Boundary-layer thickness: Difference between revisions

Revision as of 14:36, 7 January 2014

A quasi-Hopf algebra is a generalization of a Hopf algebra, which was defined by the Russian mathematician Vladimir Drinfeld in 1989.

A quasi-Hopf algebra is a quasi-bialgebra $B_{𝒜} = (𝒜, Δ, ε, Φ)$ for which there exist $α, β \in 𝒜$ and a bijective antihomomorphism S (antipode) of $𝒜$ such that

\sum_{i} S (b_{i}) α c_{i} = ε (a) α

\sum_{i} b_{i} β S (c_{i}) = ε (a) β

for all $a \in 𝒜$ and where

Δ (a) = \sum_{i} b_{i} \otimes c_{i}

and

\sum_{i} X_{i} β S (Y_{i}) α Z_{i} = 𝕀,

\sum_{j} S (P_{j}) α Q_{j} β S (R_{j}) = 𝕀 .

where the expansions for the quantities $Φ$ and $Φ^{- 1}$ are given by

Φ = \sum_{i} X_{i} \otimes Y_{i} \otimes Z_{i}

and

Φ^{- 1} = \sum_{j} P_{j} \otimes Q_{j} \otimes R_{j} .

As for a quasi-bialgebra, the property of being quasi-Hopf is preserved under twisting.

Usage

Quasi-Hopf algebras form the basis of the study of Drinfeld twists and the representations in terms of F-matrices associated with finite-dimensional irreducible representations of quantum affine algebra. F-matrices can be used to factorize the corresponding R-matrix. This leads to applications in Statistical mechanics, as quantum affine algebras, and their representations give rise to solutions of the Yang-Baxter equation, a solvability condition for various statistical models, allowing characteristics of the model to be deduced from its corresponding quantum affine algebra. The study of F-matrices has been applied to models such as the Heisenberg XXZ model in the framework of the algebraic Bethe ansatz. It provides a framework for solving two-dimensional integrable models by using the Quantum inverse scattering method.

References

Vladimir Drinfeld, Quasi-Hopf algebras, Leningrad Math J. 1 (1989), 1419-1457
J.M. Maillet and J. Sanchez de Santos, Drinfeld Twists and Algebraic Bethe Ansatz, Amer. Math. Soc. Transl. (2) Vol. 201, 2000

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+A '''quasi-Hopf algebra''' is a generalization of a [[Hopf algebra]], which was defined by the [[Russia]]n mathematician [[Vladimir Drinfeld]] in 1989.
+A ''quasi-Hopf algebra'' is a [[quasi-bialgebra]] <math>\mathcal{B_A} = (\mathcal{A}, \Delta, \varepsilon, \Phi)</math>for which there exist <math>\alpha, \beta \in \mathcal{A}</math> and a [[bijection|bijective]] [[antihomomorphism]] ''S'' ([[Antipode_(algebra)|antipode]]) of <math>\mathcal{A}</math> such that
+: <math>\sum_i S(b_i) \alpha c_i = \varepsilon(a) \alpha</math>
+: <math>\sum_i b_i \beta S(c_i) = \varepsilon(a) \beta</math>
+for all <math>a \in \mathcal{A}</math> and where
+:<math>\Delta(a) = \sum_i b_i \otimes c_i</math>
+and
+:<math>\sum_i X_i \beta S(Y_i) \alpha Z_i = \mathbb{I},</math>
+:<math>\sum_j S(P_j) \alpha Q_j \beta S(R_j) = \mathbb{I}.</math>
+where the expansions for the quantities <math>\Phi</math>and <math>\Phi^{-1}</math> are given by
+:<math>\Phi = \sum_i X_i \otimes Y_i \otimes Z_i </math>
+and
+:<math>\Phi^{-1}= \sum_j P_j \otimes Q_j \otimes R_j. </math>
+As for a [[quasi-bialgebra]], the property of being quasi-Hopf is preserved under [[quasi-bialgebra#Twisting|twisting]].
+== Usage ==
+Quasi-Hopf algebras form the basis of the study of [[Drinfeld twist]]s and the representations in terms of [[F-matrix|F-matrices]] associated with finite-dimensional irreducible [[representation theory|representations]] of [[quantum affine algebras|quantum affine algebra]]. F-matrices can be used to factorize the corresponding [[R-matrix]]. This leads to applications in [[Statistical mechanics]], as quantum affine algebras, and their representations give rise to solutions of the [[Yang-Baxter equation]], a solvability condition for various statistical models, allowing characteristics of the model to be deduced from its corresponding [[quantum affine algebras|quantum affine algebra]]. The study of F-matrices has been applied to models such as the [[Heisenberg XXZ model]] in the framework of the algebraic [[Bethe ansatz]]. It provides a framework for solving two-dimensional [[integrable model]]s by using the [[Quantum inverse scattering method]].
+==See also==
+* [[Quasitriangular Hopf algebra]]
+* [[Quasi-triangular Quasi-Hopf algebra]]
+* [[Ribbon Hopf algebra]]
+== References ==
+* [[Vladimir Drinfeld]], ''Quasi-Hopf algebras'', Leningrad Math J. 1 (1989), 1419-1457
+* J.M. Maillet and J. Sanchez de Santos, ''Drinfeld Twists and Algebraic Bethe Ansatz'', Amer. Math. Soc. Transl. (2) Vol. '''201''', 2000
+[[Category:Coalgebras]]

Boundary-layer thickness: Difference between revisions

Revision as of 14:36, 7 January 2014

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