Sur certains aspects géométriques et arithmétiques des variétés de Shimura orthogonales / On some geometrical and arithmetical aspects of orthogonal Shimura varieties

Tayou, Salim

17 June 2019

Cette thèse a pour objet l'étude de quelques propriétés arithmétiques et géométriques des variétés de Shimura orthogonales. Ces variétés apparaissent naturellement comme espaces de modules de structures de Hodge de type K3. Dans certains cas, elles paramètrent des objets géométriques tels que les surfaces K3 et leurs analogues en dimensions supérieures, les variétés hyperkähleriennes. Ce point de vue modulaire sera notre fil conducteur tout au long de ce mémoire. Ainsi, dans la première partie, on démontre un résultat d'équirépartition du lieu de Hodge dans les variations de structures de Hodge de type K3 au dessus d'une courbe complexe quasi-projective. Dans la deuxième partie, on étudie des analogues arithmétiques du résultat précédent. Un exemple d'énoncés qu'on obtient est le suivant: étant donnée une surface K3 définie sur un corps de nombres et ayant partout bonne réduction, alors sous certaine hypothèse d'approximation, il existe une spécialisation telle que le nombre de Picard géométrique croît strictement. Dans la troisième partie, on relie les problèmes du saut de nombre de Picard dans les familles de surfaces K3 à la question de construction de courbes rationnelles sur ces surfaces. Enfin, on étend un résultat de Bogomolov et Tschinkel. On montre notamment que toute surface K3 définie sur un corps algébriquement clos de caractéristique quelconque et admettant une fibration elliptique non-isotriviale contient une infinité de courbes rationnelles. / This thesis deals with some arithmetical and geometrical aspects of orthogonal Shimura varieties. These varieties appear naturally as moduli spaces of Hodge structures of K3 type. In some cases, they parametrize geometric objects as K3 surfaces and their analogous in higher dimensions, the hyperkähler varieties. This modular point of view will be our guiding principle throughout this dissertation. In the first part, we prove an equidistribution result of the Hodge locus in variations of Hodge structures of K3 type above complex quasi-projective curves. In the second part, we study analogous results in the arithemtic setting. An example of statements we get is the following: given a K3 surface having everywhere good reduction and satisfying an approximation hypothesis, there exists a specialization with strictly increasing geometric Picard rank. In both cases, our methods take advantage of the rich arithmetic, automorphic and geometric structure of orthogonal Shimura varieties as well as the Kuga-Satake construction that links them to moduli spaces of abelian varieties. Finally, we extend a result of Bogomolov and Tschinkel. In particular, we show that any K3 surface defined over an algebraically closed field of arbitrary characteristic and admitting a non-isotrivial elliptic fibration contains infinitely many rational curves.

Variétés de Shimura

Formes modulaires

Surfaces K3

Théorie de Hodge

Shimura varieties

Modular forms

K3 surfaces

Hodge theory

Rankin-Cohen Brackets for Hermitian Jacobi Forms and Hermitian Modular Forms

Martin, James D. (James Dudley)

12 1900

In this thesis, we define differential operators for Hermitian Jacobi forms and Hermitian modular forms over the Gaussian number field Q(i). In particular, we construct Rankin-Cohen brackets for such spaces of Hermitian Jacobi forms and Hermitian modular forms. As an application, we extend Rankin's method to the case of Hermitian Jacobi forms. Finally we compute Fourier series coefficients of Hermitian modular forms, which allow us to give an example of the first Rankin-Cohen bracket of two Hermitian modular forms. In the appendix, we provide tables of Fourier series coefficients of Hermitian modular forms and also the computer source code that we used to compute such Fourier coefficients.

Rankin-Cohen bracket

Hermitian modular forms

Rankin's method

Hermitian forms.

Jacobi forms.

Differential operators.

Arithmetic and analytical aspects of Siegel modular forms

Waibel, Fabian

25 June 2020

No description available.

510

Modular forms

Theta series

Eisenstein series

Quadratic forms

Mathematik (PPN61756535X)

Explicit Computations Supporting a Generalization of Serre's Conjecture

Hansen, Brian Francis

03 June 2005

Serre's conjecture on the modularity of Galois representations makes a connection between two-dimensional Galois representations and modular forms. A conjecture by Ash, Doud, and Pollack generalizes Serre's to higher-dimensional Galois representations. In this paper we discuss an explicit computational example supporting the generalized claim. An ambiguity in a calculation within the example is resolved using a method of complex approximation.

Serre

conjecture

Galois representations

modular forms

complex approximation

Ash

Doud

Pollack

computation

Mathematics

Integral Traces of Weak Maass Forms of Genus Zero Odd Prime Level

Green, Nathan Eric

02 July 2013

Duke and Jenkins defined a family of linear maps from spaces of weakly holomorphic modular forms of negative integral weight and level 1 into spaces of weakly holomorphic modular forms of half integral weight and level 4 and showed that these lifts preserve the integrality of Fourier coefficients. We show that the generalization of these lifts to modular forms of genus 0 odd prime level also preserves the integrality of Fourier coefficients.

Modular Forms

Half Integral Weight

L-Functions

Shimura Lift

Zagier Lift

Number Theory

Mathematics

Traces of Hecke operators on Drinfeld modular forms via point counts

De Vries, Sjoerd

January 2023

In this licentiate thesis, we study the action of Hecke operators on Drinfeld cusp forms via the theory of crystals over function fields. The thesis contains one preliminary chapter, in which we recall some basic theory of Drinfeld modules and Drinfeld modular forms, as well as the Eichler-Shimura theory developed by Böckle. The core of the thesis consists of Chapter II, in which we prove a Lefschetz trace formula for crystals over stacks and deduce a Ramanujan bound for Drinfeld modular forms, and Chapter III, in which we compute traces and slopes of Hecke operators. We formulate several questions and conjectures based on our data. We also include an appendix in which we discuss the relationship between traces of an operator in positive characteristic and its eigenvalues.

