Search results for "Codimension"

showing 10 items of 112 documents

On Codimension Growth of Finitely Generated Associative Algebras

1998

Abstract LetAbe a PI-algebra over a fieldF. We study the asymptotic behavior of the sequence of codimensionscn(A) ofA. We show that ifAis finitely generated overFthenInv(A)=limn→∞ c n (A) always exists and is an integer. We also obtain the following characterization of simple algebras:Ais finite dimensional central simple overFif and only ifInv(A)=dim=A.

Discrete mathematicsMathematics(all)SequencePure mathematicsIntegerSimple (abstract algebra)General MathematicsCodimensionFinitely-generated abelian groupCharacterization (mathematics)Associative propertyMathematicsAdvances in Mathematics

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Polynomial codimension growth and the Specht problem

2017

Abstract We construct a continuous family of algebras over a field of characteristic zero with slow codimension growth bounded by a polynomial of degree 4. This is achieved by building, for any real number α ∈ ( 0 , 1 ) a commutative nonassociative algebra A α whose codimension sequence c n ( A α ) , n = 1 , 2 , … , is polynomially bounded and lim ⁡ log n ⁡ c n ( A α ) = 3 + α . As an application we are able to construct a new example of a variety with an infinite basis of identities.

Discrete mathematicsPolynomialAlgebra and Number TheoryDegree (graph theory)Polynomial identity Codimension Growth010102 general mathematicsZero (complex analysis)Field (mathematics)Basis (universal algebra)Codimension01 natural sciences010101 applied mathematicsSettore MAT/02 - AlgebraBounded function0101 mathematicsVariety (universal algebra)Mathematics

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Standard polynomials are characterized by their degree and exponent

2011

Abstract By the Giambruno–Zaicev theorem (Giambruno and Zaicev, 1999) [5] , the exponent exp ( A ) of a p.i. algebra A exists, and is always an integer. In Berele and Regev (2001) [2] it was shown that the exponent exp ( St n ) of the standard polynomial St n of degree n is not smaller than the exponent of any polynomial of degree n. Here it is proved that exp ( St n ) is strictly larger than the exponent of any other polynomial of degree n which is not a multiple of St n .

Discrete mathematicsPolynomialAlgebra and Number TheoryQuantitative Biology::Neurons and CognitionDegree (graph theory)ExponentPolynomial identityCodimensionsCombinatoricsIntegerExponentDegree of a polynomialAlgebra over a fieldPolynomial identity Exponent CodimensionsMathematics

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Polynomial identities on superalgebras: Classifying linear growth

2006

Abstract We classify, up to PI-equivalence, the superalgebras over a field of characteristic zero whose sequence of codimensions is linearly bounded. As a consequence we determine the linear functions describing the graded codimensions of a superalgebra.

Discrete mathematicsPolynomialPure mathematicsSequenceAlgebra and Number TheoryMathematics::Commutative AlgebraMathematics::Rings and AlgebrasZero (complex analysis)Field (mathematics)graded polynomial identity T_2-ideal graded codimensionsSuperalgebraSettore MAT/02 - AlgebraMathematics::Quantum AlgebraBounded functionMathematics::Representation TheoryLinear growthMathematicsJournal of Pure and Applied Algebra

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Codimension and colength sequences of algebras and growth phenomena

2015

We consider non necessarily associative algebras over a field of characteristic zero and their polynomial identities. Here we describe some of the results obtained in recent years on the sequence of codimensions and the sequence of colengths of an algebra.

Discrete mathematicsPolynomialPure mathematicsSequenceMathematics::Commutative AlgebraGeneral Mathematics010102 general mathematicsZero (complex analysis)Field (mathematics)Codimension01 natural sciences010101 applied mathematicsSettore MAT/02 - AlgebraComputational Theory and Mathematics0101 mathematicsStatistics Probability and UncertaintyVariety (universal algebra)Algebra over a fieldPolynomial identities Variety Almost nilpotent Codimension.Associative propertyMathematicsSão Paulo Journal of Mathematical Sciences

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On algebras of polynomial codimension growth

2016

Let A be an associative algebra over a field F of characteristic zero and let $$c_n(A), n=1, 2, \ldots $$ , be the sequence of codimensions of A. It is well-known that $$c_n(A), n=1, 2, \ldots $$ , cannot have intermediate growth, i.e., either is polynomially bounded or grows exponentially. Here we present some results on algebras whose sequence of codimensions is polynomially bounded.

