Global ETD Search

21	Topological and Geometric Methods with a View Towards Data Analysis Eidi, Marzieh 12 April 2022 (has links) In geometry, various tools have been developed to explore the topology and other features of a manifold from its geometrical structure. Among the two most powerful ones are the analysis of the critical points of a function, or more generally, the closed orbits of a dynamical system defined on the manifold, and the evaluation of curvature inequalities. When any (nondegenerate) function has to have many critical points and with different indices, then the topology must be rich, and when certain curvature inequalities hold throughout the manifold, that constrains the topology. It has been observed that these principles also hold for metric spaces more general than Riemannian manifolds, and for instance also for graphs. This thesis represents a contribution to this program. We study the relation between the closed orbits of a dynamical system and the topology of a manifold or a simplicial complex via the approach of Floer. And we develop notions of Ricci curvature not only for graphs, but more generally for, possibly directed, hypergraphs, and we draw structural consequences from curvature inequalities. It includes methods that besides their theoretical importance can be used as powerful tools for data analysis. This thesis has two main parts; in the first part we have developed topological methods based on the dynamic of vector fields defined on smooth as well as discrete structures. In the second part, we concentrate on some curvature notions which already proved themselves as powerful measures for determining the local (and global) structures of smooth objects. Our main motivation here is to develop methods that are helpful for the analysis of complex networks. Many empirical networks incorporate higher-order relations between elements and therefore are naturally modeled as, possibly directed and/or weighted, hypergraphs, rather than merely as graphs. In order to develop a systematic tool for the statistical analysis of such hypergraphs, we propose a general definition of Ricci curvature on directed hypergraphs and explore the consequences of that definition. The definition generalizes Ollivier’s definition for graphs. It involves a carefully designed optimal transport problem between sets of vertices. We can then characterize various classes of hypergraphs by their curvature. In the last chapter, we show that our curvature notion is a powerful tool for determining complex local structures in a variety of real and random networks modeled as (directed) hypergraphs. Furthermore, it can nicely detect hyperloop structures; hyperloops are fundamental in some real networks such as chemical reactions as catalysts in such reactions are faithfully modeled as vertices of directed hyperloops. We see that the distribution of our curvature notion in real networks deviates from random models. info:eu-repo/classification/ddc/500 ddc:500
22	Exact Lagrangian cobordism and pseudo-isotopy Suárez López, Lara Simone 09 1900 (has links) Dans cette thèse, on étudie les propriétés des sous-variétés lagrangiennes dans une variété symplectique en utilisant la relation de cobordisme lagrangien. Plus précisément, on s'intéresse à déterminer les conditions pour lesquelles les cobordismes lagrangiens élémentaires sont en fait triviaux. En utilisant des techniques de l'homologie de Floer et le théorème du s-cobordisme on démontre que, sous certaines hypothèses topologiques, un cobordisme lagrangien exact est une pseudo-isotopie lagrangienne. Ce resultat est une forme faible d'une conjecture due à Biran et Cornea qui stipule qu'un cobordisme lagrangien exact est hamiltonien isotope à une suspension lagrangianenne. / In this thesis we study the properties of Lagrangian submanifolds of a symplectic manifold by using the relation of Lagrangian cobordism. More precisely, we are interested in determining when an elementary Lagrangian cobordism is trivial. Using techniques coming from Floer homology and the s-cobordism theorem, we show that under some topological assumptions, an exact Lagrangian cobordism is a Lagrangian pseudo-isotopy. This is a weaker version of a conjecture proposed by Biran and Cornea, which states that any exact Lagrangian cobordism is Hamiltonian isotopic to a Lagrangian suspension. Lagrangian submanifold Lagrangian cobordism Lagrangian pseudo-isotopy Floer homology Whitehead torsion Sous-variété lagrangienne Cobordisme lagrangien Pseudo-isotopie lagrangienne Homologie de Floer Torsion de Whitehead
