Search results for "automorphism group"

showing 10 items of 24 documents

On presentations for mapping class groups of orientable surfaces via Poincaré's Polyhedron theorem and graphs of groups

2021

The mapping class group of an orientable surface with one boundary component, S, is isomorphic to a subgroup of the automorphism group of the fundamental group of S. We call these subgroups algebraic mapping class groups. An algebraic mapping class group acts on a space called ordered Auter space. We apply Poincaré's Polyhedron theorem to this action. We describe a decomposition of ordered Auter space. From these results, we deduce that the algebraic mapping class group of S is a quotient of the fundamental group of a graph of groups with, at most, two vertices and, at most, six edges. Vertex and edge groups of our graph of groups are mapping class groups of orientable surfaces with one, tw…

2010 Mathematics Subject Classification. Primary: 57N0520F05Auter spacepresentationsSecondary: 20F28automorphism groups20F34 Mapping class groups[MATH.MATH-GR]Mathematics [math]/Group Theory [math.GR][MATH.MATH-GR] Mathematics [math]/Group Theory [math.GR]
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Automorphisms of 2–dimensional right-angled Artin groups

2007

We study the outer automorphism group of a right-angled Artin group AA in the case where the defining graph A is connected and triangle-free. We give an algebraic description of Out.AA/ in terms of maximal join subgraphs in A and prove that the Tits’ alternative holds for Out.AA/. We construct an analogue of outer space for Out.AA/ and prove that it is finite dimensional, contractible, and has a proper action of Out.AA/. We show that Out.AA/ has finite virtual cohomological dimension, give upper and lower bounds on this dimension and construct a spine for outer space realizing the most general upper bound. 20F36; 20F65, 20F28

20F36outer spaceCohomological dimensionComputer Science::Digital LibrariesQuantitative Biology::Other01 natural sciencesContractible spaceUpper and lower boundsCombinatorics0103 physical sciences20F650101 mathematicsAlgebraic numberMathematics20F28Quantitative Biology::Biomolecules010102 general mathematicsAstrophysics::Instrumentation and Methods for AstrophysicsOuter automorphism groupAutomorphismGraphArtin groupright-angled Artin groups010307 mathematical physicsGeometry and Topologyouter automorphismsGeometry & Topology
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Automorphisms of hyperelliptic GAG-codes

2009

Abstract We determine the n –automorphism group of generalized algebraic-geometry codes associated with rational, elliptic and hyperelliptic function fields. Such group is, up to isomorphism, a subgroup of the automorphism group of the underlying function field.

Abelian varietyDiscrete mathematicsautomorphismsGroup (mathematics)Applied Mathematicsgeneralized algebraic geometry codes.Outer automorphism groupReductive groupAutomorphismTheoretical Computer ScienceCombinatoricsMathematics::Group Theorygeometric Goppa codeAlgebraic groupDiscrete Mathematics and Combinatoricsalgebraic function fieldsSettore MAT/03 - GeometriaIsomorphismfinite fieldsGeometric Goppa codesfinite fieldalgebraic function fieldHyperelliptic curvegeneralized algebraic-geometry codesMathematicsDiscrete Mathematics
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Automorphism Groups of Certain Rational Hypersurfaces in Complex Four-Space

2014

The Russell cubic is a smooth contractible affine complex threefold which is not isomorphic to affine three-space. In previous articles, we discussed the structure of the automorphism group of this variety. Here we review some consequences of this structure and generalize some results to other hypersurfaces which arise as deformations of Koras–Russell threefolds.

Automorphism groupPure mathematics010102 general mathematicsStructure (category theory)Space (mathematics)Automorphism01 natural sciencesContractible spaceAlgebraMathematics::Algebraic GeometryAffine representation0103 physical sciencesAstrophysics::Solar and Stellar Astrophysics010307 mathematical physicsAffine transformation0101 mathematicsVariety (universal algebra)Mathematics
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Quotients of the Dwork Pencil

2012

In this paper we investigate the geometry of the Dwork pencil in any dimension. More specifically, we study the automorphism group G of the generic fiber of the pencil over the complex projective line, and the quotients of it by various subgroups of G. In particular, we compute the Hodge numbers of these quotients via orbifold cohomology.

