Search results for "20G20"

showing 6 items of 6 documents

On the arithmetic and geometry of binary Hamiltonian forms

2011

Given an indefinite binary quaternionic Hermitian form $f$ with coefficients in a maximal order of a definite quaternion algebra over $\mathbb Q$, we give a precise asymptotic equivalent to the number of nonequivalent representations, satisfying some congruence properties, of the rational integers with absolute value at most $s$ by $f$, as $s$ tends to $+\infty$. We compute the volumes of hyperbolic 5-manifolds constructed by quaternions using Eisenstein series. In the Appendix, V. Emery computes these volumes using Prasad's general formula. We use hyperbolic geometry in dimension 5 to describe the reduction theory of both definite and indefinite binary quaternionic Hermitian forms.

AMS : 11E39 20G20 11R52 53A35 11N45 15A21 11F06 20H10representation of integersHyperbolic geometry20H10Geometry15A2101 natural sciencesHyperbolic volume[MATH.MATH-GR]Mathematics [math]/Group Theory [math.GR]11E39 20G20 11R52 53A35 11N45 15A21 11F06 20H10symbols.namesake11E390103 physical sciencesEisenstein seriesCongruence (manifolds)group of automorphs0101 mathematics20G20Quaternion11R52[MATH.MATH-GR] Mathematics [math]/Group Theory [math.GR]Mathematicsreduction theoryDiscrete mathematicsAlgebra and Number TheoryQuaternion algebraMathematics - Number TheorySesquilinear formta111010102 general mathematicsHamilton-Bianchi groupHermitian matrix53A35[MATH.MATH-NT]Mathematics [math]/Number Theory [math.NT]11F06[MATH.MATH-DG]Mathematics [math]/Differential Geometry [math.DG]symbols010307 mathematical physicsMathematics::Differential Geometry[MATH.MATH-DG] Mathematics [math]/Differential Geometry [math.DG]Hamilton–Bianchi group11N45binary Hamiltonian formhyperbolic volume[MATH.MATH-NT] Mathematics [math]/Number Theory [math.NT]
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Real structures on nilpotent orbit closures

2021

We determine the equivariant real structures on nilpotent orbits and the normalizations of their closures for the adjoint action of a complex semisimple algebraic group on its Lie algebra.

Mathematics - Algebraic Geometryreal form14R20 14M17 14P99 11S25 20G20homogeneous spaceMathematics::Rings and Algebrasreal structureGalois cohomology[MATH.MATH-AG] Mathematics [math]/Algebraic Geometry [math.AG]FOS: MathematicsNilpotent orbitMathematics::Representation TheoryAlgebraic Geometry (math.AG)
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Counting and equidistribution in Heisenberg groups

2014

We strongly develop the relationship between complex hyperbolic geometry and arithmetic counting or equidistribution applications, that arises from the action of arithmetic groups on complex hyperbolic spaces, especially in dimension $2$. We prove a Mertens' formula for the integer points over a quadratic imaginary number fields $K$ in the light cone of Hermitian forms, as well as an equidistribution theorem of the set of rational points over $K$ in Heisenberg groups. We give a counting formula for the cubic points over $K$ in the complex projective plane whose Galois conjugates are orthogonal and isotropic for a given Hermitian form over $K$, and a counting and equidistribution result for …

Mathematics - Differential GeometryPure mathematicsGeneral MathematicsHyperbolic geometryMathematics::Number Theory[MATH.MATH-DS]Mathematics [math]/Dynamical Systems [math.DS]11E39 11F06 11N45 20G20 53C17 53C22 53C55chainEquidistribution theorem01 natural sciencesHeisenberg groupequidistributioncommon perpendicularIntegerLight cone0103 physical sciencesHeisenberg groupcubic point0101 mathematicsCygan distanceMertens formulaComplex projective planeMathematicsDiscrete mathematicsAMS codes: 11E39 11F06 11N45 20G20 53C17 53C22 53C55Mathematics - Number TheorySesquilinear formHeisenberg groups010102 general mathematicsHermitian matrixcomplex hyperbolic geometry[MATH.MATH-NT]Mathematics [math]/Number Theory [math.NT]sub-Riemannian geometry[MATH.MATH-DG]Mathematics [math]/Differential Geometry [math.DG]counting010307 mathematical physics
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Counting and equidistribution in quaternionic Heisenberg groups