23	Rabinowitz-Floer homology on Brieskorn manifolds Fauck, Alexander 19 May 2016 (has links) In dieser Dissertation werden Kontaktstrukturen auf beliebigen differenzierbaren Mannigfaltigkeiten ungerader Dimension untersucht. Dies geschiet vermöge der Rabinowitz-Floer-Homologie (RFH), welche 2009 von Cieliebak und Frauenfelder eingeführt wurde. Ein großer Teil der Arbeit widmet sich den technischen Problemen bei der Definition von RFH. Insbesondere wird die Transversalität für die benötigten Modulräume gezeigt. In einem weiteren Abschnitt wird bewiesen, dass RFH im wesentlichen invariant unter subkrittischer Henkelanklebung ist. Schließlich enthält die Arbeit die Berechnung von RFH für einige Brieskorn-Mannigfaltigkeiten. Die dabei gewonnenen Resultate werden dazu verwendet zu zeigen, dass es auf jeder Mannigfaltigkeit, welche füllbare Kontaktstukturen zulässt, entweder unendlich viele verschiedene füllbare Kontaktstrukturen gibt, oder eine Kontaktstruktur mit unendlich vielen verschiedenen Füllungen oder das für alle füllbaren Kontaktstrukturen die RFH von unendlicher Dimension ist für alle Grade. / This thesis considers fillable contact structures on odd-dimensional manifolds. For that purpose, Rabinowitz-Floer homology (RFH) is used which was introduced by Cieliebak and Frauenfelder in 2009. A major part of the thesis is devoted to technical problems in the definition of RFH. In particular, it is shown that the moduli spaces involved are cut out transversally. Moreover, it is proved that RFH is essentially invariant under subcritical handle attachment. Finally, RFH is calculated for some Brieskorn manifolds. The obtained results are then used to show for every manifold, which supports fillable contact structures, that there exist either infinitely many different fillable contact structures, or one contact structure with infinitely many different fillings or for every fillable contact structure holds that RFH is infinite dimensional in every degree. dynamische Systeme Kontaktgeometrie symplektische Geometrie Floer Homologie dynamical systems contact geometry symplectic geometry Floer homology 510 Mathematik 27 Mathematik SK 370 ddc:510
24	Lefschetz fibrations = Fibrações de Lefschetz / Fibrações de Lefschetz Callander, Brian, 1986- 23 August 2018 (has links) Orientador: Elizabeth Terezinha Gasparim / Dissertação (mestrado) - Universidade Estadual de Campinas, Instituto de Matemática Estatística e Computação Científica / Made available in DSpace on 2018-08-23T08:45:07Z (GMT). No. of bitstreams: 1 Callander_Brian_M.pdf: 1926930 bytes, checksum: 341dd0f9759ced382e138cd14fc4ae2c (MD5) Previous issue date: 2013 / Resumo: O propósito desta tese é estudar fibrações de Lefschetz simpléticas, nas quais os ciclos evanescentes são subvariedades Lagrangianas das fibras. Para a descrição da teoria de interseção dos ciclos evanescentes utilizamos cohomologia de Floer Lagrangiana, cujo conceito revemos nesta tese. Apresentamos três exemplos principais e de caráteres distintos: (1) twists de Dehn generalizados, (2) o "espelho" da reta projetiva, e (3) uma fibração numa órbita adjunta de sl(3,C). O terceiro destes exemplos é original e utiliza um teorema recente de Gasparim- Grama-San Martin / Abstract: The objective of this thesis is to study symplectic Lefschetz fibrations, in which the vanishing cycles are Lagrangian submanifolds of the fibres. In order to describe the intersection theory of vanishing cycles we use Lagrangian intersection Floer cohomology, which we review. We present three main examples of distinct characters: (1) generalized Dehn twists, (2) the "mirror" of the projective line, and (3) a fibration on an adjoint orbit of sl(3,C). The third of these examples is original and uses a recent theorem of Gasparim- Grama-San Martin / Mestrado / Matematica / Mestre em Matemática Lefschetz, Fibrações de Singularidades (Matemática) Variedades simpléticas Floer, Homologia de Hodge, Teoria de Lefschetz fibrations Singularities (Mathematics) Symplectic manifolds Hodge theory Floer homology Hodge theory
