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11	Estudo da quebra espontânea de simetria de calibre: mapas dinâmicos, ações complexas, teorias de campo em rede e (im)possibilidade / Study of the spontaneous breaking of gauge symmetry: dynamic maps, complex actions, lattice field theories and (im)possibility Santos, Pedro Alexandre dos [UNESP] 20 February 2017 (has links) Submitted by Pedro Alexandre dos Santos null (retiarus@gmail.com) on 2017-03-22T23:00:09Z No. of bitstreams: 1 dissertacao-versão-final-pedro.pdf: 1127822 bytes, checksum: 02edcd6c8cccc0fb68f13733a6af5f48 (MD5) / Approved for entry into archive by Luiz Galeffi (luizgaleffi@gmail.com) on 2017-03-23T14:34:41Z (GMT) No. of bitstreams: 1 santos_pa_me_guara.pdf: 1127822 bytes, checksum: 02edcd6c8cccc0fb68f13733a6af5f48 (MD5) / Made available in DSpace on 2017-03-23T14:34:41Z (GMT). No. of bitstreams: 1 santos_pa_me_guara.pdf: 1127822 bytes, checksum: 02edcd6c8cccc0fb68f13733a6af5f48 (MD5) Previous issue date: 2017-02-20 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES) / Neste trabalho, fez-se uma introdução aos mapas dinâmicos, um conjunto de técnicas desenvolvido por Mat- sumoto, Umezawa, entre outros colaboradores, e a prescrição i na formulação usual da teoria quântica de campos no contı́nuo para descrever quebra espontânea de simetria de calibre (QES). Esta técnica baseia-se na utilização de representações unitárias não equivalentes, para construir as diferentes fases fı́sicas observadas em sistemas que apresenta QES. Introduzido o mapa dinâmico, tentou-se adaptar esta coleção de técnicas junto da prescrição i em rede, obtendo como resultado que a primeira não é satisfatoriamente desenvolvida em redes finitas, entretanto no limite termodinâmico o resultado aparenta estar adequado. Então, visitou-se o Teorema de Elitzur para as descrições obtidas por esta ferramenta, isto é, tentou-se demonstrar o Teorema de Elitzur para modelos com termos complexos provenientes da prescrição i . Uma vez que este não forneceu as informações esperadas, aplicou-se outras discussões para investigar a possibilidade da quebra espontânea de simetria de calibre em rede. Neste texto, o ferramental adotado se baseou em uma discussão apresentada por Splittorff. / In this work, an introduction to dynamic maps, a set of techniques developed by Matsumoto, Umezawa, among other collaborators, and the iepsilon prescription in the usual formulation of the quantum field theory in the continuum to describe spontaneous breaking of gauge symmetry (QES). This technique is based on the use of non-equivalent unitary representations to construct the different physical phases observed in systems that apresented QES. Introduced dynamic map, it was started the adaptation fo this collection of techniques to- gether with the prescription i in lattice, obtaining as a result that the first one is not satisfactorily developed in finite lattice, however in the thermodynamic limit the apparent result is adequate. Then the Elitzur’s The- orem was visited for the descriptions obtained by this tool, that is, it was attempted to demonstrate Elitzur’s Theorem for models with complex terms from the prescription i . As soon as the latter did not provide the expected information, other discussions were conducted to investigate the possibility of spontaneous breaking of lattice gauge symmetry. In this text, the tooling adopted was based on a discussion presented by Splittorff. Teorias de calibre em rede Teorema de Elitzur Mapa dinâmico Lattice gauge theory Elitzur Theorem Dynamic maps
12	Renormalization group and phase transitions in spin, gauge, and QCD like theories Liu, Yuzhi 01 July 2013 (has links) In this thesis, we study several different renormalization group (RG) methods, including the conventional Wilson renormalization group, Monte Carlo renormalization group (MCRG), exact renormalization group (ERG, or sometimes called functional RG), and tensor renormalization group (TRG). We use the two dimensional nearest neighbor Ising model to introduce many conventional yet important concepts. We then generalize the model to Dyson's hierarchical model (HM), which has rich phase properties depending on the strength of the interaction. The partition function zeros (Fisher zeros) of the HM model in the complex temperature plane is calculated and their connection with the complex RG flows is discussed. The two lattice matching method is used to construct both the complex RG flows and calculate the discrete β functions. The motivation of calculating the discrete β functions for various HM models is to test the matching method and to show how physically relevant fixed points emerge from the complex domain. We notice that the critical exponents calculated from the HM depend on the blocking parameter b. This motivated us to analyze the connection between the discrete and continuous RG transformation. We demonstrate numerical calculations of the ERG equations. We discuss the relation between Litim and Wilson-Polchinski equation and the effect of the cut-off functions in the ERG calculation. We then apply methods developed in the spin models to more complicated and more physically relevant lattice gauge theories and lattice quantum chromodynamics (QCD) like theories. Finite size scaling (FSS) technique is used to analyze the Binder cumulant of the SU(2) lattice gauge model. We calculate the critical exponent nu and omega of the model and show that it is in the same universality class as the three dimensional Ising model. Motivated by the walking technicolor theory, we study the strongly coupled gauge theories with conformal or near conformal properties. We compare the distribution of Fisher zeros for lattice gauge models with four and twelve light fermion flavors. We also briefly discuss the scaling of the zeros and its connection with the infrared fixed point (IRFP) and the mass anomalous dimension. Conventional numerical simulations suffer from the critical slowing down at the critical region, which prevents one from simulating large system. In order to reach the continuum limit in the lattice gauge theories, one needs either large volume or clever extrapolations. TRG is a new computational method that may calculate exponentially large system and works well even at the critical region. We formulate the TRG blocking procedure for the two dimensional O(2) (or XY ) and O(3) spin models and discuss possible applications and generalizations of the method to other spin and lattice gauge models. We start the thesis with the introduction and historical background of the RG in general. Critical phenomena Hierarchical Model Lattice Gauge Theory Lattice QCD Phase transition Renormalization Group Physics
13	Lattice Simulations of the SU(2)-Multi-Higgs Phase Transition Wurtz, Mark Bryan 29 July 2009 The Higgs boson has an important role in the theoretical formulation of the standard model of fundamental interactions. Symmetry breaking of the vacuum via the Higgs field allows the gauge bosons of the weak interaction and all fermions to acquire mass in a way that preserves gauge-invariance, and thus renormalizablility. The Standard Model can accommodate an arbitrary number of Higgs fields with appropriate charge assignments. To explore the effects of multiple Higgs particles, the SU(2)-multi-Higgs model is studied using lattice simulations, a non-perturbative technique in which the fields are placed on a discrete space-time lattice. The formalism and methods of lattice field theory are discussed in detail. Standard results for the SU(2)-Higgs model are reproduced via Monte Carlo simulations, in particular the single-Higgs phase structure, which has a region of analytic connection between the symmetric and Higgs phases. The phase structure of the SU(2)-multi-Higgs model is explored for the case of N >= 2 identical Higgs fields. There is no remaining region of analytic connection between the phases, at least when interactions between different Higgs flavours are omitted. An explanation of this result in terms of enhancement from overlapping phase transitions is explored for N = 2 by introducing an asymmetry in the hopping parameters of the Higgs fields. monte carlo simulation multiple Higgs lattice gauge theory Higgs boson phase transition particle physics
14	Lattice Simulations of the SU(2)-Multi-Higgs Phase Transition Wurtz, Mark Bryan 29 July 2009 (has links) The Higgs boson has an important role in the theoretical formulation of the standard model of fundamental interactions. Symmetry breaking of the vacuum via the Higgs field allows the gauge bosons of the weak interaction and all fermions to acquire mass in a way that preserves gauge-invariance, and thus renormalizablility. The Standard Model can accommodate an arbitrary number of Higgs fields with appropriate charge assignments. To explore the effects of multiple Higgs particles, the SU(2)-multi-Higgs model is studied using lattice simulations, a non-perturbative technique in which the fields are placed on a discrete space-time lattice. The formalism and methods of lattice field theory are discussed in detail. Standard results for the SU(2)-Higgs model are reproduced via Monte Carlo simulations, in particular the single-Higgs phase structure, which has a region of analytic connection between the symmetric and Higgs phases. The phase structure of the SU(2)-multi-Higgs model is explored for the case of N >= 2 identical Higgs fields. There is no remaining region of analytic connection between the phases, at least when interactions between different Higgs flavours are omitted. An explanation of this result in terms of enhancement from overlapping phase transitions is explored for N = 2 by introducing an asymmetry in the hopping parameters of the Higgs fields. monte carlo simulation multiple Higgs lattice gauge theory Higgs boson phase transition particle physics
