Search results for " Ring"

showing 10 items of 478 documents

On the blockwise modular isomorphism problem

2017

As a generalization of the modular isomorphism problem we study the behavior of defect groups under Morita equivalence of blocks of finite groups over algebraically closed fields of positive characteristic. We prove that the Morita equivalence class of a block B of defect at most 3 determines the defect groups of B up to isomorphism. In characteristic 0 we prove similar results for metacyclic defect groups and 2-blocks of defect 4. In the second part of the paper we investigate the situation for p-solvable groups G. Among other results we show that the group algebra of G itself determines if G has abelian Sylow p-subgroups.

Pure mathematicsGeneral Mathematics010102 general mathematicsSylow theoremsBlock (permutation group theory)Group algebra01 natural sciencesValuation ring0103 physical sciencesFOS: Mathematics010307 mathematical physicsIsomorphism0101 mathematicsAbelian groupMorita equivalenceAlgebraically closed fieldRepresentation Theory (math.RT)Mathematics - Representation TheoryMathematics
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F-signature of pairs and the asymptotic behavior of Frobenius splittings

2012

We generalize $F$-signature to pairs $(R,D)$ where $D$ is a Cartier subalgebra on $R$ as defined by the first two authors. In particular, we show the existence and positivity of the $F$-signature for any strongly $F$-regular pair. In one application, we answer an open question of I. Aberbach and F. Enescu by showing that the $F$-splitting ratio of an arbitrary $F$-pure local ring is strictly positive. Furthermore, we derive effective methods for computing the $F$-signature and the $F$-splitting ratio in the spirit of the work of R. Fedder.

Pure mathematicsGeneral Mathematics13A35 13D40 14B05 13H10010102 general mathematicsSubalgebraLocal ringSplitting primeF-regularCommutative Algebra (math.AC)Mathematics - Commutative AlgebraF-signatureF-splitting ratio01 natural sciencesF-pureMathematics - Algebraic GeometryCartier algebra0103 physical sciencesFOS: Mathematics010307 mathematical physics0101 mathematicsSignature (topology)Algebraic Geometry (math.AG)Mathematics
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Bounded elements in certain topological partial *-algebras

2011

We continue our study of topological partial *algebras, focusing our attention to the interplay between the various partial multiplications. The special case of partial *-algebras of operators is examined first, in particular the link between the strong and the weak multiplications, on one hand, and invariant positive sesquilinear (ips) forms, on the other. Then the analysis is extended to abstract topological partial *algebras, emphasizing the crucial role played by appropriate bounded elements, called $\M$-bounded. Finally, some remarks are made concerning representations in terms of the so-called partial GC*-algebras of operators.

Pure mathematicsGeneral MathematicsBounded elementMathematics - Rings and AlgebrasPrimary 47L60 Secondary 46H15Topologypartial *-algebrasAlgebraRings and Algebras (math.RA)Settore MAT/05 - Analisi MatematicaBounded functionFOS: Mathematicsbounded elementsSpecial caseInvariant (mathematics)Mathematics
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Torsors for Difference Algebraic Groups

2016

We introduce a cohomology set for groups defined by algebraic difference equations and show that it classifies torsors under the group action. This allows us to compute all torsors for large classes of groups. We also develop some tools for difference algebraic geometry and present an application to the Galois theory of differential equations depending on a discrete parameter.

Pure mathematicsGroup (mathematics)Applied MathematicsGeneral Mathematics12H10 20G10 14L15 39A05Mathematics - Rings and AlgebrasCommutative Algebra (math.AC)Mathematics - Commutative AlgebraCohomologyAction (physics)Set (abstract data type)Mathematics - Algebraic GeometryRings and Algebras (math.RA)Mathematics::K-Theory and HomologyFOS: MathematicsAlgebraic numberAlgebraic Geometry (math.AG)Mathematics
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Multiplizit�ten ?unendlich-ferner? Spitzen

1979

LetX be the quotient of a bounded symmetric domainD by an arithmetically defined subgroup Γ of all analytic automorphisms ofD and letX * be theSatake-compactification ofX. In the present note, the multiplicities of the local rings of the zero-dimensional boundary components ofX * will be computed in a completely elementary manner using reduction-theory in selfadjoint homogeneous cones.

