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Kooperationskompetenz im dynamischen Wettbewerb : eine Analyse im Kontext der Automobilindustrie /Zobolski, André January 2008 (has links)
Zugl.: Potsdam, Universiẗat, Diss., 2008.
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Die New-governance-Ansätze in der europäischen Wirtschaftspolitik am Beispiel der EnergiepolitikSanden, Joachim January 2009 (has links)
Zugl.: Osnabrück, Univ., Diss., 2009
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Governance der Schieneninfrastruktur institutionenökonomische Analyse, konzeptionelle Vorschläge für ein effektives Governance-System und kritische Würdigung der Bahnreform in DeutschlandSchnöbel, Christian R. January 2009 (has links)
Zugl.: Giessen, Univ., Diss., 2009
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Institutions, property rights and external effects : new institutional economics and the economics of John R. Commons /Stettler, Michael January 1999 (has links) (PDF)
Diss. Wirtschaftswiss. Zürich. / Literaturverz.
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Ansatz de Bethe algébrico com fronteiras triangularesPimenta, Rodrigo Alves 26 May 2014 (has links)
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Previous issue date: 2014-05-26 / Universidade Federal de Minas Gerais / In this work we study vertex models with non-diagonal boundaries, characterized by reection matrices with an upper triangular form. By means of an extension of the algebraic Bethe ansatz, we construct generalized Bethe states as well as the respective eigenvalues for two classes of models: six and nineteen vertex models. As usual, in both cases the exact solution is given in terms of the Bethe equations. / Neste trabalho estudamos modelos de vértices com fronteiras não-diagonais, caracterizadas por matrizes de reflexão com estrutura triangular. Por meio de uma extensão do ansatz de Bethe algébrico usual, construímos estados de Bethe generalizados e os respectivos autovalores para duas classes de modelos: seis e dezenove vértices. Como usual, em ambos os casos a solução exata é dada em termos das equações de Bethe.
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Modelos de vértices exatamente integráveis / Exactly solved vertex modelAnderson Augusto Ferreira 16 March 2005 (has links)
Nesta dissertação, mostramos as primeiras aplicações do recém criado Anstz do Produto Matricial [8] na solução exata das matrizes de transferência associadas a modelos de vértices. A integrabilidade dos modelos é obtida diagonalizando-se a matriz de transferência diagonal-para-diagonal. Foram estudados duas classes de modelos. Na primeira delas introduzimos novos modelos de vértices, que denominamos de modelos de 5 vértices interagentes. Nestes modelos os vértices além das interações usuais de vizinhos próximos, dadas pela regra do gelo, possuem também interações de natureza repulsiva ao longo da diagonal. O famoso modelo de 6 vértices é obtido num limite particular deste novo modelo. O espectro da matriz de transferência, analogamente ao que acontece no ansatz de Bethe tradicional é dado em termos de solução de equações não lineares. Um estudo analítico e numérico destas equações foi feito para o modelo de 6 vértices que está contido nesta primeira classes de modelos. Tais resultados, juntamente com as idéias de invariância conforme, nos permitiram estudar o modelo em seu regime crítico. A segunda classe de modelos que estudamos foram os modelos de 10 vértices que satisfazem às regras do gelo. Obtivemos todos os possíveis modelos exatamente integráveis desta classe, reobtendo resultados da literatura bem como novos resultados. / In this dissertation we present the first application of a recent introduces Matrix Product Ansatz [8], in the exact solution of the transfer matrices associated to vertex models. The exact integrability is obtained through the diagonalization of the diagonal-to-diagonal transfer matrix. We studied two classes of models. In the first one we introduced new vertex models, that we call as interacting 5 vertex models. On these models beyond the nearest-neighbor interactions among the vertices, imposed by the ice rule, they also have repulsive interactions along the diagonal. The famous 6-vertex model is just a special case this class of models. The eigenspectrum of this transfer matrix, analogously as in the traditional Bethe ansatz, is obtained in terms of the roots of nonlinear equation. An analytical and numerical study of these equations we done on the first class. These results together with the machinery coming from conformal invariance allow us the study the model on its critical region. The second class of models we considered were the 10 vertex models that satisfy ice rules we obtained all the possible exact integrable models on this class, rederiving earlier results on the literature as were producing new ones.
