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An extension of the quantum theory of scattering to the non-asymptotic regime using Bohmian trajectories /Stenson, Jared R., January 1900 (has links)
Thesis (Ph. D.)--Oregon State University, 2010. / Printout. Includes bibliographical references (leaves 126-129). Also available on the World Wide Web.
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Stimulated Raman scattering in atomic ensembles : toward quantum state entanglement /Ji, Wenhai, January 2007 (has links)
Thesis (Ph. D.)--University of Oregon, 2007. / Typescript. Includes vita and abstract. Includes bibliographical references (leaves 251-264). Also available for download via the World Wide Web; free to University of Oregon users.
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Studium časového vývoje metastabilních stavů v kvantové mechanice / Study of time evolution of metastable states in quantum mechanicsGedeonová, 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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An application of the theory of moments to Euclidean relativistic quantum mechanical scatteringAiello, Gordon J. 15 December 2017 (has links)
One recipe for mathematically formulating a relativistic quantum mechanical scattering theory utilizes a two-Hilbert space approach, denoted by $\mathcal{H}$ and $\mathcal{H}_{0}$, upon each of which a unitary representation of the Poincaré Lie group is given. Physically speaking, $\mathcal{H}$ models a complicated interacting system of particles one wishes to understand, and $\mathcal{H}_{0}$ an associated simpler (i.e., free/noninteracting) structure one uses to construct 'asymptotic boundary conditions" on so-called scattering states in $\mathcal{H}$. Simply put, $\mathcal{H}_{0}$ is an attempted idealization of $\mathcal{H}$ one hopes to realize in the large time limits $t\rightarrow\pm\infty$.
The above considerations lead to the study of the existence of strong limits of operators of the form $e^{iHt}Je^{-iH_{0}t}$, where $H$ and $H_{0}$ are self-adjoint generators of the time translation subgroup of the unitary representations of the Poincaré group on $\mathcal{H}$ and $\mathcal{H}_{0}$, and $J$ is a contrived mapping from $\mathcal{H}_{0}$ into $\mathcal{H}$ that provides the internal structure of the scattering asymptotes.
The existence of said limits in the context of Euclidean quantum theories (satisfying precepts known as the Osterwalder-Schrader axioms) depends on the choice of $J$ and leads to a marvelous connection between this formalism and a beautiful area of classical mathematical analysis known as the Stieltjes moment problem, which concerns the relationship between numerical sequences $\{\mu_{n}\}_{n=0}^{\infty}$ and the existence/uniqueness of measures $\alpha(x)$ on the half-line satisfying
\begin{equation*}
\mu_{n}=\int_{0}^{\infty}x^{n}d\alpha(x).
\end{equation*}
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Klasická a kvantová chaotická dynamika v reaktivním rozptylu atomů a molekul. / Classical and quantum chaotic dynamics in reactive scattering of atoms and molecules.Trnka, Jiří January 2018 (has links)
The thesis deals with quantum reaction dynamics of three-particle systems. The thesis summarizes main theoretical results about three-body problem in quantum mechanics. A simple two dimensional model of three-particle system corresponding to atom-diatom collision was studied as a part of this thesis. The model allows for vibrational excitation and reaction processes. Solution based on distorted-wave method and Schwinger variational principle is proposed to solve the model. Proposed method of solution is then applied to a system of three coupled Morse potential energy surfaces. Probabilities of possible proces- ses depending on energy of incoming particle were calculated using the proposed method of solution for two variants of coupled Morse PESs. 1
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Studium kvantové reakční dynamiky semiklasickou metodou. / Investigation of quantum reaction dynamics using semiclassical method.Táborský, Jiří January 2016 (has links)
In the presented thesis we study quantum reaction dynamics of H2O- using semiclassical method. Using ab initio quantum potential evaluated on a fine grid we derive analytical formula for potential energy surface, which is used for solving classical equations of motion. A reaction path is analyzed using contour plots with a focus on a saddle point area. Reaction dynamics analysis is focused on properties of interaction probability and cross section depending on impact parameter, collision energy and initial vibrational state of interacting molecule. Final results are compared with experimental data.
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Espalhamento quântico unidimensional via mecânica quântica supersimétrica / UNIDIMENSIONAL QUANTUM SCATTERING SUPERSIMMETRIC QUANTIC MECHANICSSoares, Camila Correia 03 March 2017 (has links)
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Previous issue date: 2017-03-03 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES) / Fundação de Amparo à Pesquisa e ao Desenvolvimento Científico e Tecnológico do Maranhão (FAPEMA) / In this work, we study the formalism of the supersimmetric quantum mechanics (SUSY
QM) starting with hamiltonian fatorization method of the bosonic harmonic oscillator
(BHO) by means of ladders operators and we extended to hamiltonian of oscillators
in general, inclusive of the fermionic harmonic oscillator (FHO), with their respective
properties. We show that the SUSY QM for bound states, connect hamiltonians, potentials,
and eigenvalues energy of different systems which are called supersymmetric partners.
In the case scattering states, we notice that SUSY QM applies only in shape invariant
potentials (SIPs). Despite this restriction, the SIPs are commonly used in literature by
its wide applicability as in particles physics as in condensed matter. Therefore, we study
the scattering states to the problem of massive relativistic fermions under the influence
of modified Pöschl-Teller potential (PT), which is shape invariant. We calculate the
transmission (T) and reflection (R) coefficients, just knowing the superpotential, which
was carried out in a simple and elegant form. Thus, the study of the quantum scattering
via SUSY QM becomes a powerful tool in the calculations of T and R. / Neste trabalho, estudamos o formalismo da mecânica quântica supersimétrica (MQS)
partindo do método de fatoração do hamiltoniano do oscilador harmônico bosônico (OHB)
por meio dos operadores escada e estendemos para o hamiltoniano de osciladores em geral,
inclusive o oscilador harmônico fermiônico (OHF), com suas respectivas propriedades.
