Uma generalização de pseudogrupo estruturas / A generalization of pseudogroup structures

Chauca, Genaro Pablo Zamudio

20 April 2018

Já é bem estabelecido na geometria diferencial o uso de fibrados principais com grupo de estru- tura para a definição e o estudo de algumas estruturas geométricas na base do fibrado. O uso de fibrados principais com grupoide de estrutura na definição de estruturas geométricas sobre varieda- des não tem sido muito explorada. O único exemplo do uso desses fibrados para definir estruturas geométricas foi dado Haefliger. Ele mostrou que folheações regulares sobre uma variedade estão em correspondência com uma classe de fibrados principais com grupoide de estrutura, e usando a classificação de fibrados principais ele obtive a classificação de folheações regulares a menos de homotopia sobre uma variedade aberta. Neste trabalho propomos uma definição a qual generaliza as folheações regulares para produzir uma classe de fibrados vetoriais ancorados e provamos para eles um teorema de classificação no espirito do teorema de Haefliger. Depois aplicamos a teoria desenvolvida aos grupoides com formas multiplicativas e mostramos como a nossa definição per- mite trasladar a geometria guardada na forma multiplicativa para a base do fibrado principal. Em seguida voltamos para o caso de folheações regulares e mostramos que a nossa proposta permite incluir novas estruturas transversais à folheação. / It is well know in differencial geometry the use of principal bundles with structure group to define and study some geometric structures on the base of the bundle. The use of principal bun- dle with a structure groupoid has not been extensively studied yet. The only example using this kind of bundle was provided by Haefliger in his study of regular foliations. Haefliger showed that regular foliations can be identified with some class of principal bundles with structure groupoid, then by using the classifying theorem of principal bundles he arrived to the classification theorem of regular foliations up to homotopy on open manifolds. In this work we will propose a definition that generalizes regular foliations to include anchored vector bundles and, will prove a classification theorem for these structures in the spirit of Haefligers theorem. Then we will apply this theory to groupoids with multiplicative forms and show that our definition permits to transfer the geometry encoded in the multiplicative form to the base of the bundle. Then we will back to the case of regular foliations and show that our proposal allow new transversal structures to the foliation.

-estruturas

-structures

Fibrados principais

Folheações regulares

Formas multiplicativas

Geometria transversal

Grupoides de Lie

Lie groupoids

Multiplicative forms

Principal bundles

Regular foliations

Transversal geometry

Soficity and Other Dynamical Aspects of Groupoids and Inverse Semigroups

Cordeiro, Luiz Gustavo

23 August 2018

This thesis is divided into four chapters. In the first one, all the pre-requisite theory of semigroups and groupoids is introduced, as well as a few new results - such as a short study of ∨-ideals and quotients in distributive semigroups and a non-commutative Loomis-Sikorski Theorem. In the second chapter, we motivate and describe the sofic property for probability measure-preserving groupoids and prove several permanence properties for the class of sofic groupoids. This provides a common ground for similar results in the particular cases of groups and equivalence relations. In particular, we prove that soficity is preserved under finite index extensions of groupoids. We also prove that soficity can be determined in terms of the full group alone, answering a question by Conley, Kechris and Tucker-Drob. In the third chapter we turn to the classical problem of reconstructing a topological space from a suitable structure on the space of continuous functions. We prove that a locally compact Hausdorff space can be recovered from classes of functions with values on a Hausdorff space together with an appropriate notion of disjointness, as long as some natural regularity hypotheses are satisfied. This allows us to recover (and even generalize) classical theorem by Kaplansky, Milgram, Banach-Stone, among others, as well as recent results of the similar nature, and obtain new consequences as well. Furthermore, we extend the techniques used here to obtain structural theorems related to topological groupoids. In the fourth and final chapter, we study dynamical aspects of partial actions of inverse semigroups, and in particular how to construct groupoids of germs and (partial) crossed products and how do they relate to each other. This chapter is based on joint work with Viviane Beuter.

