Pluripolar Sets and Pluripolar Hulls

Edlund, Tomas

January 2005

<p>For many questions of complex analysis of several variables classical potential theory does not provide suitable tools and is replaced by pluripotential theory. The latter got many important applications within complex analysis and related fields. Pluripolar sets play a special role in pluripotential theory. These are the exceptional sets this theory. Complete pluripolar sets are especially important. In the thesis we study complete pluripolar sets and pluripolar hulls. We show that in some sense there are many complete pluripolar sets. We show that on each closed subset of the complex plane there is continuous function whose graph is complete pluripolar. On the other hand we study the propagation of pluripolar sets, equivalently we study pluripolar hulls. We relate the pluripolar hull of a graph to fine analytic continuation of the function. Fine analytic continuation of an analytic function over the unit disk is related to the fine topology introduced by Cartan and to the previously known notion of finely analytic functions. We show that fine analytic continuation implies non-triviality of the pluripolar hull. Concerning the inverse direction, we show that the projection of the pluripolar hull is finely open. The difficulty to judge from non-triviality of the pluripolar hull about fine analytic continuation lies in possible multi-sheetedness. If however the pluripolar hull contains the graph of a smooth extension of the function over a fine neighborhood of a boundary point we indeed obtain fine analytic continuation.</p>

Mathematical analysis

plurisubharmonic functions

pluripolar set

complete pluripolar set

pluripolar hull

fine topology

finely analytic function

fine analytic continuation

Matematisk analys

Mathematical analysis

Analys

Pluripolar Sets and Pluripolar Hulls

Edlund, Tomas

January 2005

For many questions of complex analysis of several variables classical potential theory does not provide suitable tools and is replaced by pluripotential theory. The latter got many important applications within complex analysis and related fields. Pluripolar sets play a special role in pluripotential theory. These are the exceptional sets this theory. Complete pluripolar sets are especially important. In the thesis we study complete pluripolar sets and pluripolar hulls. We show that in some sense there are many complete pluripolar sets. We show that on each closed subset of the complex plane there is continuous function whose graph is complete pluripolar. On the other hand we study the propagation of pluripolar sets, equivalently we study pluripolar hulls. We relate the pluripolar hull of a graph to fine analytic continuation of the function. Fine analytic continuation of an analytic function over the unit disk is related to the fine topology introduced by Cartan and to the previously known notion of finely analytic functions. We show that fine analytic continuation implies non-triviality of the pluripolar hull. Concerning the inverse direction, we show that the projection of the pluripolar hull is finely open. The difficulty to judge from non-triviality of the pluripolar hull about fine analytic continuation lies in possible multi-sheetedness. If however the pluripolar hull contains the graph of a smooth extension of the function over a fine neighborhood of a boundary point we indeed obtain fine analytic continuation.

Mathematical analysis

plurisubharmonic functions

pluripolar set

complete pluripolar set

pluripolar hull

fine topology

finely analytic function

fine analytic continuation

Matematisk analys

Mathematical analysis

Analys

Exploration of a Scalable Holomorphic Embedding Method Formulation for Power System Analysis Applications

January 2017

abstract: The holomorphic embedding method (HEM) applied to the power-flow problem (HEPF) has been used in the past to obtain the voltages and flows for power systems. The incentives for using this method over the traditional Newton-Raphson based nu-merical methods lie in the claim that the method is theoretically guaranteed to converge to the operable solution, if one exists. In this report, HEPF will be used for two power system analysis purposes: a. Estimating the saddle-node bifurcation point (SNBP) of a system b. Developing reduced-order network equivalents for distribution systems. Typically, the continuation power flow (CPF) is used to estimate the SNBP of a system, which involves solving multiple power-flow problems. One of the advantages of HEPF is that the solution is obtained as an analytical expression of the embedding parameter, and using this property, three of the proposed HEPF-based methods can es-timate the SNBP of a given power system without solving multiple power-flow prob-lems (if generator VAr limits are ignored). If VAr limits are considered, the mathemat-ical representation of the power-flow problem changes and thus an iterative process would have to be performed in order to estimate the SNBP of the system. This would typically still require fewer power-flow problems to be solved than CPF in order to estimate the SNBP. Another proposed application is to develop reduced order network equivalents for radial distribution networks that retain the nonlinearities of the eliminated portion of the network and hence remain more accurate than traditional Ward-type reductions (which linearize about the given operating point) when the operating condition changes. Different ways of accelerating the convergence of the power series obtained as a part of HEPF, are explored and it is shown that the eta method is the most efficient of all methods tested. The local-measurement-based methods of estimating the SNBP are studied. Non-linear Thévenin-like networks as well as multi-bus networks are built using model data to estimate the SNBP and it is shown that the structure of these networks can be made arbitrary by appropriately modifying the nonlinear current injections, which can sim-plify the process of building such networks from measurements. / Dissertation/Thesis / Doctoral Dissertation Electrical Engineering 2017