Mostramos que a MQS, para estados ligados, associa hamiltonianos, potenciais e autovalores
de energia de sistemas diferentes, que são denominados parceiros supersimétricos. No caso
dos estados de espalhamento, observamos que a MQS aplica-se somente em potenciais
invariantes de forma (PIFs). Apesar desta restrição, os PIFs são comumente utilizados na
literatura, por sua larga aplicabilidade tanto na física de partículas quanto na matéria
condensada. Sendo assim, estudamos os estados de espalhamento para o problema dos
férmions relativísticos com massa sob influência do potencial de Pöschl-Teller modificado
(PT), que é invariante de forma. Calculamos os coeficientes de transmissão (T) e reflexão
(R), conhecendo apenas seu superpotencial, o que foi realizado de uma forma simples
e elegante. Desse modo, o estudo do espalhamento quântico via MQS torna-se, uma
ferramenta poderosa nos cálculos de T e R.
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Electronic, Spin and Valley Transport in Two Dimensional Dirac SystemsJanuary 2017 (has links)
abstract: This dissertation aims to study and understand relevant issues related to the electronic, spin and valley transport in two-dimensional Dirac systems for different given physical settings. In summary, four key findings are achieved.
First, studying persistent currents in confined chaotic Dirac fermion systems with a ring geometry and an applied Aharonov-Bohm flux, unusual whispering-gallery modes with edge-dependent currents and spin polarization are identified. They can survive for highly asymmetric rings that host fully developed classical chaos. By sustaining robust persistent currents, these modes can be utilized to form a robust relativistic quantum two-level system.
Second, the quantized topological edge states in confined massive Dirac fermion systems exhibiting a remarkable reverse Stark effect in response to an applied electric field, and an electrically or optically controllable spin switching behavior are uncovered.
Third, novel wave scattering and transport in Dirac-like pseudospin-1 systems are reported. (a), for small scatterer size, a surprising revival resonant scattering with a peculiar boundary trapping by forming unusual vortices is uncovered. Intriguingly, it can persist in arbitrarily weak scatterer strength regime, which underlies a superscattering behavior beyond the conventional scenario. (b), for larger size, a perfect caustic phenomenon arises as a manifestation of the super-Klein tunneling effect. (c), in the far-field, an unexpected isotropic transport emerges at low energies.
Fourth, a geometric valley Hall effect (gVHE) originated from fractional singular Berry flux is revealed. It is shown that gVHE possesses a nonlinear dependence on the Berry flux with asymmetrical resonance features and can be considerably enhanced by electrically controllable resonant valley skew scattering. With the gVHE, efficient valley filtering can arise and these phenomena are robust against thermal fluctuations and disorder averaging. / Dissertation/Thesis / Doctoral Dissertation Electrical Engineering 2017
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Reduced dimensionality quantum dynamics of chemical reactionsRemmert, Sarah M. January 2011 (has links)
In this thesis a reduced dimensionality quantum scattering model is applied to the study of polyatomic reactions of type X + CH4 <--> XH + CH3. Two dimensional quantum scattering of the symmetric hydrogen exchange reaction CH3+CH4 <--> CH4+CH3 is performed on an 18-parameter double-Morse analytical function derived from ab initio calculations at the CCSD(T)/cc-pVTZ//MP2/cc-pVTZ level of theory. Spectator mode motion is approximately treated via inclusion of curvilinear or rectilinear projected zero-point energies in the potential surface. The close-coupled equations are solved using R-matrix propagation. The state-to-state probabilities and integral and differential cross sections show the reaction to be primarily vibrationally adiabatic and backwards scattered. Quantum properties such as heavy-light-heavy oscillating reactivity and resonance features significantly influence the reaction dynamics. Deuterium substitution at the primary site is the dominant kinetic isotope effect. Thermal rate constants are in excellent agreement with experiment. The method is also applied to the study of electronically nonadiabatic transitions in the CH3 + HCl <--> CH4 + Cl(2PJ) reaction. Electrovibrational basis sets are used to construct the close-coupled equations, which are solved via Rmatrix propagation using a system of three potential energy surfaces coupled by spin-orbit interaction. Ground and excited electronic surfaces are developed using a 29-parameter double-Morse function with ab initio data at the CCSD(T)/ccpV( Q+d)Z-dk//MP2/cc-pV(T+d)Z-dk level of theory, and with basis set extrapolated data, both corrected via curvilinear projected spectator zero-point energies. Coupling surfaces are developed by fitting MCSCF/cc-pV(T+d)Z-dk ab initio spin orbit constants to 8-parameter functions. Scattering calculations are performed for the ground adiabatic and coupled surface models, and reaction probabilities, thermal rate constants and integral and differential cross sections are presented. Thermal rate constants on the basis set extrapolated surface are in excellent agreement with experiment. Characterisation of electronically nonadiabatic nonreactive and reactive transitions indicate the close correlation between vibrational excitation and nonadiabatic transition. A model for comparing the nonadiabatic cross section branching ratio to experiment is discussed.
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