Inhomogeneous approximation with coprime integers and lattice orbits
Inhomogeneous Diophantine approximation on integer polynomials with non-monotonic error function
We prove that the Lebesgue measure of the set of real points which are inhomogeneously Ψ-approximable by polynomials, where Ψ is not necessarily monotonic, is zero.
Inhomogeneous diophantine approximation on polynomials in
Initial powers of Sturmian sequences
Integer Points and the Rank of Thue Elliptic Curves.
Integer points close to convex surfaces
Integer solutions of a sequence of decomposable form inequalities
Integral identities and constructions of approximations to zeta-values
Some general construction of linear forms with rational coefficients in values of Riemann zeta-function at integer points is presented. These linear forms are expressed in terms of complex integrals of Barnes type that allows to estimate them. Some identity connecting these integrals and multiple integrals on the real unit cube is proved.
Integral points of a modular curve of level 11
Integral points of Pn - ... 2n + 1 hyperplanes in general position.
Intermediate Diophantine exponents and parametric geometry of numbers
Interpolation -adique
Interpolation sur des perturbations d’ensembles produits
On démontre un résultat concernant l’interpolation de fonctions analytiques sur une perturbation d’ensemble produit qui, dans le cas -adique, répond à une conjecture de P.Robba et, dans le cas complexe, complète des résultats antérieurs de E.Bombieri, S.Lang, D.Masser, J.-C.Moreau et M.Waldschmidt.
Intersection de courbes et de sous-groupes et problèmes de minoration de hauteur dans les variétés abéliennes C.M.
Nous prouvons un cas particulier de la conjecture suivante e Zilber-Pink, conjecture généralisant celle de Manin-Mumford : soit une courbe incluse dans une variété abélienne sur , qui n’est pas incluse dans une sous-variété de torsion ; l’intersection de avec la réunion de tous les sous-groupes de codimension au moins 2 est finie. Nous démontrons ici le cas où est une puissance d’une variété abélienne C.M. simple. La preuve reprend la stratégie de Rémond (suivant Bombieri-Masser-Zannier)...
Intervalles à restes majorés pour la suite . II
Introduction à l'algorithme de Jacobi-Perron
Introduction to Diophantine Approximation
In this article we formalize some results of Diophantine approximation, i.e. the approximation of an irrational number by rationals. A typical example is finding an integer solution (x, y) of the inequality |xθ − y| ≤ 1/x, where 0 is a real number. First, we formalize some lemmas about continued fractions. Then we prove that the inequality has infinitely many solutions by continued fractions. Finally, we formalize Dirichlet’s proof (1842) of existence of the solution [12], [1].
Introduction to Liouville Numbers
The article defines Liouville numbers, originally introduced by Joseph Liouville in 1844 [17] as an example of an object which can be approximated “quite closely” by a sequence of rational numbers. A real number x is a Liouville number iff for every positive integer n, there exist integers p and q such that q > 1 and [...] It is easy to show that all Liouville numbers are irrational. Liouville constant, which is also defined formally, is the first transcendental (not algebraic) number. It is...
Investigations in the powersum theory II
Irrational rapidly convergent series