Electrical engineering

Analytic continuation

Holomorphically embedded power flow

Nonlinear network reduction

Saddle-node bifurcation point

Steady-state voltage stability

Conformal Invariance and Liouville Field Theory / Invariância Conforme e Teoria de Campo de Liouville

Díaz, Laura Raquel Rado

01 June 2015

In this work, we make a brief review of the Conformal Field Theory in two dimensions,in order to understand some basic definitions in the study of the Liouville Field Theory, which has many application in theoretical physics like string theory, general relativity and supersymmetric gauge field theories. In particular, we focus on the analytic continuation of the Liouville Field Theory, context in which an interesting relation with the Chern-Simons Theory arises as an extension of its well-known relation with the Wess-Zumino-Witten model. Thus, calculating correlation functions by using the complex solutions of the Liouville Theory will be crucial aim in this work in order to test the consistency of this analytic continuation. We will consider as an application the time-like version of the Liouville Theory, which has several applications in holographic quantum cosmology and in studying tachyon condensates. Finally, we calculate the three-point function for the Wess-Zumino-Witten model for the standard Kac-Moody level k > 2 and the particular case 0 < k < 2, the latter has an interpretation in time-dependent scenarios for string theory. Here we will find an analogue relation we find by comparing the correlation function of the time-like and space-like Liouville Field Theory. / Neste trabalho, nós fazemos uma breve revisão da Teoria de Campo Conforme em duas dimensões, a fim de entender algumas denições básicas do estudo da Teoria de Campo de Liouville, que tem muitas aplicações em física teórica como a teoria das cordas, a relatividade geral e teorias de campo de calibre supersimétricas. Em particular, vamos nos concentrar sobre a continuação analítica da Teoria de Campo de Liouville, contexto no qual uma interessante relação com a Teoria de Chern-Simons surge como uma extensão de sua relação conhecida com o modelo de Wess-Zumino-Witten. Assim, o cálculo das funções de correlação usando as soluções complexas da Teoria Liouville será o objectivo fundamental neste trabalho, a fim de testar a consistência da continuação analítica. Vamos considerar como uma aplicação a versão time-like da Teoria de Liouville, que tem várias aplicações em cosmologia quântica holográfica e no estudo de condensados de tachyon. Finalmente, calculamos a função de três pontos para o modelo de Wess-Zumino-Witten no nível de Kac-Moody k > 2 e o caso particular 0 < k < 2, este último tem uma interpretação em cenários dependentes do tempo para a teoria das cordas. Aqui nós vamos encontrar uma relação análoga ao que temos para a função de correlação do space-like e time-like na Teoria de Campo de Liouville.

Analytic Continuation

Conformal Field Theory

Liouville Field Theory

Modelo de Wess-Zumino-Witten.

Teoria de Campo Conforme

Teoria de Campo de Liouville

Time-like Liouville Theory

Wess-Zumino-Witten model.