25	Growth rate of Legendrian contact homology and dynamics of Reeb flows Ribeiro De Resende Alv. Marcelo 05 December 2014 (has links) L'objectif de cette thèse est d'investiguer la relation entre l'homologie de contact Legendrienne d'une variété de contact de dimension 3, et l'entropie topologique des flots de Reeb associés à cette variété de contact. Une variété de contact est une variété differentielle M de dimension impaire munie d'un champ d'hyperplan Y maximalement non-intégrable. Les champs de Reeb sont une classe speciale de champs de vecteurs sur M qui sont définis en utilisant la structure de contact; ils préservent la structure de contact et ils préservent aussi une forme de volume sur M.<p><p>L'entropie topologique h est un nombre non-négatif qu'on associe à un système dynamique et qui mesure la complexité de ce système. Si un système dynamique est d'entropie topologique positive, on dit que ce système est chaotique.<p><p>Comme les champs de Reeb sont construits en utilisant la structure de contact Y, il est naturel d'attendre que la topologie de (M,Y) influence la dynamique des champs de Reeb auxquels elle est associée. En particulier, il est naturel de se demander s'il existe des variétés de contact dont tous les champs de Reeb associés ont une entropie topologique positive. Si une varieté de contact a cette propriété, on dira qu'elle est d'entropie positive. <p><p>Macarini et Schlenk ont été les premiers à étudier cette question. Ils ont montré qu'il existe un grand ensemble de variétés différentielles Q, telles que le fibré unitaire T_1 Q muni de sa structure de contact canonique Y_{can} est d'entropie topologique positive. Plus précisement, ils ont utilisé l'homologie de Floer Lagrangienne, qui est un invariant symplectique, pour montrer que si Q est rationnellement hyperbolique alors (T_1 Q,Y_{can}) est d'entropie positive. <p><p>Pour étudier l'entropie topologique dans le cas où M n'est pas un fibré unitaire on substitue à l'homologie de Floer Lagrangienne un invariant plus naturel des variétés de contact: l'homologie de contact Legendrienne à bandes. On demontre dans cette thèse que l'homologie de contact Legendrienne à bandes est bien adaptée pour étudier l'entropie topologique. Plus précisement, on montre que quand l'homologie de contact Legendrienne à bandes est bien définie pour un champ de Reeb associé à (M,Y) et sa croissance est exponentielle, alors (M,Y) est d'entropie positive. <p><p>On utilise ce résultat pour trouver des nouveaux exemples de variétés de contact de dimension 3 qui sont d'entropie positive. On montre même qu'il y a des variétés de dimension 3 qui possèdent une infinité de structures de contact différentes qui sont toutes d'entropie positive. Ces résultats et bien d'autres nous permettent de conjecturer que la ``plupart' des variétés de contact de dimension 3 sont d'entropie positive. / Doctorat en Sciences / info:eu-repo/semantics/nonPublished Mathématiques Sciences exactes et naturelles Topological entropy Symplectic and contact topology Floer homology Entropie topologique Topologie symplectique et de contact Homologie de Floer topological entropy of Reeb flows Legendrian contact homology Contact topology
26	The Weinstein conjecture with multiplicities on spherizations / Conjecture de Weinstein avec multiplicités pour les spherisations. Heistercamp, Muriel 02 September 2011 (has links) Soit M une variété lisse fermée et considérons sont fibré cotangent TM muni de la structure symplectique usuelle induite par la forme de Liouville. Une hypersurface S de TM$ est dite étoilée fibre par fibre si pour tout point q de M, l'intersection Sq de S avec la fibre au dessus de q est le bord d'un domaine étoilé par rapport à l'origine 0q de la fibre TqM. Un flot est naturellement associé à S, il s'agit de l'unique flot généré par le champ de Reeb le long de S, le flot de Reeb. <p><p>L'existence d'une orbite orbite fermée du flot de Reeb sur S fut annoncée par Weinstein dans sa conjecture en 1978. Indépendamment, Weinstein et Rabinowitz ont montré l'existence d'une orbite fermée sur les hypersurfaces de type étoilées dans l'espace réel de dimension 2n. Sous les hypothèses précédentes, l'existence d'une orbite fermée fut démontrée par Hofer et Viterbo. Dans le cas particulier du flot géodésique, l'existence de plusieurs orbites fermées fut notamment étudiée par Gromov, Paternain et Paternain-Petean. Dans cette thèse, ces résultats sont généralisés. <p><p>Les résultats principaux de cette thèse montrent que la structure topologique de la variété M implique, pour toute hypersurface étoilée fibre par fibre, l'existence de beaucoup d'orbites fermées du flot de Reeb. Plus précisément, une borne inférieure de la croissance du nombre d'orbites fermées du flot de Reeb en fonction de leur période est mise en évidence. /<p><p>Let M be a smooth closed manifold and denote by TM the cotangent bundle over M endowed with its usual symplectic structure induced by the Liouville form. A hypersurface S of TM is said to be fiberwise starshaped if for each point q in M the intersection Sq of S with the fiber at q bounds a domain starshaped with respect to the origin 0q in TqM. There is a flow naturally associated to S, generated by the unique Reeb vector field R along S ,the Reeb flow. <p><p>The existence of one closed orbit was conjectured by Weinstein in 1978 in a more general setting. Independently, Weinstein and Rabinowitz established the existence of a closed orbit on star-like hypersurfaces in the 2n-dimensional real space. In our setting the Weinstein conjecture without the assumption was proved in 1988 by Hofer and Viterbo. The existence of many closed orbits has already been well studied in the special case of the geodesic flow, for example by Gromov, Paternain and Paternain-Petean. In this thesis we will generalize their results.