Drinfeld modules

Drinfeld modular forms

trace formula

Ramanujan bound

slopes

Mathematics

Matematik

Second moment of the central values of the symmetric square L-functions

Lam, Wing Chung

19 May 2015

No description available.

Mathematics

Rademacher Sums, Hecke Operators and Moonshine

Bruno, Paul

01 June 2016

No description available.

Mathematics

Rademacher Sums

Rademacher Series

Hecke Operators

Monstrous Moonshine

Moonshine

Modular Forms

Images des représentations galoisiennes / Images of Galois representations

Anni, Samuele

24 October 2013

Dans cette thèse, on étudie les représentations 2-dimensionnelles continues du groupe de Galois absolu d'une clôture algébrique fixée de Q sur les corps finis qui sont modulaires et leurs images. Ce manuscrit se compose de deux parties.Dans la première partie, on étudie un problème local-global pour les courbes elliptiques sur les corps de nombres. Soit E une courbe elliptique sur un corps de nombres K, et soit l un nombre premier. Si E admet une l-isogénie localement sur un ensemble de nombres premiers de densité 1 alors est-ce que E admet une l-isogénie sur K ? L'étude de la repréesentation galoisienne associéee à la l-torsion de E est l'ingrédient essentiel utilisé pour résoudre ce problème. On caractérise complètement les cas où le principe local-global n'est pas vérifié, et on obtient une borne supérieure pour les valeurs possibles de l pour lesquelles ce cas peut se produire.La deuxième partie a un but algorithmique : donner un algorithme pour calculer les images des représentations galoisiennes 2-dimensionnelles sur les corps finis attachées aux formes modulaires. L'un des résultats principaux est que l'algorithme n'utilise que des opérateurs de Hecke jusqu'à la borne de Sturm au niveau donné n dans presque tous les cas. En outre, presque tous les calculs sont effectués en caractéristique positive. On étudie la description locale de la représentation aux nombres premiers divisant le niveau et la caractéristique. En particulier, on obtient une caractérisation précise des formes propres dans l'espace des formes anciennes en caractéristique positive.On étudie aussi le conducteur de la tordue d'une représentation par un caractère et les coefficients de la forme de niveau et poids minimaux associée. L'algorithme est conçu à partir des résultats de Dickson, Khare-Wintenberger et Faber sur la classification, à conjugaison près, des sous-groupes finis de $\PGL_2(\overline{\F}_\ell)$. On caractérise chaque cas en donnant une description et des algorithmes pour le vérifier. En particulier, on donne une nouvelle approche pour les représentations irréductibles avec image projective isomorphe soit au groupe symétrique sur 4 éléments ou au groupe alterné sur 4 ou 5 éléments. / In this thesis we investigate $2$-dimensional, continuous, odd, residual Galois representations and their images. This manuscript consists of two parts.In the first part of this thesis we analyse a local-global problem for elliptic curves over number fields. Let $E$ be an elliptic curve over a number field $K$, and let $\ell$ be a prime number. If $E$ admits an $\ell$-isogeny locally at a set of primes with density one then does $E$ admit an $\ell$-isogeny over $K$? The study of the Galois representation associated to the $\ell$-torsion subgroup of $E$ is the crucial ingredient used to solve the problem. We characterize completely the cases where the local-global principle fails, obtaining an upper bound for the possible values of $\ell$ for which this can happen.In the second part of this thesis, we outline an algorithm for computing the image of a residual modular $2$-dimensional semi-simple Galois representation. This algorithm determines the image as a finite subgroup of $\GL_2(\overline{\F}_\ell)$, up to conjugation, as well as certain local properties of the representation and tabulate the result in a database. In this part of the thesis we show that, in almost all cases, in order to compute the image of such a representation it is sufficient to know the images of the Hecke operators up to the Sturm bound at the given level $n$. In addition, almost all the computations are performed in positive characteristic.In order to obtain such an algorithm, we study the local description of the representation at primes dividing the level and the characteristic: this leads to a complete description of the eigenforms in the old-space. Moreover, we investigate the conductor of the twist of a representation by characters and the coefficients of the form of minimal level and weight associated to it in order to optimize the computation of the projective image.The algorithm is designed using results of Dickson, Khare-Wintenberger and Faber on the classification, up to conjugation, of the finite subgroups of $\PGL_2(\overline{\F}_\ell)$. We characterize each possible case giving a precise description and algorithms to deal with it. In particular, we give a new approach and a construction to deal with irreducible representations with projective image isomorphic to either the symmetric group on $4$ elements or the alternating group on $4$ or $5$ elements.

Représentations galoisiennes

Principe local-global

Courbes modulaires

Courbes formes

Formes modulaires de Katz

Isogénies

Galois representations

Local-global principle

Modular curves

Modular forms

Katz modular forms

Isogenies

Elliptic curves on number fields

p-adic Measures for Reciprocals of L-functions of Totally Real Number Fields

Razan Taha (11186268)

26 July 2021

We generalize the work of Gelbart, Miller, Pantchichkine, and Shahidi on constructing p-adic measures to the case of totally real fields K. This measure is the Mellin transform of the reciprocal of the p-adic L-function which interpolates the special values at negative integers of the Hecke L-function of K. To define this measure as a distribution, we study the non-constant terms in the Fourier expansion of a particular Eisenstein series of the Hilbert modular group of K. Proving the distribution is a measure requires studying the structure of the Iwasawa algebra.

Algebra and Number Theory

L-functions

p-adic L-functions

Langlands-Shahidi method

Iwasawa theory

Eisenstein series

Hilbert modular forms