Boundary Lax pairs from non-ultra-local Poisson algebras

Avan, Jean; Doikou, Anastasia

doi:10.1063/1.3257915

Cited by 11 publications

(10 citation statements)

References 20 publications

Supporting

Mentioning

Contrasting

Unclassified

Order By: Relevance

“…It is shown that the presence of special boundary terms suitably breaks the symmetry of the models under consideration, as also happens in discrete integrable models (see e.g. [5,8,27]).…”

Section: Discussionmentioning

confidence: 98%

“…i,j P 0i P 0j → dx dy P 0 (x)P 0 (y). (7.5) The modified monodromy matrix as well as the B, P matrices may be expressed as The entries T kl of the matrix are the non-local charges, which are realizations of the classical reflection algebra (3.3), (see also [27]). In particular, the continuum non-local charges emerging from (7.4) via (7.5) become: Consider now the continuum expression for T with T given in (5.10), and take into account that for the L-L model…”

Section: Boundary Symmetriesmentioning

confidence: 99%

See 1 more Smart Citation

Generalized Landau–Lifshitz models on the interval

Doikou

Karaiskos

2011

Nuclear Physics B

Self Cite

View full text Add to dashboard Cite

We study the classical generalized gl n Landau-Lifshitz (L-L) model with special boundary conditions that preserve integrability. We explicitly derive the first non-trivial local integral of motion, which corresponds to the boundary Hamiltonian for the sl 2 L-L model. Novel expressions of the modified Lax pairs associated to the integrals of motion are also extracted. The relevant equations of motion with the corresponding boundary conditions are determined. Dynamical integrable boundary conditions are also examined within this spirit. Then the generalized isotropic and anisotropic gl n Landau-Lifshitz models are considered, and novel expressions of the boundary Hamiltonians and the relevant equations of motion and boundary conditions are derived.

show abstract

“…It is shown that the presence of special boundary terms suitably breaks the symmetry of the models under consideration, as also happens in discrete integrable models (see e.g. [5,8,27]).…”

Section: Discussionmentioning

confidence: 98%

Section: Boundary Symmetriesmentioning

confidence: 99%

Generalized Landau–Lifshitz models on the interval

Doikou

Karaiskos

2011

Nuclear Physics B

Self Cite

View full text Add to dashboard Cite

show abstract

“…Now we have to note that another class of Poisson-type algebras similar to the one of graded Poisson algebras of degree z 0 in Definition 1 but replacing the group Z by Z 2 has been considered in the literature. This kind of algebras are known as even and odd Poisson superalgebras, depending on taking degree0 or degree1, being of interest in studying, for instance, two-dimensional supergravity and three-dimensional systems ( [2,11,14,23]). However, as we know, there is not a category in the literature which allows us to combine a graded bracket of degree g 0 ∈ G and a graded commutative associative product via a graded Leibniz identity when the group G is an arbitrary abelian group.…”

Section: Definitionmentioning

confidence: 99%

“…As another example, we note that it is possible to recover Hamiltonian mechanics from the coordinate space of the theory by making use of graded Poisson algebras ( [20]). We can enumerate many more applications (see [2,14,15,18,23]), but we refer to [10] to a good review on this matter. Definition 1.…”

Section: Introductionmentioning

confidence: 99%

Poisson color algebras of arbitrary degree

Martín

Cheikh

2017

Communications in Algebra

View full text Add to dashboard Cite

A Poisson algebra is a Lie algebra endowed with a commutative associative product in such a way that the Lie and associative products are compatible via a Leibniz rule. If we part from a Lie color algebra, instead of a Lie algebra, a graded-commutative associative product and a graded-version Leibniz rule we get a so-called Poisson color algebra (of degree zero). This concept can be extended to any degree so as to obtain the class of Poisson color algebras of arbitrary degree. This class turns out to be a wide class of algebras containing the ones of Lie color algebras (and so Lie superalgebras and Lie algebras), Poisson algebras, graded Poisson algebras, z-Poisson algebras, Gerstenhaber algebras and Schouten algebras among others classes of algebras. The present paper is devoted to the study of the structure of Poisson color algebras of arbitrary degree, with restrictions neither on the dimension nor the base field.

show abstract

“…We also note that the interest on gradings on different classes of algebras has been remarkable in the last years, specially motivated by their applications in physics and geometry, see for instance [5,9,12,13,14,16,21]. Now recall that a Poisson algebra is an associative algebra endowed with a Lie product, denoted by {•, •}, in such a way that the Lie and the associative products are compatible via the Leibniz identity {x, yz} = {x, y}z + y{x, z} for any x, y, z ∈ P (see [1,4,17,18]). Also recall that the context of strong graduation has been extensively considered in the literature (see for instance the text book [20] or the recent reference [15,22,23]).…”

Section: Introduction and Previous Definitionsmentioning

confidence: 99%

Strongly graded Poisson-Hilbert spaces

Martín¹,

Cheikh²

2015

ija

View full text Add to dashboard Cite

Let H be an arbitrary Hilbert space endowed with an associative continuous product which induces a grading on H with respect to an abelian group G. If H is also endowed with a continuous Lie product compatible with the associative product, via a Leibniz identity, and with the grading in a strong way we are dealing with a strongly graded Poisson-Hilbert space. We focuss on the structure of this category of spaces by showing that if H is a strongly graded Poisson-Hilbert space with zero annihilator, of maximal length and with a coherent 1-homogeneous space, then H can be written as the orthogonal direct sum of closed ideals, each one being a simple strongly graded Poisson-Hilbert space.

show abstract

Boundary Lax pairs from non-ultra-local Poisson algebras

Cited by 11 publications

References 20 publications

Generalized Landau–Lifshitz models on the interval

Generalized Landau–Lifshitz models on the interval

Poisson color algebras of arbitrary degree

Strongly graded Poisson-Hilbert spaces

Contact Info

Product

Resources

About