<p><p>The main result of this thesis is to prove that the topological structure of $M$ forces, for all fiberwise starshaped hypersurfaces S, the existence of many closed orbits of the Reeb flow on S. More precisely, we shall give a lower bound of the growth rate of the number of closed Reeb-orbits in terms of their periods. / Doctorat en Sciences / info:eu-repo/semantics/nonPublished Mathématiques Sciences exactes et naturelles Hamiltonian systems Homology theory Systèmes hamiltoniens Homologie cotangent bundles periodic orbits Floer homology Hamiltonian dynamic Morse-Bott homology
27	Quantum structures of some non-monotone Lagrangian submanifolds / Structures quantiques de certaines sous-variétés lagrangiennes non monotones Ngo, Fabien 03 September 2010 (has links) In this thesis we present a slight generalisation of the Pearl complex or relative quantum homology to some non monotone Lagrangian submanifolds. First we develop the theory for the so called almost monotone Lagrangian submanifolds, We apply it to uniruling problems as well as estimates for the relative Gromov width. In the second part we develop the theory for toric fiber in toric Fano manifolds, recovering previous computaional results of Floer homology . / Doctorat en Sciences / info:eu-repo/semantics/nonPublished Mathématiques Sciences exactes et naturelles Geometry, Differential Lagrange spaces Submanifolds Homology theory Géométrie différentielle Espaces lagrangiens Sous-variétés (Mathématiques) Homologie symplectic topology Pearl Homology Lagrangian submanifolds. Floer Homology
28	Homologie symplectique Tⁿ-équivariante pour les variétés toriques hamiltoniennes / Tⁿ-equivariant symplectic homology for toric hamiltonian manifolds Mennesson, Pierre 22 October 2018 (has links) Cette thèse établit l'existence d'une variante de l'homologie de Floer de type Morse-Bott. Étant donnés une variété torique (W²ⁿ, ω, µ) et un hamiltonien H : W × S ¹ → ℝ invariant par l’action du tore de dimension n Tⁿ, , les orbites de H sont stables par l’action torique. Cette dernière admettant des points fixes dans W, elle n’est pas libre, pareillement pour celle induit sur les lacets de W et il est, a priori, impossible de construire une théorie de Morse-Bott équivariante au niveau de C∞(S¹, W)/Tⁿ. Nous remédions à ce problème en adoptant la construction de Borel : nous choisissons un espace E contractile muni d’une action libre du tore regardons l’homologie de Morse-Bott en dimension infinie de l’espace (C∞(S¹, W) × E)/Tⁿ où Tⁿ agit cette fois de manière diagonale sur le produit.L’homologie obtenue est un invariant pour les variétés symplectiques toriques et nous le calculons dans le cas d’une variété fermée. / This thesis establishes the existence of a version of Floer homology in a Morse-Bottcontext. Given a toric manifold (Wⁿ, ω, µ) and a hamiltonian H : W × S¹ → ℝ invariant bythe action of the torus Tⁿ, the periodical orbits of H are stable by the toric action.The latter admits fix points in W and hence it not free, neither one induced on the spaceof the loops of W and it is, a priori, impossible to establish a equivariant infinite-dimensionalMorse-Bott theory on C∞(S¹, W)/Tⁿ. We deal with this problem using Borel’s construction : we choose a space contractible E witha free action from the torus and look at the infinite-dimensional Morse-Bott homology of thespace (C∞(S¹, W) × E)/Tⁿ where Tⁿ act in a diagonal way on the product.We obtain an invariant for symplectic toric manifold and computes it for a closed manifold. Géométrie symplectique Géométrie torique Homologie de Floer Théorie de Morse-Bott Dynamique Hamiltonienne Symplectic geometry Toric geometry Floer homology Morse-Bott Theory Hamiltonian dynamics
