any of the other techniques. It yields filters with the worst figures of merit for most of the design examples. However, it was applied successfully to the anti-reflection coating. The peak ripple for the anti-reflection filter in the 400 nm to 1100 nm wavelength band is 9.62 % compared to the inverse Fourier transform's 57.30 %. The genetic algorithm operates on the principle of "survival of the fittest". It is a stochastic procedure and yields quasi-random refractive index profiles. It excels with the antireflection coating. The peak ripple in the passband of the anti-reflection coating is 3.29%. The figure of merit for the anti-reflection coating designed with the genetic algorithm is 2.09. Thin film devices Thin films - Optical properties Fiber optics Fourier transformations Maxwell equations Wavelets (Mathematics)
165	[en] NUMERICAL ANALYSIS OF ELECTROMAGNETIC WELL-LOGGING TOOLS BY USING FINITE VOLUME METHODS / [pt] ANÁLISE NUMÉRICA DE SENSORES ELETROMAGNÉTICOS DE PROSPECÇÃO PETROLÍFERA UTILIZANDO O MÉTODO DOS VOLUMES FINITOS MARCELA SILVA NOVO 25 March 2008 (has links) [pt] O objetivo principal deste trabalho é o desenvolvimento de modelos computacionais para analisar a resposta eletromagnética de ferramentas de perfilagem LWD/MWD em formações geofísicas arbitrárias. Essa modelagem envolve a determinação precisa de campos eletromagnéticos em regiões tridimensionais (3D) complexas e, conseqüentemente, a solução de sistemas lineares não-hermitianos de larga escala. A modelagem numérica é realizada através da aplicação do método dos volumes finitos (FVM) no domínio da freqüência. Desenvolvem-se dois modelos computacionais, o primeiro válido em regiões isotrópicas e o segundo considerando a presença de anisotropias no meio. As equações de Maxwell são resolvidas através de duas formulações distintas: formulação por campos e formulação por potenciais vetor e escalar. A discretização por volumes finitos utiliza um esquema de grades entrelaçadas em coordenadas cilíndricas para evitar erros de aproximação de escada da geometria da ferramenta. Os modelos desenvolvidos incorporam quatro técnicas numéricas para aumentar a eficiência computacional e a precisão do método. As formulações por campos e por potenciais vetor e escalar são comparadas em termos da taxa de convergência e do tempo de processamento em cenários tridimensionais. Os modelos foram validados e testados em cenários tridimensionais complexos, tais como: (i) poços horizontais ou direcionais; (ii) formações não homogêneas com invasões de fluído de perfuração; (iii) formações anisotrópicas e (iv) poços excêntricos. Motivado pela flexibilidade dos modelos e pelos resultados numéricos obtidos em diferentes cenários tridimensionais, estende-se a metodologia para analisar a resposta de ferramentas LWD que empregam antenas inclinadas em relação ao eixo da ferramenta. Tais ferramentas podem prover dados com sensibilidade azimutal, assim como estimativas da anisotropia da formação, auxiliando o geodirecionamento de poços direcionais e horizontais. / [en] The main objective of this work is to develop computational models to analyze electromagnetic logging-while-drilling tool response in arbitrary geophysical formations. This modeling requires the determination of electromagnetic fields in three- dimensional (3-D) complex regions and consequently, the solution of large scale non-hermitian systems. The numerical modeling is done by using Finite Volume Methods (FVM) in the frequency domain. Both isotropic and anisotropic models are developed. Maxwell's equations are solved by using both the field formulation and the coupled vector-scalar potentials formulation. The proposed FVM technique utilizes an edge-based staggered-grid scheme in cylindrical coordinates to avoid staircasing errors on the tool geometry. Four numerical techniques are incorporated in the models in order to increase the computational efficiency and the accuracy of the method. The field formulation and the coupled vector-scalar potentials formulation are compared in terms of their accuracy, convergence rate, and CPU time for three-dimensional environments. The models were validated and tested in 3-D complex environments, such as:(i) horizontal and directional boreholes; (ii) multilayered geophysical formations including mud-filtrate invasions; (iii) anisotropic formations and (iv)eccentric boreholes. The methodology is extended to analyze LWD tools that are constructed with the transmitters and/or receivers tilted with respect to the axis of the drill collar. Such tools can provide improved anisotropy measurements and azimuthal sensitivity to benefit geosteering. [pt] DECOMPOSICAO DE HELMHOLTZ [en] HELMHOLTZ DECOMPOSITION [pt] ELETROMAGNETISMO COMPUTACIONAL [en] COMPUTATIONAL ELECTROMAGNETICS [pt] EQUACOES DE MAXWELL
166	Radicalism at sea: literary pirates in Emmanuel Appadocca to The Scar Unknown Date (has links) This thesis explores radicalism at work in M. Maxwell Philip's Emmanuel Appadocca (1854) and China Miâeville's The Scar (2002). These novels highlight piracy as a means of rejecting systems of power and social order. Through speculative fiction, each author finds the means to resist the hegemonic power of genre, race, empire, and knowledge that pervade each author's social and historical milieu. This work examines the historical and literary context of piracy as a metaphor for radicalism, the project of legitimization and resistance to generic categorization of both texts. Emmanuel Appadocca resists racial stereotypes, and both texts exhibit clear resistance to colonial expansion. This resistance is made possible by each author's use of the sea as the site of insurgency and challenging boundaries of knowledge. Thus both novels lend themselves to interpretation as works of postcolonial fiction. / by Elizabeth Kelly. / Thesis (M.A.)--Florida Atlantic University, 2008. / Includes bibliography. / Electronic reproduction. Boca Raton, Fla., 2008. Mode of access: World Wide Web. Pirates in literature Radicalism in literature
