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11	Electron scattering by chiral and oriented molecules Smith, Ian M. January 1997 (has links) No description available. 539.7
12	Scattering Resonances for Polyhedral Obstacles Lippl, Martin 30 August 2016 (has links) No description available. 510 Scattering theory Singular analysis Obstacle scattering Mathematics (PPN61756535X)
13	Numerical solutions to some inverse problems Van, Cong Tuan Son January 1900 (has links) Doctor of Philosophy / Department of Mathematics / Alexander G. Ramm / In this dissertation, the author presents two independent researches on inverse problems: (1) creating materials in which heat propagates a long a line and (2) 3D inverse scattering problem with non-over-determined data. The theories of these methods were developed by Professor Alexander Ramm and are presented in Chapters 1 and 3. The algorithms and numerical results are taken from the papers of Professor Alexander Ramm and the author and are presented in Chapters 2 and 4. Heat transfer Inverse problems Scattering theory Non-over-determined scattering data
14	On point sources and near field measurements in inverse acoustic obstacle scattering Orispää, M. (Mikko) 16 November 2002 (has links) Abstract The dissertation considers an inverse acoustic obstacle scattering problem in which the incident field is generated by a point source and the measurements are made in the near field region. Three methods to solve the problem of reconstructing the support of an unknown sound-soft or sound-hard scatterer from the near field measurements are presented. Methods are modifications of Kirsch factorization and modified Kirsch factorization methods. Numerical examples are given to show the practicality of one of the methods. acoustic scattering theory inverse problems partial differential equations
15	Jost-matrix analysis of nuclear scattering data Vaandrager, Paul January 2020 (has links) The analysis of scattering data is usually done by fitting the S-matrix at real experimental energies. An analytic continuation to complex and negative energies must then be performed to locate possible resonances and bound states, which correspond to poles of the S-matrix. Difficulties in the analytic continuation arise since the S-matrix is energy dependent via the momentum, k and the Sommerfeld parameter, η, which makes it multi-valued. In order to circumvent these difficulties, in this work, the S-matrix is written in a semi-analytic form in terms of the Jost matrices, which can be given as a product of known functions dependent on k and η, and unknown functions that are entire and singled-valued in energy. The unknown functions are approximated by truncated Taylor series where the expansion coefficients serve as the data-fitting parameters. The proper analytic structure of the S-matrix is thus maintained. This method is successfully tested with data generated by a model scattering potential. It is then applied to α12C scattering, where resonances of 16O in the quantum states Jρ =0+, 1−, 2+, 3−, and 4+ are located. The parameters of these resonances are accurately determined, as well as the corresponding S-matrix residues and Asymptotic Normalisation Coefficients, relevant to astrophysics. The method is also applied to dα scattering to determine the bound and resonance state parameters, corresponding S-matrix residues and Asymptotic Normalisation Coefficients of 6Li in the 1+, 2+, 3+, 2−, and 3− states. / Thesis (PhD)--University of Pretoria, 2020. / National Research Foundation (NRF) / Physics / PhD / Unrestricted Quantum few-body physics Scattering theory Nuclear physics UCTD
16	Rotational polarisation effects in the inelastic collisions of NO(X) and Ar Hornung, Balázs January 2013 (has links) Rotational polarisation effects have been investigated in the rotationally inelastic collisions of NO(X) and Ar by means of theoretical and experimental methods. Rotational polarisation describes the correlation between the <strong>k</strong>–<strong>k'</strong>–<strong>j'</strong> vectors, that is the initial and final relative velocities of the colliding partners and the final rotational angular momentum of the diatom, respectively. The simplest types of polarisation are the rotational orientation, or preferred sense of rotation, and the rotational alignment, or preferred plane of rotation. They are quantised by the renormalised polarisation dependent differential cross sections (PDDCSs) In this thesis the theoretical methods included exact quantum mechanical, quasi- classical trajectory and Monte Carlo classical hard shell calculations. Various features of the interaction potential influence differently the polarisation dynamics. The effects of attraction and soft repulsion were