A finite-dimensional Lie algebra arising from a Nichols algebra of diagonal type (rank 2)

We prove (i) Nichols algebra 𝔅(V) of vector space V is finite dimensional if and only if Nichols braided Lie algebra 𝔏(V) is finite dimensional; (ii) if the rank of connected V is 2 and 𝔅(V) is an arithmetic root system, then 𝔅(V) = F ⊕ 𝔏(V); and (iii) if Δ(𝔅(V)) is an arithmetic root system and there does not exist any m-infinity element with puu ≠ 1 for any u ∈ D(V), then dim (𝔅(V)) = ∞ if and only if there exists V′, which is twisting equivalent to V, such that dim (𝔏-(V′)) = ∞. Furthermore, we give an estimation of dimensions of Nichols Lie algebras and two examples of Lie algebras which do not have maximal solvable ideals.

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Integrable two-dimensional dynamical systems and the characteristic Lie algebras

Proceedings of the Mavlyutov Institute of Mechanics ◽

10.21662/uim2007.1.023 ◽

2007 ◽

Vol 5 ◽

pp. 195-200

Author(s):

A.V. Zhiber ◽

O.S. Kostrigina

Keyword(s):

Dynamical System ◽

Dynamical Systems ◽

Lie Algebra ◽

Lie Algebras ◽

Second Order ◽

System Of Equations ◽

Two Dimensional ◽

Finite Dimensional ◽

Dimensional Dynamical System

In the paper it is shown that the two-dimensional dynamical system of equations is Darboux integrable if and only if its characteristic Lie algebra is finite-dimensional. The class of systems having a full set of fist and second order integrals is described.

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CONSTRUCTIVE NONCOMMMUTATIVE INVARIANT THEORY

Transformation Groups ◽

10.1007/s00031-021-09643-2 ◽

2021 ◽

Author(s):

MÁTYÁS DOMOKOS ◽

VESSELIN DRENSKY

Keyword(s):

Lie Algebra ◽

Associative Algebra ◽

Invariant Theory ◽

Reductive Group ◽

Symmetric Tensor ◽

Free Associative Algebra ◽

Tensor Algebra ◽

Enveloping Algebra ◽

Finite Dimensional ◽

Degree Bounds

AbstractThe problem of finding generators of the subalgebra of invariants under the action of a group of automorphisms of a finite-dimensional Lie algebra on its universal enveloping algebra is reduced to finding homogeneous generators of the same group acting on the symmetric tensor algebra of the Lie algebra. This process is applied to prove a constructive Hilbert–Nagata Theorem (including degree bounds) for the algebra of invariants in a Lie nilpotent relatively free associative algebra endowed with an action induced by a representation of a reductive group.

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PERIODIC AUTOMORPHISMS, COMPATIBLE POISSON BRACKETS, AND GAUDIN SUBALGEBRAS

Transformation Groups ◽

10.1007/s00031-021-09650-3 ◽

2021 ◽

Author(s):

DMITRI I. PANYUSHEV ◽

OKSANA S. YAKIMOVA

Keyword(s):

Poisson Bracket ◽

Lie Algebra ◽

Invariant Theory ◽

Cyclic Permutation ◽

Poisson Brackets ◽

Enveloping Algebra ◽

Order Automorphism ◽

Finite Dimensional ◽

Compatible Poisson Brackets ◽

Commutative Subalgebras

AbstractLet 𝔮 be a finite-dimensional Lie algebra. The symmetric algebra (𝔮) is equipped with the standard Lie–Poisson bracket. In this paper, we elaborate on a surprising observation that one naturally associates the second compatible Poisson bracket on (𝔮) to any finite order automorphism ϑ of 𝔮. We study related Poisson-commutative subalgebras (𝔮; ϑ) of 𝒮(𝔮) and associated Lie algebra contractions of 𝔮. To obtain substantial results, we have to assume that 𝔮 = 𝔤 is semisimple. Then we can use Vinberg’s theory of ϑ-groups and the machinery of Invariant Theory.If 𝔤 = 𝔥⊕⋯⊕𝔥 (sum of k copies), where 𝔥 is simple, and ϑ is the cyclic permutation, then we prove that the corresponding Poisson-commutative subalgebra (𝔮; ϑ) is polynomial and maximal. Furthermore, we quantise this (𝔤; ϑ) using a Gaudin subalgebra in the enveloping algebra 𝒰(𝔤).