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ON THE GAUDIN AND XXX MODELS ASSOCIATED TO LIE SUPERALGEBRASChenliang Huang (9115211) 28 July 2020 (has links)
We describe a reproduction procedure which, given a solution of the gl(m|n) Gaudin Bethe ansatz equation associated to a tensor product of polynomial modules, produces a family P of other solutions called the population. <br>To a population we associate a rational pseudodifferential operator R and a superspace W of rational functions. <br><br>We show that if at least one module is typical then the population P is canonically identified with the set of minimal factorizations of R and with the space of full superflags in W. We conjecture that the singular eigenvectors (up to rescaling) of all gl(m|n) Gaudin Hamiltonians are in a bijective correspondence with certain superspaces of rational functions.<br><br>We establish a duality of the non-periodic Gaudin model associated with superalgebra gl(m|n) and the non-periodic Gaudin model associated with algebra gl(k).<br><br>The Hamiltonians of the Gaudin models are given by expansions of a Berezinian of an (m+n) by (m+n) matrix in the case of gl(m|n) <br>and of a column determinant of a k by k matrix in the case of gl(k). We obtain our results by proving Capelli type identities for both cases and comparing the results.<br><br>We study solutions of the Bethe ansatz equations of the non-homogeneous periodic XXX model associated to super Yangian Y(gl(m|n)).<br>To a solution we associate a rational difference operator D and a superspace of rational functions W. We show that the set of complete factorizations of D is in canonical bijection with the variety of superflags in W and that each generic superflag defines a solution of the Bethe ansatz equation. We also give the analogous statements for the quasi-periodic supersymmetric spin chains.<br>
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The multi Davydov-Ansatz: Apoptosis of moving Gaussian basis functions with applications to open quantum system dynamicsWerther, Michael 09 October 2020 (has links)
We utilize the multi Davydov-Ansatz, an Ansatz of the bosonic many-body wave function in terms of moving Gaussian basis functions, to illuminate several aspects of open quantum system dynamics and quantum many-body theory.
By two artifices alongside the time-dependent variational principle we extract from this Ansatz, commonly considered ill-behaved and not converging, a highly stable and converging method. Its extremely favourable scaling of the numerical effort with the number of degrees of freedom facilitates exploration of the zero and non-zero temperature physics of both system and environment of open quantum systems in the strong coupling regime, even in cases where the system is laser-driven.
The discovery that strongly coupling a system to an environment may, apart from the introduction of dissipation and decoherence also serve as a resource for the system has fuelled the research on strongly correlated open quantum systems. Although the advent of ultra powerful data processors enables advanced methods to tackle these systems, their explicit treatment without further assumptions remains an eminently challenging task. With the multi Davydov-Ansatz we numerically exactly calculate the dynamics of various open systems coupled strongly to an environment. In particular, we illuminate diverse aspects of laser-driven molecular dynamics in dissipative environments.
Based on a rigorous investigation of the time-dependent variational principle for moving Gaussian basis functions, we systematically develop a linear algebra formulation of the system of equations of motion for the Ansatz parameters. On its basis we precisely isolate the origin of the issues related to the multi Davydov-Ansatz and solve the long-standing convergence problem of the method by a regularization termed apoptosis. We show exemplary for the ohmic and sub-ohmic Spin-Boson model that apoptosis renders the multi Davydov-Ansatz a highly stable method with an outstanding speed of convergence, suited to numerically exactly reproduce the dynamics of the model at surprisingly humble numerical effort even for strong coupling strengths.
Furthermore, since they are not suited to efficiently reproduce Fock number states in many-body systems, we shed some light on possible extensions of the Gaussian basis functions in the multi Davydov-Ansatz in terms of displaced number states and in terms of squeezed states. In particular we argue that due to the emergence of an inappropriate number of equations of motion, there is no straightforward generalization of the multi Davydov-Ansatz by displaced number states.
For the purpose of further optimization of the multi Davydov-Ansatz, we investigate in detail the impact on the numerical effort of different representations of an open system's environment. In particular, different frequency discretizations for given continuous spectral densities are examined with respect to the speed of convergence of the system dynamics to the continuum limit. We utilize a Windowed Fourier Transform as an a priori measure for the quality of the discretized representation of bath correlations. Furthermore, efficient representations of the environment for shifted initial conditions in general and non-zero temperature in particular are found systematically.
As an alternative representation of an environment of mutually uncoupled harmonic oscillators, we investigate an environment represented in terms of a linear chain of effective modes. In this context we detail how to consistently reformulate the effective mode representation in second quantization, removing inadvertent double excitations introduced by the original formulation. We show that the alternative representation is beneficial in cases where the bath spectral density is highly structured, while for the ohmic and sub-ohmic spectral density of the Spin-Boson model it is of no advantage.
Once we have identified the numerically most efficient representation of the environment, we apply the multi Davydov-Ansatz in order to illuminate several aspects of open quantum system dynamics whose investigation has previously remained occlusive. In particular, the access to the exact dynamics of the environmental degrees of freedom allows to shed light on the question for the channels through which energy can be interchanged between system and environment in the considered systems.