Automorphism groupPure mathematicsAutomorphismsDwork pencilGeneral Physics and AstronomyAutomorphismCalabi–Yau manifoldCohomologyAlgebraMathematics - Algebraic GeometryMathematics::Algebraic GeometryProjective lineFOS: MathematicsSettore MAT/03 - GeometriaGeometry and TopologyMathematics::Symplectic GeometryAlgebraic Geometry (math.AG)Mathematical PhysicsOrbifoldPencil (mathematics)QuotientMathematics
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Groups acting freely on Calabi-Yau threefolds embedded in a product of del Pezzo surfaces

2011

In this paper, we investigate quotients of Calabi-Yau manifolds $Y$ embedded in Fano varieties $X$, which are products of two del Pezzo surfaces — with respect to groups $G$ that act freely on $Y$. In particular, we revisit some known examples and we obtain some new Calabi-Yau varieties with small Hodge numbers. The groups $G$ are subgroups of the automorphism groups of $X$, which is described in terms of the automorphism group of the two del Pezzo surfaces.

Automorphism groupPure mathematicsGeneral MathematicsGeneral Physics and AstronomyFOS: Physical sciencesFano planeMathematical Physics (math-ph)AutomorphismMathematics - Algebraic GeometryMathematics::Algebraic GeometryProduct (mathematics)FOS: MathematicsCalabi–Yau manifolddel pezzo calabi yauSettore MAT/03 - GeometriaMathematics::Differential GeometryGrupo actions Calabi-Yau threefolds hodge numbersAlgebraic Geometry (math.AG)Mathematics::Symplectic GeometryQuotientMathematical PhysicsMathematics
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On the automorphism group of the integral group ring of Sk wr Sn

1992

Abstract Let G = SkwrSn be the wreath product of two symmetric groups Sk and Sn. We prove that every normalized automorphism θ of the integral group ring Z G can be written in the form θ = γ ° τu, where γ is an automorphism of G and τu denotes the inner automorphism induced by a unit u in Q G.

CombinatoricsAlgebra and Number TheoryInner automorphismHolomorphSymmetric groupMathematical analysisOuter automorphism groupAlternating groupAutomorphismUnit (ring theory)Group ringMathematicsJournal of Pure and Applied Algebra
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Automorphisms of the integral group ring of the hyperoctahedral group

1990

The purpose of this paper is to verify a conjecture of Zassenhaus [3] for hyperoctahedral groups by proving that every normalized automorphism () of ZG can be written in the form () = Tu 0 I where I is an automorphism of ZG obtained by extending an automorphism of G linearly to ZG and u is a unit of (JJG. A similar result was proved for symmetric groups by Peterson in [2]; the reader should consult [3] or the survey [4] for other results of this kind. 1989

CombinatoricsAlgebra and Number TheoryMatrix groupSymmetric groupAutomorphisms of the symmetric and alternating groupsOuter automorphism groupAlternating groupHyperoctahedral groupTopologyAutomorphismMathematicsGroup ringCommunications in Algebra
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Characterization of chain geometries of finite dimension by their automorphism group

1990

A large class of chain geometries of finite dimension is characterized as strong chain spaces possessing a distinguished group of automorphisms fixing two distant points.

CombinatoricsInner automorphismChain (algebraic topology)HolomorphSymmetric groupSO(8)Alternating groupOuter automorphism groupGeometry and TopologyAutomorphismMathematicsGeometriae Dedicata
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Divisible Designs Admitting, as an Automorphism Group, an Orthogonal Group or a Unitary Group

2001

We construct some divisible designs starting from a projective space. These divisible designs admit an orthogonal group or a unitary group as an automorphism group.

CombinatoricsInner automorphismProjective unitary groupUnitary groupQuaternion groupOuter automorphism groupAlternating groupGeneral linear groupMathematicsCircle group
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