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CHARACTER CLUSTERS FOR LIE ALGEBRA MODULES OVER A FIELD OF NONZERO CHARACTERISTIC

Bulletin of the Australian Mathematical Society ◽

10.1017/s0004972713000312 ◽

2013 ◽

Vol 89 (2) ◽

pp. 234-242 ◽

Cited By ~ 1

Author(s):

DONALD W. BARNES

Keyword(s):

Lie Algebra ◽

Saturated Formation ◽

Closed Field ◽

Algebraically Closed Field ◽

Direct Sum ◽

Finite Dimensional ◽

Nonzero Characteristic ◽

Composition Factors

AbstractFor a Lie algebra $L$ over an algebraically closed field $F$ of nonzero characteristic, every finite dimensional $L$-module can be decomposed into a direct sum of submodules such that all composition factors of a summand have the same character. Using the concept of a character cluster, this result is generalised to fields which are not algebraically closed. Also, it is shown that if the soluble Lie algebra $L$ is in the saturated formation $\mathfrak{F}$ and if $V, W$ are irreducible $L$-modules with the same cluster and the $p$-operation vanishes on the centre of the $p$-envelope used, then $V, W$ are either both $\mathfrak{F}$-central or both $\mathfrak{F}$-eccentric. Clusters are used to generalise the construction of induced modules.

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Vector bundles associated to Lie algebras

Journal für die reine und angewandte Mathematik (Crelles Journal) ◽

10.1515/crelle-2014-0007 ◽

2016 ◽

Vol 2016 (716) ◽

Cited By ~ 1

Author(s):

Jon F. Carlson ◽

Eric M. Friedlander ◽

Julia Pevtsova

Keyword(s):

Lie Algebra ◽

Lie Algebras ◽

Vector Bundles ◽

Coherent Sheaves ◽

Restricted Lie Algebra ◽

Finite Dimensional

AbstractWe introduce and investigate a functorial construction which associates coherent sheaves to finite dimensional (restricted) representations of a restricted Lie algebra

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AUTOMORPHISMS OF CERTAIN NILPOTENT LIE ALGEBRAS OVER COMMUTATIVE RINGS

International Journal of Algebra and Computation ◽

10.1142/s021819670700372x ◽

2007 ◽

Vol 17 (03) ◽

pp. 527-555 ◽

Cited By ~ 5

Author(s):

YOU'AN CAO ◽

DEZHI JIANG ◽

JUNYING WANG

Keyword(s):

Automorphism Group ◽

Commutative Ring ◽

Lie Algebra ◽

Lie Algebras ◽

Commutative Rings ◽

Nilpotent Lie Algebras ◽

Simple Lie Algebra ◽

Finite Dimensional ◽

Positive Roots ◽

Nilpotent Subalgebra

Let L be a finite-dimensional complex simple Lie algebra, Lℤ be the ℤ-span of a Chevalley basis of L and LR = R⊗ℤLℤ be a Chevalley algebra of type L over a commutative ring R. Let [Formula: see text] be the nilpotent subalgebra of LR spanned by the root vectors associated with positive roots. The aim of this paper is to determine the automorphism group of [Formula: see text].