groupoids

inverse semigroups

sofic

measured

topological

dynamical systems

partial actions

Boolean

Stone duality

non-commutative

Loomis-Sikorski

Full group

Crossed products

recovery theorems

Banach-Stone

Monoidal equivalence of locally compact quantum groups and application to bivariant K-theory / Equivalence monoïdale de groupes quantiques localement compacts et application à la K-théorie bivariante

Crespo, Jonathan

20 November 2015

Les travaux présentés dans cette thèse concernent l'équivalence monoïdale de groupes quantiques localement compacts et ses applications. Nous généralisons au cas localement compact et régulier, deux résultats importants concernant les actions de groupes quantiques compacts. Soient G1 et G2 deux groupes quantiques localement compacts réguliers et monoïdalement équivalents. Nous développons un procédé d'induction des actions qui permet d'établir une équivalence canonique des catégories dont les objets sont les actions continues de G1 et G2 sur les C*-algèbres. Comme application de ce résultat, nous obtenons une équivalence canonique des catégories de KK-Théorie équivariante pour G1 et G2. Nous introduisons et étudions une notion d'actions sur les C*-algèbres, de groupoïdes quantiques mesurés sur une base finie. La preuve de la seconde équivalence s'appuie alors sur une version du théorème de bidualité de Takesaki-Takai pour les actions de groupoïdes quantiques mesurés sur une base finie. Enfin, nous terminons en définissant et étudiant une notion de modules hilbertiens équivariants pour des actions de groupoïdes quantiques mesurés sur une base finie. / This dissertation deals with the notion of monoidal equivalence of locally compact quantum groups and its applications. We generalize to the case of regular locally compact quantum groups, two important resultst concerning the actions of compact quantum groups. Let G1 and G2 be two regular locally compact quantum groups monoidally equivalent. We develop an induction procedure and we build an equivalence of the categories, whose objects are the continuous actions of G1 and G2 on C*-algebras. As an application of this result, we obtain a canonical equivalence of the categories of equivariant KK-theory for actions of G1 and G2. We introduce and investigate a notion of actions on C*-algebras of mesured quantum groupoids on a finite basis. The proof of the second equivalence relies on a version of the Takesaki-Takai duality theorem for continuous actions of measured quantum groupoids on a finite basis. We conclude by defining and studying a notion of equivariant Hilbert modules for actions of mesured quantum groupoids on a finite basis.

Groupes quantiques localement compacts

Équivalence monoïdale

Groupoïdes quantiques mesurés

Actions

K-théorie bivariante

Locally compact quantum groups

Monoidal equivalence

Measured quantum groupoids

Actions

Bivariant K-theory

Modèles de l'univalence dans le cadre équivariant / On lifting univalence to the equivariant setting

Bordg, Anthony

09 November 2015

Cette thèse de doctorat a pour sujet les modèles de la théorie homotopique des types avec l'Axiome d'Univalence introduit par Vladimir Voevodsky. L'auteur prend pour cadre de travail les définitions de type-theoretic model category, type-theoretic fibration category (cette dernière étant la notion de modèle considérée dans cette thèse) et d'univers dans une type-theoretic fibration category, définitions dues à Michael Shulman. La problématique principale de cette thèse consiste à approfondir notre compréhension de la stabilité de l'Axiome d'Univalence pour les catégories de préfaisceaux, en particulier pour les groupoïdes équipés d'une involution. / This PhD thesis deals with some new models of Homotopy Type Theory and the Univalence Axiom introduced by Vladimir Voevodsky. Our work takes place in the framework of the definitions of type-theoretic model categories, type-theoretic fibration categories (the notion of model under consideration in this thesis) and universe in a type-theoretic fibration category, definitions due to Michael Shulman. The goal of this thesis consists mainly in the exploration of the stability of the Univalence Axiom for categories of functors , especially for groupoids equipped with involutions.