15	Effective Field Theory for Doubly Heavy Baryons and Lattice QCD Hu, Jie January 2009 (has links) <p>In this thesis, we study effective field theories for doubly heavy baryons and lattice QCD. We construct a chiral Lagrangian for doubly heavy baryons and heavy mesons that is invariant under heavy quark-diquark symmetry at leading order and includes the leading O(1/m_Q ) symmetry violating operators. The theory is used to predict the electromagnetic decay width of the J = 3/2 member of the ground state doubly heavy baryon doublet. Numerical estimates are provided for doubly charm baryons. We also calculate chiral corrections to doubly heavy baryon masses and strong decay widths of low lying excited doubly heavy baryons. We derive the couplings of heavy diquarks to weak currents in the limit of heavy quark-diquark symmetry, and construct the chiral Lagrangian for doubly heavy baryons coupled to weak currents. Chiral corrections to doubly heavy baryon zero-recoil semileptonic decay for both unquenched and partially quenched QCD are calculated. This theory is used to derive chiral extrapolation formulae for measurements of the doubly heavy baryon zero-recoil semileptonic decay form factors in lattice QCD simulations. Additionally, we study the pion physics on lattice using chiral perturbation theory. For finite volume field theories with discrete translational invariance, conserved currents can obtain additional corrections from infrared effects. We demonstrate this for pions using chiral perturbation theory coupled to electromagnetism in a periodic box. Gauge invariant single particle effective theories are constructed to explain these results. We use chiral perturbation theory to study the extraction of pion electromagnetic polarizabilities from lattice QCD. Chiral extrapolation formulae are derived for partially quenched and quenched QCD simulations. We determine finite volume corrections to the Compton scattering tensor of pions.</p> / Dissertation Physics, Nuclear Effective Field Theory Lattice Gauge Theory Quantum Chromodynamics
16	Teorias de calibre na rede com simetria z (n) / Lattice gauge theories with Z(N) symmetry Fernando Dantas Nobre 22 June 1981 (has links) Discutimos um modelo de calibre com simetria Z (N) na rede, sendo as variáveis dinâmicas definidas em faces de cubos. Mostramos a dualidade com um sistema de spins Z (N) em quatro dimensões e a autodualidade em seis dimensões para este modelo, utilizando o formalismo da matriz de transferência. Analisamos as funções de correlação invariantes por transformações de calibre, constatando os decaimentos exponenciais com o volume (para altas temperaturas e d &#8805 3) e com a área (para baixas temperaturas e d > 3). Para três dimensões, o modelo não apresenta transição de fase sendo exatamente solúvel. Estudamos também a versão U (1) do modelo e mostramos sua equivalência com uma teoria de campos clássica livre na região de baixas temperaturas / We discussus a model with a Z (N) gauge symmetry on a lattice, the dynamical variables being defined on faces of cubes. The duality with a Z (N) spin system in four dimensions and the selfduality in six dimensions is shown for this model, using the transfer matrix formalism. The gauge invariant correlation functions have been analysed and we verify their exponential decay with volume (at high temperatures and d &#8805 3) and with the área (at low temperatures and d > 3). For three dimensions, the model exhibits no phase transition, being exactly soluble. We also study a U (I) version o four model and show its equivalence with a free classical field theory in the low temperature region Simetria Z (N) Teoria Lattice Gauge Lattice gauge theory Z(N) symmetry
17	Z2-Gauge Theory with Matter : Dispersive behaviour of a dimer in a 1+1-dimensional lattice / Z2-gaugeteori med materia : Dispersivt beteende hos en dimer i ett 1+1-dimensionellt gitter Ekblom, Filip January 2023 (has links) The intention with this thesis is to investigate a dimer in a spin chain. Inorder to do that, a model from Z2-gauge theory is taken as the theoretical motivation to construct a discrete lattice with Ising spin properties. A dimer is then allowed to exist indirectly in the empty space between sites. We choose to tackle the problem through a quantum mechanical approach in 1+1-dimensions, distancing ourselves from the original description in quantum field theory. The exposition begins by reviewing the spatial construction of the entire chain as well as its components, and ends with a discussion of time development where the main concern is dispersion in addition to reflection against a static charge. Spin chain Ising model Dimer Lattice Lattice gauge theory Condensed Matter Physics Den kondenserade materiens fysik
18	Homological Percolation in a Torus Duncan, Paul 23 September 2022 (has links) No description available. Mathematics percolation plaquette percolation homological percolation random cluster model Potts model lattice gauge theory
19	Masse des hadrons et des quarks légers en chromodynamique quantique sur réseau. / Hadron and light quark masses in lattice quantum chromodynamics Vulvert, Gregory 08 April 2011 (has links) Le sujet de cette thèse est le calcul ab initio de masses en QCD sur réseau.Dans la première partie on reconstruit le spectre des hadrons légers de la QCD. En utilisant une action de jauge de Lüscher-Weisz et une action fermionique de Wilson clover qui couplent par le biais de liens ayant subi six étapes de smearing stout, on extrait les masses de hadrons légers dans simulations à $N_f=2+1$ saveurs. Ces masses sont en accord avec l'expérience avec une précision de l'ordre de quelques pourcents et tous les erreurs systématiques sont contrôlées.Dans la seconde partie, on détermine les masses de quarks légers. L'action est la même que précédement mais on utilise deux étapes