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Combinatorial Interpretations for Rank-Two Cluster Algebras of Affine Type

The Electronic Journal of Combinatorics ◽

10.37236/933 ◽

2007 ◽

Vol 14 (1) ◽

Cited By ~ 10

Author(s):

Gregg Musiker ◽

James Propp

Keyword(s):

Lie Algebras ◽

Cluster Algebras ◽

Laurent Polynomials ◽

Finite Dimensional ◽

Combinatorial Interpretations ◽

Rank 2 ◽

The Individual ◽

Affine Type ◽

Positive Integers ◽

Two Parameter

Fomin and Zelevinsky show that a certain two-parameter family of rational recurrence relations, here called the $(b,c)$ family, possesses the Laurentness property: for all $b,c$, each term of the $(b,c)$ sequence can be expressed as a Laurent polynomial in the two initial terms. In the case where the positive integers $b,c$ satisfy $bc < 4$, the recurrence is related to the root systems of finite-dimensional rank $2$ Lie algebras; when $bc>4$, the recurrence is related to Kac-Moody rank $2$ Lie algebras of general type. Here we investigate the borderline cases $bc=4$, corresponding to Kac-Moody Lie algebras of affine type. In these cases, we show that the Laurent polynomials arising from the recurence can be viewed as generating functions that enumerate the perfect matchings of certain graphs. By providing combinatorial interpretations of the individual coefficients of these Laurent polynomials, we establish their positivity.

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Weyl modules and Weyl functors for hyper-map algebras

Journal of Algebra and Its Applications ◽

10.1142/s0219498821400077 ◽

2020 ◽

pp. 2140007

Author(s):

Angelo Bianchi ◽

Samuel Chamberlin

Keyword(s):

Lie Algebra ◽

Finitely Generated ◽

Weyl Modules ◽

Simple Lie Algebra ◽

Finite Dimensional ◽

Universal Properties ◽

Definition Of ◽

Unitary Algebra

We investigate the representations of the hyperalgebras associated to the map algebras [Formula: see text], where [Formula: see text] is any finite-dimensional complex simple Lie algebra and [Formula: see text] is any associative commutative unitary algebra with a multiplicatively closed basis. We consider the natural definition of the local and global Weyl modules, and the Weyl functor for these algebras. Under certain conditions, we prove that these modules satisfy certain universal properties, and we also give conditions for the local or global Weyl modules to be finite-dimensional or finitely generated, respectively.

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A note on the zeroth products of Frenkel–Jing operators

Journal of Algebra and Its Applications ◽

10.1142/s0219498817500530 ◽

2017 ◽

Vol 16 (03) ◽

pp. 1750053 ◽

Cited By ~ 2

Author(s):

Slaven Kožić

Keyword(s):

Lie Algebra ◽

Vertex Operator ◽

Vertex Operator Algebra ◽

Vertex Algebra ◽

Infinite Dimensional ◽

Enveloping Algebra ◽

Highest Weight ◽

Finite Dimensional ◽

Quantum Vertex ◽

Algebra Theory

Let [Formula: see text] be an untwisted affine Kac–Moody Lie algebra. The top of every irreducible highest weight integrable [Formula: see text]-module is the finite-dimensional irreducible [Formula: see text]-module, where the action of the simple Lie algebra [Formula: see text] is given by zeroth products arising from the underlying vertex operator algebra theory. Motivated by this fact, we consider zeroth products of level [Formula: see text] Frenkel–Jing operators corresponding to Drinfeld realization of the quantum affine algebra [Formula: see text]. By applying these products, which originate from the quantum vertex algebra theory developed by Li, on the extension of Koyama vertex operator [Formula: see text], we obtain an infinite-dimensional vector space [Formula: see text]. Next, we introduce an associative algebra [Formula: see text], a certain quantum analogue of the universal enveloping algebra [Formula: see text], and construct some infinite-dimensional [Formula: see text]-modules [Formula: see text] corresponding to the finite-dimensional irreducible [Formula: see text]-modules [Formula: see text]. We show that the space [Formula: see text] carries a structure of an [Formula: see text]-module and, furthermore, we prove that the [Formula: see text]-module [Formula: see text] is isomorphic to the [Formula: see text]-module [Formula: see text].

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