elucidated employing a number of differently modified potentials. The rotational alignment is primarily determined by a classical impulsive, or hard shell mechanism at a collision energy of 66 meV. The attractive and soft repulsive forces only perturb this underlying mechanism. On the other hand, the parity dependent oscillations of the open shell alignment moments are due to differences between the quantum mechanical differential cross sections. It has been shown the bigger the well depth compared to the collision energy, the less applicable becomes the classical hard shell model to describe rotational alignment. The quantum mechanical rotational alignment in the collisions of hard shells was also calculated. The classical and quantum mechanical hard shell models predict different rotational alignment. Nevertheless, the classical alignment is a good approximation to the exact quantum mechanical results. The rotational orientation is much more sensitive to the details of the interaction potential. It does not exist in the classical description of hard shell collisions, if the system exhibits certain symmetry properties. The attraction and finite range repulsion break this symmetry and leads to the molecule having a preferred sense of rotation. In general there is non-vanishing rotational orientation in the collisions of a hard shell in the framework of quantum mechanics. This is due to the finite spatial and temporal interaction of the colliding partners. Quantum mechanical interference effects also play an important role in this phenomenon. The rotational alignment was experimentally determined in the collisions of NO(X) and Ar at collision energy of 66meV with a hexapole state selective ion-imaging apparatus. An algorithm was developed based on the Fourier moment analysis to extract rotational polarisation information from the experimental ion images. It is fast and robust and can also be of used to simulate experimental images. This algorithm was used to retrieve the experimental renormalised PDDCSs ion images. The measurements confirmed that a classical, impulsive dynamics is mainly responsible for the rotational alignment in these collisions. 539.754
17	Non-commutative quantum mechanics : properties of piecewise constant potentials in two dimensions Thom, Jacobus D. (Jacobus Daniel) 12 1900 (has links) Thesis (PhD (Physics))--University of Stellenbosch, 2010. / ENGLISH ABSTRACT: The aim of this thesis is threefold. Firstly, I give an overview of non-commutative quan- tum mechanics and build up a description of non-commutative piecewise constant poten- tial wells in this context. Secondly, I look at some of the stationary properties of a finite non-commutative well using the mathematical tools laid out in the first part. Lastly, I in- vestigate how non-commutativity affects the tunneling rate through a barrier. Throughout this work I give the normal commutative descriptions and results for comparsion. / AFRIKAANSE OPSOMMING: Die doel van hierdie tesis is drievoudig. Eerstens gee ek ’n oorsig van niekommutatiewe kwantummeganika en bou daarmee ’n beskrywing van niekommutatiewe deelswyskon- stante potensiaal putte op. Tweedens kyk ek na ’n paar van die stasionˆere eienskappe van ’n eindige niekommutatiewe potensiaal put deur die wiskunde te gebruik wat in die eerste deel uiteengesit is. Laastens ondersoek ek hoe niekommutatiwiteit die spoed van tonneling deur ’n potensiaal wal be¨ınvloed. Dwarsdeur die hierdie hele tesis gee ek die normale kommutatiewe beskrywings en resultate vir maklike vergelyking. Scattering theory Quantum field theory Dissertations -- Physics Theses -- Physics Non-commutative quantum mechanics Piecewise constant potentials
18	Sur la théorie de la diffusion pour l'équation de Dirac massive en espace-temps Schwarzschild-Anti-de Sitter / On scattering theory for the massive Dirac equation in Schwarzschild-Anti-de Sitter space-time and applications Idelon-Riton, Guillaume 06 July 2016 (has links) Développer une théorie de la diffusion dépendante du temps pour l'équation de Dirac massive en espace-temps Schwarzschil-Anti-de Sitter puis étudier la théorie des résonances pour ce système. En fonction des difficultés rencontrées, on pourra généraliser au cas de Kerr-Anti-de Sitter. On va essayer également de donner une description mathématique rigoureuse de l'effet Hawking soit dans le cadre de Schwarzschil-Anti-de Sitter, soit dans le cadre de Kerr-Anti-de Sitter / Develop a time dependent scattering theory for the massive Dirac equation on Schwarzshild-Anti-de Sitter spacetime then study resonances for this system. Depending on difficulties encountered, we could generalize this to Kerr-Anti-de Sitter. We'll try to give a precise mathematically rigorous description of the Hawking effect either in the the Schwarzschil-Anti-de Sitter or the Kerr-Anti-de Sitter setting Théorie de la diffusion Relativité générale Équation de Dirac Scattering theory General relativity Dirac equation 510
