The q-deformed Poisson bracket, Levi-Civita symbol and Poincare algebra

Abstract We study the current algebras of the NS5-branes, the Kaluza-Klein (KK) five-branes and the exotic $$ {5}_2^2 $$ 5 2 2 -branes in type IIA/IIB superstring theories. Their worldvolume theories are governed by the six-dimensional $$ \mathcal{N} $$ N = (2, 0) tensor and the $$ \mathcal{N} $$ N = (1, 1) vector multiplets. We show that the current algebras are determined through the S- and T-dualities. The algebras of the $$ \mathcal{N} $$ N = (2, 0) theories are characterized by the Dirac bracket caused by the self-dual gauge field in the five-brane worldvolumes, while those of the $$ \mathcal{N} $$ N = (1, 1) theories are given by the Poisson bracket. By the use of these algebras, we examine extended spaces in terms of tensor coordinates which are the representation of ten-dimensional supersymmetry. We also examine the transition rules of the currents in the type IIA/IIB supersymmetry algebras in ten dimensions. Based on the algebras, we write down the section conditions in the extended spaces and gauge transformations of the supergravity fields.

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Colourful Poincaré symmetry, gravity and particle actions

Journal of High Energy Physics ◽

10.1007/jhep08(2021)047 ◽

2021 ◽

Vol 2021 (8) ◽

Author(s):

Joaquim Gomis ◽

Euihun Joung ◽

Axel Kleinschmidt ◽

Karapet Mkrtchyan

Keyword(s):

Field Theory ◽

Free Particle ◽

Three Dimensional ◽

Background Field ◽

Quantum Field ◽

Symmetry Factor ◽

Starting Point ◽

Poincaré Algebra ◽

Poincaré Symmetry ◽

Three Space

Abstract We construct a generalisation of the three-dimensional Poincaré algebra that also includes a colour symmetry factor. This algebra can be used to define coloured Poincaré gravity in three space-time dimensions as well as to study generalisations of massive and massless free particle models. We present various such generalised particle models that differ in which orbits of the coloured Poincaré symmetry are described. Our approach can be seen as a stepping stone towards the description of particles interacting with a non-abelian background field or as a starting point for a worldline formulation of an associated quantum field theory.

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Two-oscillator mapping modification of the Poisson bracket mapping equation formulation of the quantum–classical Liouville equation

The Journal of Chemical Physics ◽

10.1063/5.0027799 ◽

2020 ◽

Vol 153 (21) ◽

pp. 214103

Author(s):

Hyun Woo Kim ◽

Young Min Rhee

Keyword(s):

Poisson Bracket ◽

Liouville Equation ◽

Equation Formulation ◽

Mapping Equation

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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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REDUCTION OF TODA LATTICE HIERARCHY TO GENERALIZED KdV HIERARCHIES AND THE TWO-MATRIX MODEL

International Journal of Modern Physics A ◽

10.1142/s0217751x95001212 ◽

1995 ◽

Vol 10 (17) ◽

pp. 2537-2577 ◽

Cited By ~ 12

Author(s):

H. ARATYN ◽

E. NISSIMOV ◽

S. PACHEVA ◽

A.H. ZIMERMAN

Keyword(s):

Poisson Bracket ◽

Hamiltonian Structure ◽

Toda Lattice ◽

Free Field ◽

String Model ◽

Matrix Formulation ◽

Hamiltonian Action ◽

Kdv Hierarchy ◽

Associated Matrix ◽

Toda Lattice Hierarchy

Toda lattice hierarchy and the associated matrix formulation of the 2M-boson KP hierarchies provide a framework for the Drinfeld-Sokolov reduction scheme realized through Hamiltonian action within the second KP Poisson bracket. By working with free currents, which Abelianize the second KP Hamiltonian structure, we are able to obtain a unified formalism for the reduced SL (M+1, M−k) KdV hierarchies interpolating between the ordinary KP and KdV hierarchies. The corresponding Lax operators are given as superdeterminants of graded SL (M+1, M−k) matrices in the diagonal gauge and we describe their bracket structure and field content. In particular, we provide explicit free field representations of the associated W(M, M−k) Poisson bracket algebras generalizing the familiar nonlinear WM+1 algebra. Discrete Bäcklund transformations for SL (M+1, M−k) KdV are generated naturally from lattice translations in the underlying Toda-like hierarchy. As an application we demonstrate the equivalence of the two-matrix string model to the SL (M+1, 1) KdV hierarchy.

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Derivations of the Lie algebra of polynomials under Poisson bracket.

Proceedings of the American Mathematical Society ◽

10.1090/s0002-9939-1969-0233938-1 ◽

1969 ◽

Vol 20 (2) ◽

pp. 315-315

Author(s):

L. S. Wollenberg

Keyword(s):

Poisson Bracket ◽

Lie Algebra

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A note on the algebra of Poisson brackets

Mathematical Proceedings of the Cambridge Philosophical Society ◽

10.1017/s0305004100061922 ◽

1984 ◽

Vol 96 (1) ◽

pp. 45-60 ◽

Cited By ~ 2

Author(s):

C. J. Atkin

Keyword(s):

Poisson Bracket ◽

Lie Algebra ◽

Lie Algebras ◽

Symplectic Manifold ◽

Vector Fields ◽

Poisson Brackets ◽

Infinite Dimensional

In a long sequence of notes in the Comptes Rendus and elsewhere, and in the papers [1], [2], [3], [6], [7], Lichnerowicz and his collaborators have studied the ‘classical infinite-dimensional Lie algebras’, their derivations, automorphisms, co-homology, and other properties. The most familiar of these algebras is the Lie algebra of C∞ vector fields on a C∞ manifold. Another is the Lie algebra of ‘Poisson brackets’, that is, of C∞ functions on a C∞ symplectic manifold, with the Poisson bracket as composition; some questions concerning this algebra are of considerable interest in the theory of quantization – see, for instance, [2] and [3].

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