Firstly, in a system-bath setup we survey the vibrational relaxation dynamics of deuterium dimers at a silicon surface. The investigation of the relaxation dynamics requires the quantum mechanical treatment of multiple system levels, which in turn prohibits a treatment of the environmental dynamics on a perturbative level. We demonstrate that the multi Davydov-Ansatz allows for a numerically exact calculation of the system dynamics with multiple system levels and a huge number of surface vibrations explicitly taken into account. Furthermore, due to the structure of the spectral density of the environment, the effective mode representation allows for this system to dramatically reduce the numerical effort.
Secondly we shall investigate in detail the relaxation dynamics of an exciton in a one-dimensional molecular crystal. Since the strong coupling regime renders highly complicated the phonon dynamics, apoptosis turns out to be inevitably required in order to reliably converge the system dynamics. We show that the multi Davydov-Ansatz equipped with apoptosis allows for an extremely efficient calculation of the exciton and phonon dynamics, for both large hopping integrals and large molecular crystals.
Furthermore we illuminate diverse aspects of laser-driven molecular dynamics in a dissipative environment. By restriction to two electronic energy levels we determine the channels through which system and environment interchange energy in the vicinity of an avoided crossing in a dissipative Landau-Zener model. In particular, we reveal that the final transition probability can be tuned by coupling to the environment for both diagonal and off-diagonal coupling. By appropriately adjusting the initial excitation of the system, the final transition probability is shown to converge to a fixed value for increasing coupling.
Finally, we investigate in detail laser-induced population transfer by rapid adiabatic passage in a dissipative environment. By application of the multi Davydov-Ansatz it is shown for zero as well as for non-zero temperature that strongly coupling the system to an environment can serve as a resource for the population inversion. In particular, we shall examine how the coupling to the environment compensates for the decay channels in the system even if the laser pulse is only weakly chirped.:1. Introduction
2. Prerequisites
2.1. Harmonic oscillator basics
2.2. Canonical coherent states of the harmonic oscillator
2.3. Overcompleteness of CS and the Segal-Bargmann transformation
2.4. Density operator representation in terms of CS
2.5. Ideal squeezed states
2.6. Displaced number states
2.7. On the variational principle
3. Real time propagation with CS
3.1. Variational principle with CS
3.1.1. Gauge freedom in the vMCG Ansatz
3.1.2. Equations of motion for the vMCG Ansatz
3.2. Standard form of the linear system
3.3. Regularity of the coefficient matrix
3.3.1. Regularization in the case of vanishing coefficients
3.3.2. Apoptosis of CS
3.4. The route to Semiclassics
3.5. Variational principle with DNS and squeezed states
3.6. The multi Davydov-Ansatz
3.7. The multi Davydov-Ansatz at non-zero temperature
4. Open Quantum Systems
4.1. System-Bath Hamiltonian
4.2. The road to classical dissipation
4.3. The impact of apoptosis and regularization of the 𝜌-matrix
4.3.1. Multi Davydov-Ansatz for the Quantum Rabi model
4.3.2. Multi Davydov-Ansatz and the Spin-Boson model
4.3.2.1. Spin-Boson model in the ohmic regime
4.3.2.2. Spin-Boson model in the sub-ohmic regime
4.4. The Windowed Fourier Transform
4.5. The sub-ohmic case and the problem of oversampling
4.5.1. On the polarized initial condition
4.5.2. On the treatment of non-zero temperature
4.6. The Effective Mode Representation
5. Applications
5.1. Vibrational relaxation dynamics at surfaces
5.2. Relaxation dynamics of the Holstein polaron
5.3. The dissipative Landau Zener Model
5.3.1. Coupling to a single environmental mode
5.3.2. Coupling to multiple environmental modes
5.4. Rapid Adiabatic Passage with a dissipative environment
6. Summary And Outlook
List of abbreviations
Appendix
A. Closure relation of displaced number states
B. Hamilton equations: classical vs. CCS for a Morse oscillator
C. Equations of motion for the multi Davydov-Ansatz
C.1. D2-Ansatz
C.2. D1-Ansatz
D. Details of implementation
E. Calculation of the BCF
F. Calculation of the polarized initial condition for 𝑇 = 0
Bibliography
List of publications
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Brünings Wirtschaftspolitik : Maßnahmen - Handlungsspielräume - Alternativen ; eine Retrospektive zur Borchardt-Kontroverse: Maßnahmen - Handlungsspielräume - Alternativen: Eine Retrospektive zur Borchardt-KontroverseBartsch, Matthias, Eismann, Henryk 14 January 2006 (has links)
No description available.
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Generische Kausalität und historische Kontingenz: Histonomische AnalyseMüller, Marie 21 January 2006 (has links)
No description available.
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