Conditional stability estimates for ill-posed PDE problems by using interpolation

Tautenhahn, Ulrich, Hämarik, Uno, Hofmann, Bernd, Shao, Yuanyuan

06 September 2011

The focus of this paper is on conditional stability estimates for ill-posed inverse problems in partial differential equations. Conditional stability estimates have been obtained in the literature by a couple different methods. In this paper we propose a method called interpolation method, which is based on interpolation in variable Hilbert scales. We are going to work out the theoretical background of this method and show that optimal conditional stability estimates are obtained. The capability of our method is illustrated by a comprehensive collection of different inverse and ill-posed PDE problems containing elliptic and parabolic problems, one source problem and the problem of analytic continuation.

Inkorrekt gestellte Probleme

Ill-posed problems

inverse problems

conditional stability estimates

interpolation

elliptic problems

parabolic problems

source problems

analytic continuation

ddc:515

Inverses Problem

Inkorrekt gestelltes Problem

Lineare partielle Differentialgleichung

Conformal Invariance and Liouville Field Theory / Invariância Conforme e Teoria de Campo de Liouville

Laura Raquel Rado Díaz

01 June 2015

In this work, we make a brief review of the Conformal Field Theory in two dimensions,in order to understand some basic definitions in the study of the Liouville Field Theory, which has many application in theoretical physics like string theory, general relativity and supersymmetric gauge field theories. In particular, we focus on the analytic continuation of the Liouville Field Theory, context in which an interesting relation with the Chern-Simons Theory arises as an extension of its well-known relation with the Wess-Zumino-Witten model. Thus, calculating correlation functions by using the complex solutions of the Liouville Theory will be crucial aim in this work in order to test the consistency of this analytic continuation. We will consider as an application the time-like version of the Liouville Theory, which has several applications in holographic quantum cosmology and in studying tachyon condensates. Finally, we calculate the three-point function for the Wess-Zumino-Witten model for the standard Kac-Moody level k > 2 and the particular case 0 < k < 2, the latter has an interpretation in time-dependent scenarios for string theory. Here we will find an analogue relation we find by comparing the correlation function of the time-like and space-like Liouville Field Theory. / Neste trabalho, nós fazemos uma breve revisão da Teoria de Campo Conforme em duas dimensões, a fim de entender algumas denições básicas do estudo da Teoria de Campo de Liouville, que tem muitas aplicações em física teórica como a teoria das cordas, a relatividade geral e teorias de campo de calibre supersimétricas. Em particular, vamos nos concentrar sobre a continuação analítica da Teoria de Campo de Liouville, contexto no qual uma interessante relação com a Teoria de Chern-Simons surge como uma extensão de sua relação conhecida com o modelo de Wess-Zumino-Witten. Assim, o cálculo das funções de correlação usando as soluções complexas da Teoria Liouville será o objectivo fundamental neste trabalho, a fim de testar a consistência da continuação analítica. Vamos considerar como uma aplicação a versão time-like da Teoria de Liouville, que tem várias aplicações em cosmologia quântica holográfica e no estudo de condensados de tachyon. Finalmente, calculamos a função de três pontos para o modelo de Wess-Zumino-Witten no nível de Kac-Moody k > 2 e o caso particular 0 < k < 2, este último tem uma interpretação em cenários dependentes do tempo para a teoria das cordas. Aqui nós vamos encontrar uma relação análoga ao que temos para a função de correlação do space-like e time-like na Teoria de Campo de Liouville.

Modelo de Wess-Zumino-Witten.

Teoria de Campo Conforme

Teoria de Campo de Liouville

Analytic Continuation

Conformal Field Theory

Liouville Field Theory

Time-like Liouville Theory

Wess-Zumino-Witten model.