Pure mathematicsHomogeneousGeneral MathematicsBounded functionMathematical analysisLocal ringBoundary (topology)AutomorphismQuotientMathematicsMonatshefte f�r Mathematik
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Del Pezzo elliptic varieties of degree d <= 4

2019

Let Y be a smooth del Pezzo variety of dimension n&gt;=3, i.e. a smooth complex projective variety endowed with an ample divisor H such that K_Y = (n+1)H. Let d be the degree H^n of Y and assume that d &gt;= 4. Consider a linear subsystem of |H| whose base locus is zero-dimensional of length d. The subsystem defines a rational map onto P^{n-1} and, under some mild extra hypothesis, the general pseudofibers are elliptic curves. We study the elliptic fibration X -&gt; P^{n-1} obtained by resolving the indeterminacy and call the variety X a del Pezzo elliptic variety. Extending the results of [7] we mainly prove that the Mordell-Weil group of the fibration is finite if and only if the Cox ring…

Pure mathematicsMathematics (miscellaneous)Elliptic fibrationSettore MAT/03 - GeometriaCox ringsDel Pezzo varietyTheoretical Computer ScienceDegree (temperature)Mathematics
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On cubic elliptic varieties

2013

Let X-&gt;P^(n-1) be an elliptic fibration obtained by resolving the indeterminacy of the projection of a cubic hypersurface Y of P^(n+1) from a line L not contained in Y. We prove that the Mordell-Weil group of the elliptic fibration is finite if and only if the Cox ring of X is finitely generated. We also provide a presentation of the Cox ring of X when it is finitely generated.

Pure mathematicsMathematics::Commutative AlgebraGroup (mathematics)Applied MathematicsGeneral MathematicsFibrationMathematics - Algebraic GeometryHypersurfaceMathematics::Algebraic GeometryProjection (mathematics)Line (geometry)14C20 14DxxFOS: MathematicsMathematics (all)Finitely-generated abelian groupSettore MAT/03 - GeometriaCox ringAlgebraic Geometry (math.AG)Mathematics
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Graded polynomial identities and exponential growth

2009

Let $A$ be a finite dimensional algebra over a field of characteristic zero graded by a finite abelian group $G$. Here we study a growth function related to the graded polynomial identities satisfied by $A$ by computing the exponential rate of growth of the sequence of graded codimensions of $A$. We prove that the $G$-exponent of $A$ exists and is an integer related in an explicit way to the dimension of a suitable semisimple subalgebra of $A$.

Pure mathematicsPolynomialMathematics::Commutative AlgebraApplied MathematicsGeneral MathematicsMathematics::Rings and AlgebrasMathematics - Rings and AlgebrasSettore MAT/02 - Algebra16R10 16W50 16P90Exponential growthRings and Algebras (math.RA)FOS: Mathematicsgraded algebra polynomial identity growth codimensionsMathematics
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Rings with algebraic n-engel elements

1994

(1994). Rings with algebraic n-engel elements. Communications in Algebra: Vol. 22, No. 5, pp. 1685-1701.

Pure mathematicsRing theoryAlgebra and Number TheoryDerived algebraic geometryFunction field of an algebraic varietyScheme (mathematics)Local ringVon Neumann regular ringCommutative algebraAlgebraic numberANÉIS E ÁLGEBRAS ASSOCIATIVOSMathematics
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An uncountable family of almost nilpotent varieties of polynomial growth

2017

A non-nilpotent variety of algebras is almost nilpotent if any proper subvariety is nilpotent. Let the base field be of characteristic zero. It has been shown that for associative or Lie algebras only one such variety exists. Here we present infinite families of such varieties. More precisely we shall prove the existence of 1) a countable family of almost nilpotent varieties of at most linear growth and 2) an uncountable family of almost nilpotent varieties of at most quadratic growth.

Pure mathematicsSecondarySubvarietyUnipotentCentral series01 natural sciencesMathematics::Group TheoryLie algebraFOS: Mathematics0101 mathematicsMathematics::Representation TheoryMathematicsDiscrete mathematicsAlgebra and Number Theory010102 general mathematicsMathematics::Rings and AlgebrasMathematics - Rings and AlgebrasPrimary; Secondary; Algebra and Number Theory010101 applied mathematicsNilpotentSettore MAT/02 - AlgebraRings and Algebras (math.RA)Uncountable setVariety (universal algebra)Nilpotent groupPrimary
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