de smearing hex. Les simulations sont réalisées à la masse du pion et on utilise cinq réseaux pour prendre la limite du continu, éliminant de ce fait une grande source d'erreur systématique. La renormalisation est effectuée à la Rome-Southampton pour ne pas induire d'incertitudes dues à la théorie des perturbations. On obtient ainsi les premiers résultats au point physique atteignant une précision inférieure à 5%. / The main topic of this thesis is the computation ab initio of masses from lattice QCD.In the first part, the light hadron spectrum is computed. Thanks to a Lüscher-Weisz gauge action and a clover Wilson action describing with the quarks with six levels of stout-smearing, light hadron masses are extracted from simulations with $N_f=2+1$ flavors. These masses agree with experiment with a few percent accuracy and all the systematic errors are under control.In the second part, the light quark masses are determined. We use the same action as previously but with two levels of hex smearing. The simulations are done at the physical point mass and five lattice spacings are used to take a safe conitnuum limit, thus eliminating a higher source of systematice incertitude. Renormalization is perfo,rmed non perturbatively à la Rome-Southampton, thereby suppressing perturbative errors. We obtain in this work the first full non perturbative resultats at the physical point with a high accuracy since we obtain an error of about 5%. Théorie de jauge sur réseau Chromodynamique quantique Spectre Hadrons Quarks Masses Lattice gauge theory Quantum Chromodynamics Spectrum Hadrons Quarks Masses
20	Campos de Gauge e matéria na rede - generalizando o Toric Code / Gauge and matter fields on a lattice: Generalizing Kitaev\'s Toric Code model. Jimenez, Juan Pablo Ibieta 14 May 2015 (has links) Fases topológicas da matéria são caracterizadas por terem uma degenerescên- cia do estado fundamental que depende da topologia da variedade em que o sistema físico é definido, além disso apresentam estados excitados no interior do sistema que são interpretados como sendo quase-partículas com estatística de tipo anyonica. Estes sistemas apresentam também excitações sem gap de energia em sua borda. Fases topologicamente ordenadas distintas não podem ser distinguidas pelo esquema usual de quebra de simetria de Ginzburg-Landau. Nesta dissertação apresentamos como exemplo o modelo mais simples de um sistema com Ordem Topológica, a saber, o Toric Code (TC), introduzido originalmente por A. Kitaev em [1]. O estado fundamental deste modelo ap- resenta degenerescência igual a 4 quando incorporado à superfície de um toro. As excitações elementares são interpretadas como sendo quase-partículas com estatística do tipo anyonica. O TC é um caso especial de uma classe mais geral de models chamados de Quantum Double Models (QDMs), estes modelos podem ser entendidos como sendo uma implementação de Teorias de gauge na rede em (2 + 1) dimensões na formulação Hamiltoniana, em que os graus de liberdade vivem nas arestas da rede e são elementos do grupo de gauge G. Nós generalizamos estes modelos com a inclusão de campos de matéria nos vértices da rede. Também apresentamos uma construção detalhada de tais modelos e mostramos que eles são exatamente solúveis. Em particular, exploramos o modelo que corresponde à escolher o grupo de gauge como sendo o grupo cíclico Z2 e os graus de liberdade de matéria como sendo elementos de um espaço vetorial bidimensional V2. Além disso, mostramos que a degenerescência do estado fundamental não depende da topologia da variedade e obtemos os estados excitados mais elementares deste modelo. / Topological phases of matter are characterized for having a topologically dependent ground state degeneracy, anyonic quasi-particle bulk excitations and gapless edge excitations. Different topologically ordered phases of matter can not be distinguished by te usual Ginzburg-Landau scheme of symmetry breaking. Therefore, a new mathematical framework for the study of such phases is needed. In this dissertation we present the simplest example of a topologically ordered system, namely, the \\Toric Code (TC) introduced by A. Kitaev in [1]. Its ground state is 4-fold degenerate when embedded on the surface of a torus and its elementary excited states are interpreted as quasi-particle anyons. The TC is a particular case of a more general class of lattice models known as Quantum Double Models (QDMs) which can be interpreted as an implementation of (2+1) Lattice Gauge Theories in the Hamiltonian formulation with discrete gauge group G. We generalize these models by the inclusion of matter fields at the vertices of the lattice. We give a detailed construction of such models, we show they are exactly solvable and explore the case when the gauge group is set to be the abelian Z_2 cyclic group and the matter degrees of freedom to be elements of a 2-dimensional vector space V_2. Furthermore, we show that the ground state degeneracy is not topologically dependent and obtain the most elementary excited states. Campos de matéria Gauge Theory Lattice Gauge Theory Matter Fields Ordem Topológica Teorias de gauge Teorias de gauge na rede Topological Order

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