Conditional stability estimates for ill-posed PDE problems by using interpolation

Tautenhahn, Ulrich, Hämarik, Uno, Hofmann, Bernd, Shao, Yuanyuan

January 2011

The focus of this paper is on conditional stability estimates for ill-posed inverse problems in partial differential equations. Conditional stability estimates have been obtained in the literature by a couple different methods. In this paper we propose a method called interpolation method, which is based on interpolation in variable Hilbert scales. We are going to work out the theoretical background of this method and show that optimal conditional stability estimates are obtained. The capability of our method is illustrated by a comprehensive collection of different inverse and ill-posed PDE problems containing elliptic and parabolic problems, one source problem and the problem of analytic continuation.

info:eu-repo/classification/ddc/515

ddc:515

Inkorrekt gestellte Probleme

Quantum structure of holographic black holes / Kvantstruktur hos holografiska svarta hål

Riedel Gårding, Elias

January 2020

We study a free quantum scalar field in the BTZ spacetime as a model of the AdS/CFT correspondence for black holes, and show the essential steps in computing Bogolyubov coefficients between modes on either side of the wormhole. As background, we review the BTZ geometry in standard, Kruskal and Poincaré coordinates, holographic renormalisation of the dual field theory and canonical quantisation in curved spacetime. / Vi studerar ett fritt skalärt kvantfält i BTZ-rumtiden som en modell av AdS/CFT-dualiteten för svarta hål och visar huvudstegen i beräkningen av Bogolyubov-koefficienter mellan moder på olika sidor av maskhålet. Som bakgrund redogör vi för BTZ-geometrin i standard-, Kruskal- och Poincarékoordinater, holografisk renormering av den duala fältteorin och kanonisk kvantisering i krökt rumtid.

BTZ spacetime

black hole

wormhole

AdS/CFT

holographic renormalisation

analytic continuation

Bogolyubov transformation

QFT in curved spacetime

BTZ-rumtid

svart hål

maskhål

AdS/CFT

holografisk renormering

analytisk fortsättning

Bogolyubov-transformation

kvanfältsteori i krökt rumtid

Physical Sciences

Fysik

Quantum Phase Transitions in the Bose Hubbard Model and in a Bose-Fermi Mixture

Duchon, Eric Nicholas

January 2013

No description available.

Condensed Matter Physics

Bose Hubbard model

Bose Fermi mixture

Quantum phase transitions

Criticality

Superfluid

Mott insulator

Optical Lattice

Variational Monte Carlo

Diffusion Monte Carlo

Directed Loop algorithm

Analytic Continuation

Maximum entropy method

Theoretical methods for the electronic structure and magnetism of strongly correlated materials

Locht, Inka L. M.

January 2017

In this work we study the interesting physics of the rare earths, and the microscopic state after ultrafast magnetization dynamics in iron. Moreover, this work covers the development, examination and application of several methods used in solid state physics. The first and the last part are related to strongly correlated electrons. The second part is related to the field of ultrafast magnetization dynamics. In the first part we apply density functional theory plus dynamical mean field theory within the Hubbard I approximation to describe the interesting physics of the rare-earth metals. These elements are characterized by the localized nature of the 4f electrons and the itinerant character of the other valence electrons. We calculate a wide range of properties of the rare-earth metals and find a good correspondence with experimental data. We argue that this theory can be the basis of future investigations addressing rare-earth based materials in general. In the second part of this thesis we develop a model, based on statistical arguments, to predict the microscopic state after ultrafast magnetization dynamics in iron. We predict that the microscopic state after ultrafast demagnetization is qualitatively different from the state after ultrafast increase of magnetization. This prediction is supported by previously published spectra obtained in magneto-optical experiments. Our model makes it possible to compare the measured data to results that are calculated from microscopic properties. We also investigate the relation between the magnetic asymmetry and the magnetization. In the last part of this work we examine several methods of analytic continuation that are used in many-body physics to obtain physical quantities on real energies from either imaginary time or Matsubara frequency data. In particular, we improve the Padé approximant method of analytic continuation. We compare the reliability and performance of this and other methods for both one and two-particle Green's functions. We also investigate the advantages of implementing a method of analytic continuation based on stochastic sampling on a graphics processing unit (GPU).

dynamical mean field theory (DMFT)

Hubbard I approximation

strongly correlated systems

rare earths

lanthanides

photoemission spectra

ultrafast magnetization dynamics

analytic continuation

Padé approximant method

two-particle Green's functions

linear muffin tin orbitals (LMTO)

density functional theory (DFT)

cerium

stacking fault energy.