Fondations univalentes

Théorie homotopique des types

Axiome d'univalence

Catégories de modèles

Théorie de l'homotopie

Théorie des catégories

Préfaisceaux

Groupoïdes

Univers

Univalent foundations

Homotopy type theory

Univalence axiom

Quillen model categories

Homotopy theory

Category theory

Presheaves

Groupoids

Universe

Deformation groupoids and applications / Groupoïdes de déformations et applications

Mohsen, Omar

04 October 2018

Cette thèse est consacrée à l’étude de trois questions différentes concernant les groupoïdes de Lie et leurs applications. Le premier chapitre présente quelques préliminaires sur les groupoïdes de Lie. Dans le chapitre 2, on exprime la déformation de Witten à l’aide d’une déformation au cone normal et la théorie de C∗-modules ce qui nous permet de retrouver les inégalités de Morse. Notre méthode se généralise au cas des feuilletages. Dans le chapitre 3, on donne une construction simple du groupoïde de déformation construit par Choi-Pönge et Van Erp-Yuncken. Rappelons que celui-ci décrit le calcule pseudo-différentiel inhomogène grâce au travail de Debord-Skandalis et Van Erp- Yuncken. Notre construction montre que le groupoïde de déformation est en fait une déformation au cone normal classique itérée. Dans le chapitre 4, suivant le travail de Antonini, Azzali et Skandalis, on construit un élément en KK-théorie équivariante qui permet d’exprimer directement les invariants de Chern-Simons en K-théorie. Dans l’appendice on donne quelques rappels sur la KK-théorie équivariante et la KK-théorie réelle introduite par Antonini, Azzali et Skandalis. / This thesis is devoted to the study of three different questions concerning Lie groupoids and their applications. The first chapter presents some preliminaries on Lie groupoids. In Chapter 2, Witten’s deformation is expressed using deformation to the normal cone construction and the theory of C∗-modules, which allows us to reprove the Morse inequalities. Our method is generalised to the case of foliations. In Chapter 3, we give a simple construction of the deformation groupoid built by Choi-Pönge and Van Erp-Yuncken. Recall that this groupoid describes the inhomogeneous pseudo-differential calculus thanks to the work of Debord-Skandalis and Van Erp-Yuncken. Our construction shows that the deformation groupoid is actually an iterated classical deformation to the normal cone. In Chapter 4, following the work of Antonini, Azzali and Skandalis, we construct an element in equivariant KK-theory that allows us to express the Chern-Simons invariants directly in K-theory. In the appendix we give some reminders about the equivariant KK-theory and the real KK-theory introduced by Antonini, Azzali and Skandalis.

Déformation au cone normal

Déformation de Witten

Fonctions de Morse

Calcul pseudo-différentiel inhomogène

Invariants de Chern-Simons

Lie groupoids

Deformation to normal cone

Witten deformation

Morse functions

KK-theory

Chern-Simons invariants

Index theory and groupoids for filtered manifolds

Ewert, Eske Ellen

26 October 2020

No description available.

510

Filtered manifolds

Rockland condition

Generalized fixed point algebras

K-theory

Noncommutative Geometry

Groupoids

Tangent groupoid

Index theory

Graded Lie groups

Pseudodifferential calculus

C*-algebras

Representation theory

Mathematik (PPN61756535X)

Higher Lefschetz invariants for foliated manifolds / Höhere Lefschetz-Invarianten für geblätterte Mannigfaltigkeiten

Fermi, Alessandro

12 March 2012

No description available.

510 Mathematik

EFDC 120

EEHA 530

EFHR 300

EFHR 320

EFIH 050

EFIH 050

Mathematics and Computer Science

Blätterungen

Lie Groupoide

sekundäre charakteristische Klassen

höhere Lefschetz-Invarianten.

Foliations

Lie groupoids

secondary characteristic classes

higher Lefschetz-type invariants.

31.55

31.52

31.46