167	Décomposition de domaine pour la simulation Full-Wave dans un plasma froid / Domain decomposition for full-wave simulation in cold plasma Hattori, Takashi 25 June 2014 (has links) De nos jours, les centrales nucléaires produisent de l'énergie par des réactions de fission (division d'un noyau atomique lourd en plusieurs noyaux atomiques légers et neutrons). Une alternative serait d'utiliser plutôt la réaction de fusion de noyaux légers de deutérium et de tritium, isotopes de l'hydrogène. Toutefois, cette technique reste encore du domaine de la recherche en physique des plasmas. Les expériences effectuées dans ce domaine ont révélé que les réacteurs à configuration magnétique toroïdale, dite tokamak, sont les plus efficaces. Un mélange gazeux d'isotopes de l'hydrogène appelé plasma est confiné grâce à un champ magnétique produit par des bobines. Ce plasma doit être chauffé à une température très élevée afin que les réactions de fusion aboutissent. De même, un courant intense doit être maintenu dans le plasma afin d'obtenir une configuration magnétique qui permet de le confiner. Une des méthodes les plus attrayantes parmi les techniques connues pour générer du courant est basée sur l'injection d'ondes électromagnétiques dans le plasma à la fréquence proche de la résonance hybride. Cette méthode offre la possibilité de contrôler le profil de densité dans le plasma. Une analyse de type Full-Wave permet alors de modéliser la propagation et l'absorption de l'onde hybride à partir des équations de Maxwell. Le but de cette thèse est de développer une méthode numérique pour cette simulation Full-Wave. Le chapitre 2 présente les équations de propagation d'ondes en mettant en évidence les caractères physiques du plasma. Une approche variationnelle de type mixte augmentée est développée et une analyse mathématique de cette dernière est effectuée dans le chapitre 3. Dans le contexte de la géométrie d'un tokamak, le problème Full-Wave dépendant de trois paramètres peut être réduit en une série de problèmes à deux variables à l'aide de la transformation de Fourier, ce sera l'objet du chapitre 4. Dans le chapitre 5, la formulation variationnelle obtenue à partir du problème mode par mode est discrétisée en utilisant des éléments finis nodaux de type Taylor-Hood. Le chapitre 6 concerne les méthodes de résolution du système linéaire après discrétisation. À l'aide de différents diagnostics physiques présentés dans le chapitre 7, des résultats de la simulation Full-Wave obtenues à partir d'un code MATLAB sont présentées dans le chapitre 8. Enfin, dans le but de développer une version parallèle de la simulation, le chapitre 9 est consacré à une méthode de décomposition de domaine sans recouvrement associé au système Full-Wave. / In order to generate current in tokamak, we look at plasma heating by electromagnetic waves at the lower hybrid (LH) frequency. For this type of description, one use a ray tracing code but we consider a full-wave one, where dielectric properties are local.Our aim is to develop a finite element numerical method for the full-wave modeling and to apply a domain decomposition method. In this thesis, we have developped a finite element method in a cross section of the tokamak for Maxwell equations solving the time harmonic electric field and a nonoverlapping domain decom- position method for the mixed augmented variational formulation by taking continuity accross the interfaces as constraints Simulation Full-Wave Équations de Maxwell Méthode numérique Transformation de Fourier Méthodes des éléments finis Plasmas froids 518.25 515.723
168	Geração de um jato metálico neutro por ablação a laser Juliana Barranco de Matos 16 August 2012 (has links) Estudos experimentais foram realizados visando a geração de um jato metálico de átomos neutros por ablação a laser em alvos de cobre. Para estudar a composição da pluma gerada por ablação e para estudar o processo de remoção da fração carregada eletricamente da pluma, foi utilizado um dispositivo constituído por um par de eletrodos de extração de íons e por um sensor de pressão de PVDF. O sensor de PVDF responde à pressão das partículas em sua superfície, enquanto o potencial aplicado aos eletrodos extrai os íons da pluma. A dependência da fluência do laser na razão entre as populações dos íons e átomos neutros na região entre 20 a 32 J/cm2 foi investigada e utilizaram-se valores de tensão de extração de até 800 V. Neste intervalo dos parâmetros de estudo, o percentual de átomos neutros varia entre 30 - 8% da população total da pluma. O ajuste de uma função de distribuição Maxwelliana de velocidades foi realizado ao sinal do sensor de PVDF para inferir os parâmetros de velocidade de deriva, que variou de 3,4 a 4,6 km/s e, através do modelo hidrodinâmico encontrado na literatura para o tratamento da expansão da pluma, foi