Discrete mathematicsPolynomialSequenceMathematics::Commutative AlgebraGeneral Mathematics010102 general mathematicsZero (complex analysis)Field (mathematics)Codimension01 natural sciencesSettore MAT/02 - AlgebraComputational Theory and MathematicsBounded function0103 physical sciencesAssociative algebraPolynomial identities Codimensions Codimension growth010307 mathematical physics0101 mathematicsStatistics Probability and UncertaintyMathematicsSão Paulo Journal of Mathematical Sciences

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Star-polynomial identities: computing the exponential growth of the codimensions

2017

Abstract Can one compute the exponential rate of growth of the ⁎-codimensions of a PI-algebra with involution ⁎ over a field of characteristic zero? It was shown in [2] that any such algebra A has the same ⁎-identities as the Grassmann envelope of a finite dimensional superalgebra with superinvolution B. Here, by exploiting this result we are able to provide an exact estimate of the exponential rate of growth e x p ⁎ ( A ) of any PI-algebra A with involution. It turns out that e x p ⁎ ( A ) is an integer and, in case the base field is algebraically closed, it coincides with the dimension of an admissible subalgebra of maximal dimension of B.

Discrete mathematicsPure mathematicsAlgebra and Number Theory010102 general mathematicsSubalgebra010103 numerical & computational mathematicsBase field01 natural sciencesSuperalgebraExponential functionSettore MAT/02 - AlgebraExponential growthSuperinvolutionPolynomial identity Involution Superinvolution Codimensions0101 mathematicsAlgebraically closed fieldANÉIS E ÁLGEBRAS ASSOCIATIVOSMathematicsRate of growth

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Polynomial codimension growth of algebras with involutions and superinvolutions

2017

Abstract Let A be an associative algebra over a field F of characteristic zero endowed with a graded involution or a superinvolution ⁎ and let c n ⁎ ( A ) be its sequence of ⁎-codimensions. In [4] , [12] it was proved that if A is finite dimensional such sequence is polynomially bounded if and only if A generates a variety not containing a finite number of ⁎-algebras: the group algebra of Z 2 and a 4-dimensional subalgebra of the 4 × 4 upper triangular matrices with suitable graded involutions or superinvolutions. In this paper we focus our attention on such algebras since they are the only finite dimensional ⁎-algebras, up to T 2 ⁎ -equivalence, generating varieties of almost polynomial gr…

Discrete mathematicsPure mathematicsAlgebra and Number TheorySubvarietySuperinvolution010102 general mathematicsSubalgebraGraded involution; Growth; Polynomial identity; SuperinvolutionTriangular matrix010103 numerical & computational mathematicsGroup algebraCodimensionPolynomial identity Graded involution Superinvolution GrowthGrowthPolynomial identity01 natural sciencesGraded involutionSettore MAT/02 - AlgebraBounded functionAssociative algebra0101 mathematicsFinite setMathematics

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Codimension growth and minimal superalgebras

2003

A celebrated theorem of Kemer (1978) states that any algebra satisfying a polynomial identity over a field of characteristic zero is PI-equivalent to the Grassmann envelope G(A) of a finite dimensional superalgebra A. In this paper, by exploiting the basic properties of the exponent of a PI-algebra proved by Giambruno and Zaicev (1999), we define and classify the minimal superalgebras of a given exponent over a field of characteristic zero. In particular we prove that these algebras can be realized as block-triangular matrix algebras over the base field. The importance of such algebras is readily proved: A is a minimal superalgebra if and only if the ideal of identities of G(A) is a product…

Discrete mathematicsPure mathematicsApplied MathematicsGeneral MathematicsAssociative algebraZero (complex analysis)ExponentField (mathematics)CodimensionIdeal (ring theory)Variety (universal algebra)SuperalgebraMathematicsTransactions of the American Mathematical Society

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Algebras with involution with linear codimension growth

2006

AbstractWe study the ∗-varieties of associative algebras with involution over a field of characteristic zero which are generated by a finite-dimensional algebra. In this setting we give a list of algebras classifying all such ∗-varieties whose sequence of ∗-codimensions is linearly bounded. Moreover, we exhibit a finite list of algebras to be excluded from the ∗-varieties with such property. As a consequence, we find all possible linearly bounded ∗-codimension sequences.

Discrete mathematicsPure mathematicsJordan algebraAlgebra and Number TheoryNon-associative algebraSubalgebraQuadratic algebra∗-CodimensionsSettore MAT/02 - AlgebraInterior algebra*-polynomial identity T*-ideal *-codimensions.∗-Polynomial identityT∗-idealDivision algebraAlgebra representationNest algebraMathematics

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