Search results for "Associative Algebra"

showing 10 items of 35 documents

Algebra Structures on Hom(C,L)

1999

info:eu-repo/semantics/published

High Energy Physics - TheoryNon-associative algebraFOS: Physical sciencesUniversal enveloping algebra01 natural sciencesGraded Lie algebraMathematics::K-Theory and HomologyMathematics::Category TheoryMathematics::Quantum Algebra0103 physical sciencesMathematics - Quantum AlgebraFOS: MathematicsQuantum Algebra (math.QA)0101 mathematicsMathematicsAlgebra and Number TheoryQuantum groupPhysique010102 general mathematicsSubalgebraMathematics::Rings and AlgebrasLie conformal algebraAlgebraLie coalgebraHigh Energy Physics - Theory (hep-th)Algebra representation010307 mathematical physics
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Some characterizations of algebras with involution with polynomial growth of their codimensions

2018

Let A be an associative algebra endowed with an involution ∗ of the first kind and let c ∗n (A) denote the sequence of ∗-codimensions of A. In this paper, we are interested in algebras with involution such that the ∗-codimension sequence is polynomially bounded. We shall prove that A is of this kind if and only if it satisfies the same identities of a finite direct sum of finite dimensional algebras with involution A i , each of which with Jacobson radical of codimension less than or equal to one in A i . We shall also relate the condition of having polynomial codimension growth with the sequence of cocharacters and with the sequence of colengths. Along the way, we shall show that the multi…

Involution (mathematics)polynomial growthAlgebra and Number Theory16R50010102 general mathematicsSecondary: 16R10010103 numerical & computational mathematics01 natural sciencesPolynomial identitiesCombinatoricsPrimary: 16W10Polynomial identitieAssociative algebraAlgebras with involution0101 mathematics16R50; algebras with involution; polynomial growth; Polynomial identities; Primary: 16W10; Secondary: 16R10Mathematics
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Lattices of Jordan algebras

2010

AbstractCommutative Jordan algebras play a central part in orthogonal models. The generations of these algebras is studied and applied in deriving lattices of such algebras. These lattices constitute the natural framework for deriving new orthogonal models through factor aggregation and disaggregation.

Kronecker productNumerical AnalysisPure mathematicsProjectorsAlgebra and Number TheoryJordan algebraNon-associative algebraBinary operationsLatticeAlgebrasymbols.namesakeBinary operationCommutative Jordan algebraLattice (order)Kronecker matrix productsymbolsDiscrete Mathematics and CombinatoricsGeometry and TopologyNest algebraCommutative algebraCommutative propertyMathematicsLinear Algebra and its Applications
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Codimension growth of two-dimensional algebras

2007

Let F be a field of characteristic zero and let A be a two-dimensional non-associative algebra over F. We prove that the sequence c_n(A), n=1, 2, . . . , of codimensions of A is either bounded by n + 1 or grows exponentially as 2^n. We also construct a family of two-dimensional algebras indexed by rational numbers with distinct T-ideals of polynomial identities and whose codimension sequence is n + 1, n ≥ 2.

Nonassociative algebra
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Linear Methods in Nilpotent Groups

1982

The subject of this chapter is commutator calculation. It will be recalled that the commutator [x, y] of two elements x, y of a group is defined by the relation $$ [x,y] = {{x}^{{ - 1}}}{{y}^{{ - 1}}}xy. $$ . We then have $$ [xy,z] = {{[x,z]}^{y}}[y,z],\quad [x,yz] = [x,z]{{[x,y]}^{z}}. $$ . These relations are rather similar to the conditions for bilinearity of forms, and there are a number of ways of formalizing this similarity. Once this is done, commutator calculations can be done by linear methods. Several examples of theorems proved by this method will be given in this chapter.

PhysicsDiscrete mathematicsNilpotentGroup (mathematics)lawAssociative algebraCommutator (electric)UnipotentNilpotent groupCentral seriesLinear methodslaw.invention
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On Codimensions of Algebras with Involution

2020

Let A be an associative algebra with involution ∗ over a field F of characteristic zero. One associates to A, in a natural way, a numerical sequence \(c^{\ast }_n(A),\)n = 1, 2, …, called the sequence of ∗-codimensions of A which is the main tool for the quantitative investigation of the polynomial identities satisfied by A. In this paper we focus our attention on \(c^{\ast }_n(A),\)n = 1, 2, …, by presenting some recent results about it.

Polynomial (hyperelastic model)CombinatoricsSequenceSettore MAT/02 - Algebra*-identitiesAssociative algebraZero (complex analysis)Involution (philosophy)Field (mathematics)*-codimensionsGrowthMathematics
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AUTOMORPHISMS OF THE ENDOMORPHISM SEMIGROUP OF A FREE ASSOCIATIVE ALGEBRA

2007

Let [Formula: see text] be the variety of associative algebras over a field K and A = K 〈x1,…, xn〉 be a free associative algebra in the variety [Formula: see text] freely generated by a set X = {x1,…, xn}, End A the semigroup of endomorphisms of A, and Aut End A the group of automorphisms of the semigroup End A. We prove that the group Aut End A is generated by semi-inner and mirror automorphisms of End A. A similar result is obtained for the automorphism group Aut [Formula: see text], where [Formula: see text] is the subcategory of finitely generated free algebras of the variety [Formula: see text]. The later result solves Problem 3.9 formulated in [17].

Pure mathematicsEndomorphismGroup (mathematics)SemigroupGeneral MathematicsFree algebraAssociative algebraField (mathematics)Variety (universal algebra)AutomorphismMathematicsInternational Journal of Algebra and Computation
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C*-seminorms on partial *-algebras: an overview

2005

Pure mathematicsInterior algebraNon-associative algebraNest algebraAlgorithmCCR and CAR algebrasMathematicsTopological Algebras, their Applications, and Related Topics
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Cohomology and Deformation of Leibniz Pairs

1995

Cohomology and deformation theories are developed for Poisson algebras starting with the more general concept of a Leibniz pair, namely of an associative algebra $A$ together with a Lie algebra $L$ mapped into the derivations of $A$. A bicomplex (with both Hochschild and Chevalley-Eilenberg cohomologies) is essential.

Pure mathematicsMathematics::Rings and AlgebrasStatistical and Nonlinear PhysicsDeformation (meteorology)Poisson distributionMathematics::Algebraic TopologyCohomologysymbols.namesakeMathematics::K-Theory and HomologyLie algebraAssociative algebraMathematics - Quantum AlgebrasymbolsFOS: MathematicsQuantum Algebra (math.QA)Mathematical PhysicsMathematics
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On a possible origin of quantum groups

1991

A Poisson bracket structure having the commutation relations of the quantum group SLq(2) is quantized by means of the Moyal star-product on C∞(ℝ2), showing that quantum groups are not exactly quantizations, but require a quantization (with another parameter) in the background. The resulting associative algebra is a strongly invariant nonlinear star-product realization of the q-algebra Uq(sl(2)). The principle of strong invariance (the requirement that the star-commutator is star-expressed, up to a phase, by the same function as its classical limit) implies essentially the uniqueness of the commutation relations of Uq(sl(2)).

Quantization (physics)Poisson bracketQuantum groupQuantum mechanicsAssociative algebraStatistical and Nonlinear PhysicsUniquenessInvariant (physics)QuantumMathematical PhysicsClassical limitMathematical physicsMathematicsLetters in Mathematical Physics
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