19	\"Evoluções discretas em sistemas quânticos com coordenadas não-comutativas\" / Discrete evolutions in quantum systems with noncommutative coordinates Martins, Andrey Gomes 11 August 2006 (has links) Estudamos a Mecânica Quântica não-relativística de sistemas físicos caracterizados pela presença de um grau de liberdade extra, que não comuta com a coordenada temporal. Na linguagem da Geometria Não-Comutativa, tratamos de sistemas descritos por uma álgebra da forma F(Q) X \"A IND.\"teta\"\"(R X \"S POT.1\"), onde F(Q) é a álgebra de funções sobre o espaço de configurações usual \"Q\" e \"A IND.\"teta\"\"(R X \"S POT.1\") é uma deformação de F(R X \"S POT.1\"), conhecida como cilindro não-comutativo. Do ponto de vista geométrico, os geradores do cilindro não-comutativo correspondem à coordenada temporal e a uma coordenada espacial (extra) compacta, em analogia com o caso das teorias do tipo Kaluza-Klein. Mostramos que, como resultado da não-comutatividade entre o tempo e a dimensão extra, a evolução temporal dos sistemas descritos por F(Q) X \"A_t(R X S 1) é discretizada. Ao desenvolver a teoria de espalhamento para sistemas definidos nesse espaço-tempo, verificamos o aparecimento de um efeito inexistente no caso usual: transições entre um estado \"in\" com energia \"E IND.\"alfa\"\" e um estado \"out\" com energia \"E IND.\"beta\"\" (diferente de \"E IND.\"alfa\"\") passam a ser possíveis. Mais especificamente, transições serão possíveis sempre que \"E IND.\"beta\" -\" E IND.\"alfa\" = 2\"pi\"/\"teta\"n, com n \'PERTENCE A\' aos inteiros. As conseqüências desse fato são investigadas de maneira qualitativa, no caso específico de uma barreira uni-dimensional do tipo delta. Essa análise é baseada na aproximação de Born para a matriz de transição / We study the nonrelativistic Quantum Mechanics of physical systems characterized F(Q) X \"A IND.\"teta\"\"(R X \"S POT.1\"), by the presence of an extra degree of freedom which does not commute with the time coordinate. In the language of Noncommutative Geometry, we deal with systems described by an algebra of the form F(Q) X \"A IND.\"teta\"\"(R X \"S POT.1\"),, where F(Q) is the algebra of functions over the usual con¯guration space \"Q\" e \"A IND.\"teta\"\"(R X\"S POT.1\") is a deformation of F(R X \"S POT.1\"), known as noncommutative cylinder. From a geometric viewpoint, the generators of the noncommutative cylinder correspond to the time coordinate and to an extra compact spatial coordinate, just like in Kaluza-Klein theories. We show that because of the noncommutativity between the time coordinate and the extra degree of freedom, the time evolution of systems described by F(Q) X \"A_t(R X S 1) is discretized. We develop the scattering theory for such systems, and verify the presence of a new e®ect: transitions from an in state with energy \"E IND.\"alfa\"\" and an out state with energy \"E IND.\"beta\"\" (diferente de \"E IND.\"alfa\"\") are now allowed, in contrast to the usual case. In fact, transitions take place whenever \"E IND.\"beta\" -\" E IND.\"alfa\" = 2\"pi\"/\"teta\"n,, with n \'PERTENCE A\'. The consequences of this result are investigated in the case of a one-dimensional delta barrier. Our analysis is based on the Born approximation for the transition matrix. Geometria não-comutativa Mecânica quantica Noncommutative geometry Quantum mechanics Scattering theory Teoria de espalhamento
20	Studium časového vývoje metastabilních stavů v kvantové mechanice / Study of time evolution of metastable states in quantum mechanics Gedeonová, Hedvika January 2019 (has links) In this thesis, the metastable states are studied. The work focuses on a theoretical model of one or two metastable states decaying into a continuum of states which is bounded from below. We examine the time evolution of such systems and how it is affected by the energy of the metastable state(s) and by the position of the poles of the scattering matrix in the complex plane. We also look closely at the spectral line shape. Numerical integration of a system of differential equations is used for solving the problem of the time evolution and spectral line shape while Freshbach-Fano projection operator formalism is used for finding the position of the poles. The results are compared with first order perturbation theory and with semi-analytical formula obtained from adiabatic elimination of the continuum. The last part of the thesis is dedicated to an application of the model on neon-helium-neon cluster. 1

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