29	The Leray-Serre spectral sequence in Morse homology on Hilbert manifolds and in Floer homology on cotangent bundles Schneider, Matti 30 January 2013 (has links) The Leray-Serre spectral sequence is a fundamental tool for studying singular homology of a fibration E->B with typical fiber F. It expresses H (E) in terms of H (B) and H (F). One of the classic examples of a fibration is given by the free loop space fibration, where the typical fiber is given by the based loop space . The first part of this thesis constructs the Leray-Serre spectral sequence in Morse homology on Hilbert manifolds under certain natural conditions, valid for instance for the free loop space fibration if the base is a closed manifold. We extend the approach of Hutchings which is restricted to closed manifolds. The spectral sequence might provide answers to questions involving closed geodesics, in particular to spectral invariants for the geodesic energy functional. Furthermore we discuss another example, the free loop space of a compact G-principal bundle, where G is a connected compact Lie group. Here we encounter an additional difficulty, namely the base manifold of the fiber bundle is infinite-dimensional. Furthermore, as H ( P) = HF (T P) and H ( Q) =HF (T Q), where HF denotes Floer homology for periodic orbits, the spectral sequence for P -> Q might provide a stepping stone towards a similar spectral sequence defined in purely Floer-theoretic terms, possibly even for more general symplectic quotients. Hutchings’ approach to the Leray-Serre spectral sequence in Morse homology couples a fiberwise negative gradient flow with a lifted negative gradient flow on the base. We study the Morse homology of a vector field that is not of gradient type. The central issue in the Hilbert manifold setting to be resolved is compactness of the involved moduli spaces. We overcome this difficulty by utilizing the special structure of the vector field. Compactness up to breaking of the corresponding moduli spaces is proved with the help of Gronwall-type estimates. Furthermore we point out and close gaps in the standard literature, see Section 1.4 for an overview. In the second part of this thesis we introduce a Lagrangian Floer homology on cotangent bundles with varying Lagrangian boundary condition. The corresponding complex allows us to obtain the Leray-Serre spectral sequence in Floer homology on the cotangent bundle of a closed manifold Q for Hamiltonians quadratic in the fiber directions. This corresponds to the free loop space fibration of a closed manifold of the first part. We expect applications to spectral invariants for the Hamiltonian action functional. The main idea is to study pairs of Morse trajectories on Q and Floer strips on T Q which are non-trivially coupled by moving Lagrangian boundary conditions. Again, compactness of the moduli spaces involved forms the central issue. A modification of the compactness proof of Abbondandolo-Schwarz along the lines of the Morse theory argument from the first part of the thesis can be utilized. info:eu-repo/classification/ddc/500 ddc:500
30	Abelianization and Floer homology of Lagrangians in clean intersection Schmäschke, Felix 10 April 2017 (has links) (PDF) This thesis is split up into two parts each revolving around Floer homology and quantum cohomology of closed monotone symplectic manifolds. In the first part we consider symplectic manifolds obtained by symplectic reduction. Our main result is that a quantum version of an abelianization formula of Martin holds, which relates the quantum cohomologies of symplectic quotients by a group and by its maximal torus. Also we show a quantum version of the Leray-Hirsch theorem for Floer homology of Lagrangian intersections in the quotient. The second part is devoted to Floer homology of a pair of monotone Lagrangian submanifolds in clean intersection. Under these assumptions the symplectic action functional is degenerated. Nevertheless Frauenfelder defines a version of Floer homology, which is in a certain sense an infinite dimensional analogon of Morse-Bott homology. Via natural filtrations on the chain level we were able to define two spectral sequences which serve as a tool to compute Floer homology. We show how these are used to obtain new intersection results for simply connected Lagrangians in the product of two complex projective spaces. The link between both parts is that in the background the same technical methods are applied; namely the theory of holomorphic strips with boundary on Lagrangians in clean intersection. Since all our constructions rely heavily on these methods we also give a detailed account of this theory although in principle many results are not new or require only straight forward generalizations. Quantenkohomologie Floer homologie Morse-Bott Verkleben Morse-Bott Orientierungen sauberer Schnitt Quantum cohomology Floer homology Morse-Bott gluing Morse-Bott orientations monotone Lagrangian submanifolds clean intersection ddc:500

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