2020

AbstractWe develop the relationship between quaternionic hyperbolic geometry and arithmetic counting or equidistribution applications, that arises from the action of arithmetic groups on quaternionic hyperbolic spaces, especially in dimension 2. We prove a Mertens counting formula for the rational points over a definite quaternion algebra A over ${\mathbb{Q}}$ in the light cone of quaternionic Hermitian forms, as well as a Neville equidistribution theorem of the set of rational points over A in quaternionic Heisenberg groups.

Mathematics - Differential GeometryPure mathematicsMathematics::Dynamical SystemsGeneral MathematicsHyperbolic geometryMathematics::Number Theory[MATH.MATH-DS]Mathematics [math]/Dynamical Systems [math.DS]Dimension (graph theory)11E39 11F06 11N45 20G20 53C17 53C22 53C55[MATH.MATH-DS] Mathematics [math]/Dynamical Systems [math.DS]Equidistribution theorem01 natural sciences[MATH.MATH-GR]Mathematics [math]/Group Theory [math.GR]differentiaaligeometriaSet (abstract data type)Light cone0103 physical sciences0101 mathematics[MATH.MATH-GR] Mathematics [math]/Group Theory [math.GR]MathematicslukuteoriaQuaternion algebraMathematics - Number Theory010102 general mathematicsryhmäteoriaHermitian matrix[MATH.MATH-NT]Mathematics [math]/Number Theory [math.NT]Action (physics)010307 mathematical physicsMathematics::Differential Geometry[MATH.MATH-NT] Mathematics [math]/Number Theory [math.NT]
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Rigidité, comptage et équidistribution de chaînes de Cartan quaternioniques

2020

We prove an analog of Cartan's theorem, saying that the chain-preserving transformations of the boundary of the quaternionic hyperbolic spaces are projective transformations. We give a counting and equidistribution result for the orbits of arithmetic chains in the quaternionic Heisenberg group.; Nous montrons un analogue d'un théorème de Cartan, disant que les transformations préservant les chaînes sur le bord d'un espace hyperbolique quaternionien est une transformation projective. Nous donnons un résultat de comptage et d'équidistribution pour une orbite de chaînes arithmétiques dans le groupe de Heisenberg quaternionique.

Mathematics - Differential GeometrylukuteoriaAlgebra and Number TheoryMathematics - Number TheoryApplied Mathematicsryhmäteoria[MATH.MATH-NT]Mathematics [math]/Number Theory [math.NT][MATH.MATH-GR]Mathematics [math]/Group Theory [math.GR]quaternionic Heisenberg groupdifferentiaaligeometriaquaternionic hyperbolic geometryequidistributionsub-Riemannian geometry[MATH.MATH-DG]Mathematics [math]/Differential Geometry [math.DG]aritmetiikkacountingCartan chainGeometry and TopologyMathematics::Differential GeometryCygan distanceMathematics - Group TheoryAnalysis11N45 (Primary) 11E39 11F06 11N45 20G20 53C17 53C55 (Secondary)
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Algebraic singularities have maximal reductive automorphism groups

1989

LetX = On/ibe an analytic singularity where ṫ is an ideal of theC-algebraOnof germs of analytic functions on (Cn, 0). Letdenote the maximal ideal ofXandA= AutXits group of automorphisms. An abstract subgroupequipped with the structure of an algebraic group is calledalgebraic subgroupofAif the natural representations ofGon all “higher cotangent spaces”are rational. Letπbe the representation ofAon the first cotangent spaceandA1=π(A).

p-groupPure mathematics32B30010308 nuclear & particles physicsGeneral Mathematics010102 general mathematicsOuter automorphism groupCotangent spaceReductive groupAutomorphism01 natural sciences14B12Inner automorphismAlgebraic group0103 physical sciencesComputingMethodologies_DOCUMENTANDTEXTPROCESSINGMaximal ideal13J1520G200101 mathematics32M05MathematicsNagoya Mathematical Journal
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