Compatible Poisson Structures and bi-Hamiltonian Systems Related to Low-dimensional Lie Algebras

We present a new look at the classification of real low-dimensional Lie algebras based on the notion of a linear bundle of Lie algebras. Belonging to a suitable family of Lie bundles entails the compatibility of the Lie–Poisson structures with the dual spaces of those algebras. This gives compatibility of bi-Hamiltonian structure on the space of upper triangular matrices and with a bundle at the algebra level. We will show that all three-dimensional Lie algebras belong to two of these families and four-dimensional Lie algebras can be divided in three of these families.

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Semi-invariants of low-dimensional Lie algebras

Communications in Algebra ◽

10.1080/00927872.2020.1861619 ◽

2020 ◽

pp. 1-11

Author(s):

M. A. Alvarez ◽

G. Salgado

Keyword(s):

Lie Algebras ◽

Low Dimensional

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Applications of Nijenhuis geometry: non-degenerate singular points of Poisson–Nijenhuis structures

European Journal of Mathematics ◽

10.1007/s40879-020-00429-6 ◽

2021 ◽

Author(s):

Alexey V. Bolsinov ◽

Andrey Yu. Konyaev ◽

Vladimir S. Matveev

Keyword(s):

Singular Points ◽

Recursion Operator ◽

Poisson Structures ◽

Degeneracy Condition ◽

Compatible Poisson Structures

AbstractWe study and completely describe pairs of compatible Poisson structures near singular points of the recursion operator satisfying natural non-degeneracy condition.

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Nilpotent Orbits in Simple Lie Algebras and their Transverse Poisson Structures

10.1063/1.2958166 ◽

2008 ◽

Author(s):

P. A. Damianou ◽

H. Sabourin ◽

P. Vanhaecke ◽

Rui Loja Fernandes ◽

Roger Picken

Keyword(s):

Lie Algebras ◽

Poisson Structures ◽

Nilpotent Orbits ◽

Simple Lie Algebras

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KONTSEVICH'S UNIVERSAL FORMULA FOR DEFORMATION QUANTIZATION AND THE CAMPBELL–BAKER–HAUSDORFF FORMULA

International Journal of Mathematics ◽

10.1142/s0129167x0000026x ◽

2000 ◽

Vol 11 (04) ◽

pp. 523-551 ◽

Cited By ~ 26

Author(s):

VINAY KATHOTIA

Keyword(s):

Lie Algebras ◽

Deformation Quantization ◽

Differential Operators ◽

Main Tool ◽

Graphical Analysis ◽

Poisson Structures ◽

Nilpotent Lie Algebras ◽

Enveloping Algebra ◽

Universal Formula ◽

The Given

We relate a universal formula for the deformation quantization of Poisson structures (⋆-products) on ℝd proposed by Maxim Kontsevich to the Campbell–Baker–Hausdorff (CBH) formula. We show that Kontsevich's formula can be viewed as exp (P) where P is a bi-differential operator that is a deformation of the given Poisson structure. For linear Poisson structures (duals of Lie algebras) his product takes the form exp (C+L) where exp (C) is the ⋆-product given by the universal enveloping algebra via symmetrization, essentially the CBH formula. This is established by showing that the two products are identical on duals of nilpotent Lie algebras where the operator L vanishes. This completely determines part of Kontsevich's formula and leads to a new scheme for computing the CBH formula. The main tool is a graphical analysis for bi-differential operators and the computation of certain iterated integrals that yield the Bernoulli numbers.

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Generating Function Methods for Coefficient-Varying Generalized Hamiltonian Systems

Advances in Applied Mathematics and Mechanics ◽

10.4208/aamm.12-m12112 ◽

2014 ◽

Vol 6 (01) ◽

pp. 87-106

Author(s):

Xueyang Li ◽

Aiguo Xiao ◽

Dongling Wang

Keyword(s):

Dynamical Systems ◽

Hamiltonian Systems ◽

Generating Function ◽

Poisson Structure ◽

Poisson Structures ◽

Volterra Systems

AbstractThe generating function methods have been applied successfully to generalized Hamiltonian systems with constant or invertible Poisson-structure matrices. In this paper, we extend these results and present the generating function methods preserving the Poisson structures for generalized Hamiltonian systems with general variable Poisson-structure matrices. In particular, some obtained Poisson schemes are applied efficiently to some dynamical systems which can be written into generalized Hamiltonian systems (such as generalized Lotka-Volterra systems, Robbins equations and so on).

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Almost inner derivations of Lie algebras

Journal of Algebra and Its Applications ◽

10.1142/s0219498818502146 ◽

2018 ◽

Vol 17 (11) ◽

pp. 1850214

Author(s):

Dietrich Burde ◽

Karel Dekimpe ◽

Bert Verbeke

Keyword(s):

Lie Algebras ◽

The Other ◽

Large Space ◽

Nilpotent Lie Algebras ◽

Other Hand ◽

Low Dimensional ◽

Fixed Basis ◽

Basis Vectors

We study almost inner derivations of Lie algebras, which were introduced by Gordon and Wilson in their work on isospectral deformations of compact solvmanifolds. We compute all almost inner derivations for low-dimensional Lie algebras, and introduce the concept of fixed basis vectors for proving that all almost inner derivations are inner for [Formula: see text]-step nilpotent Lie algebras determined by graphs, free [Formula: see text] and [Formula: see text]-step nilpotent Lie algebras, free metabelian nilpotent Lie algebras on two generators, almost abelian Lie algebras and triangular Lie algebras. On the other hand, we also exhibit families of nilpotent Lie algebras having an arbitrary large space of non-inner almost inner derivations.

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