possível obter os valores de temperatura translacional da pluma variando entre 8 e 14×104 K. Constatou-se a existência de um mecanismo interno de aceleração das partículas da pluma, atribuído à formação de camada dupla, que por sua vez gera um potencial acelerador interno. Foi inferido, pela diferença entre a velocidade de deriva e a velocidade térmica, que este potencial acelerador é da ordem de 3 V, mesmo quando não há tensão aplicada aos eletrodos. Foi verificado que a pluma gerada por ablação a laser na condição experimental deste trabalho encontra-se no regime em transição, que para baixas fluências apresenta um comportamento de partícula livre, e em fluências mais altas é possível observar um comportamento de plasma. Pelos resultados obtidos, foi confirmada a geração de um jato metálico neutro que poderá ser utilizado em experimentos de separação isotópica usando lasers. Ablação Jatos de plasma Plasmas (Física) Aplicações de laser Óptica Física
169	Numerical studies of some stochastic partial differential equations. / CUHK electronic theses & dissertations collection January 2008 (has links) In this thesis, we consider four different stochastic partial differential equations. Firstly, we study stochastic Helmholtz equation driven by an additive white noise, in a bounded convex domain with smooth boundary of Rd (d = 2, 3). And then with the help of the perfectly matched layers technique, we also consider the stochastic scattering problem of Helmholtz type. The second part of this thesis is to investigate the time harmonic case for stochastic Maxwell's equations driven by an color noise in a simple medium, and then we expand the results to the stochastic Maxwell's equations in case of dispersive media in Rd (d = 2, 3). Thirdly, we study stochastic parabolic partial differential equation driven by space-time color noise, where the domain O is a bounded domain in R2 with boundary ∂O of class C2+alpha for 0 < alpha < 1/2. In the last part, we discuss the stochastic wave equation (SWE) driven by nonlinear noise in 1D case, where the noise 626x6t W(x, t) is the space-time mixed second-order derivative of the Brownian sheet. / Many physical and engineering phenomena are modeled by partial differential equations which often contain some levels of uncertainty. The advantage of modeling using so-called stochastic partial differential equations (SPDEs) is that SPDEs are able to more fully capture interesting phenomena; it also means that the corresponding numerical analysis of the model will require new tools to model the systems, produce the solutions, and analyze the information stored within the solutions. / One of the goals of this thesis is to derive error estimates for numerical solutions of the above four kinds SPDEs. The difficulty in the error analysis in finite element methods and general numerical approximations for a SPDE is the lack of regularity of its solution. To overcome such a difficulty, we follow the approach of [4] by first discretizing the noise and then applying standard finite element methods and discontinuous Galerkin methods to the stochastic Helmholtz equation and Maxwell equations with discretized noise; standard finite element method to the stochastic parabolic equation with discretized color noise; Galerkin method to the stochastic wave equation with discretized white noise, and we obtain error estimates are comparable to the error estimates of finite difference schemes. / We shall focus on some SPDEs where randomness only affects the right-hand sides of the equations. To solve the four types of SPDEs using, for example, the Monte Carlo method, one needs many solvers for the deterministic problem with multiple right-hand sides. We present several efficient deterministic solvers such as flexible CG method and block flexible GMRES method, which are absolutely essential in computing statistical quantities. / Zhang, Kai. / Adviser: Zou Jun. / Source: Dissertation Abstracts International, Volume: 70-06, Section: B, page: 3552. / Thesis (Ph.D.)--Chinese University of Hong Kong, 2008. / Includes bibliographical references (leaves 144-155). / Electronic reproduction. Hong Kong : Chinese University of Hong Kong, [2012] System requirements: Adobe Acrobat Reader. Available via World Wide Web. / Electronic reproduction. [Ann Arbor, MI] : ProQuest Information and Learning, [200-] System requirements: Adobe Acrobat Reader. Available via World Wide Web. / Abstracts in English and Chinese. / School code: 1307. Differential equations, Parabolic Helmholtz equation Maxwell equations Wave equation
170	Nonlinear Wave Equations and Solitary Wave Solutions in Mathematical Physics Caldwell, Trevor 31 May 2012 (has links) In this report, we study various nonlinear wave equations arising in mathematical physics and investigate the existence of solutions to these equations using variational methods. In particular, we look for particle-like traveling wave solutions known as solitary waves. This study is motivated by the prevalence of solitary waves in applications and the rich mathematical structure of the nonlinear wave equations from which they arise. We focus on a semilinear perturbation of Maxwell's equations and the nonlinear Klein - Gordon equation coupled with Maxwell's equations. Physical ramifications of these equations are also discussed. 35Q61 Maxwell equations 35Q51 Soliton-like equations

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