Hopf algebras and skew PBW extensions

Motivated by work of Buch on set-valued tableaux in relation to the K-theory of the Grassmannian, Lam and Pylyavskyy studied six combinatorial Hopf algebras that can be thought of as K-theoretic analogues of the Hopf algebras of symmetric functions, quasisymmetric functions, noncommutative symmetric functions, and of the Malvenuto-Reutenauer Hopf algebra of permutations. They described the bialgebra structure in all cases that were not yet known but left open the question of finding explicit formulas for the antipode maps. We give combinatorial formulas for the antipode map for the K-theoretic analogues of the symmetric functions, quasisymmetric functions, and noncommutative symmetric functions.

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QUANTUM RANDOM WALKS AND TIME REVERSAL

International Journal of Modern Physics A ◽

10.1142/s0217751x93001818 ◽

1993 ◽

Vol 08 (25) ◽

pp. 4521-4545 ◽

Cited By ~ 17

Author(s):

S. MAJID

Keyword(s):

Hopf Algebra ◽

Random Walks ◽

Hopf Algebras ◽

Evolution Operator ◽

Original System ◽

Quantum Random Walks ◽

Quantum Random Walk ◽

Time Evolution Operator ◽

Simple Physical Interpretation ◽

Primitive Notion

Classical random walks and Markov processes are easily described by Hopf algebras. It is also known that groups and Hopf algebras (quantum groups) lead to classical and quantum diffusions. We study here the more primitive notion of a quantum random walk associated with a general Hopf algebra and show that it has a simple physical interpretation in quantum mechanics. This is by means of a representation theorem motivated from the theory of Kac algebras: If H is any Hopf algebra, it may be realized in Lin(H) in such a way that Δh=W(h⊗1)W−1 for an operator W. This W is interpreted as the time evolution operator for the system at time t coupled quantum-mechanically to the system at time t+δ. Finally, for every Hopf algebra there is a dual one, leading us to a duality operation for quantum random walks and quantum diffusions and a notion of the coentropy of an observable. The dual system has its time reversed with respect to the original system, leading us to a novel kind of CTP theorem.

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Gocommutative Hopf Algebras

Canadian Journal of Mathematics ◽

10.4153/cjm-1967-026-x ◽

1967 ◽

Vol 19 ◽

pp. 350-360 ◽

Cited By ~ 10

Author(s):

Richard G. Larson

Keyword(s):

Hopf Algebra ◽

Vector Space ◽

Hopf Algebras ◽

Image Position ◽

Algebra Homomorphisms

A coalgebra over the field F is a vector space A over F, with maps δ: A → A ⊗ A and ∊: A → F such that1and2The notion of coalgebra is dual to the notion of algebra with unit, with δ as coproduct (equation (1) says that δ is associative) and ∊ as the unit map (equation (2) is just the statement that ∊ is a unit for the coproduct δ). If A is also an algebra with unit and δ and ∊ are algebra homomorphisms, A is a Hopf algebra.

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A braided T-category over weak monoidal Hom-Hopf algebras

Journal of Algebra and Its Applications ◽

10.1142/s0219498820501595 ◽

2019 ◽

Vol 19 (08) ◽

pp. 2050159

Author(s):

Guohua Liu ◽

Wei Wang ◽

Shuanhong Wang ◽

Xiaohui Zhang

Keyword(s):

Hopf Algebra ◽

Hopf Algebras ◽

Weak Hopf Algebras ◽

T Category

In this paper, we define and study weak monoidal Hom-Hopf algebras, which generalize both weak Hopf algebras and monoidal Hom-Hopf algebras. Let [Formula: see text] be a weak monoidal Hom-Hopf algebra with bijective antipode and let [Formula: see text] be the set of all automorphisms of [Formula: see text], we introduce a category [Formula: see text] with [Formula: see text] and construct a braided [Formula: see text]-category [Formula: see text] having all the categories [Formula: see text] as components.

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The shuffle Hopf algebra and noncommutative full completeness

Journal of Symbolic Logic ◽

10.2307/2586659 ◽

1998 ◽

Vol 63 (4) ◽

pp. 1413-1436 ◽

Cited By ~ 11

Author(s):

R. F. Blute ◽

P. J. Scott

Keyword(s):

Hopf Algebra ◽

Hopf Algebras ◽

Linear Logic ◽

Natural Extension ◽

Additive Group ◽

Completeness Theorem ◽

Vector Spaces ◽

Invariance Condition ◽

Shuffle Algebra ◽

Topological Vector Spaces

AbstractWe present a full completeness theorem for the multiplicative fragment of a variant of noncommutative linear logic, Yetter's cyclic linear logic (CyLL). The semantics is obtained by interpreting proofs as dinatural transformations on a category of topological vector spaces, these transformations being equivariant under certain actions of a noncocommutative Hopf algebra called the shuffle algebra Multiplicative sequents are assigned a vector space of such dinaturals, and we show that this space has as a basis the denotations of cut-free proofs in CyLL + MIX. This can be viewed as a fully faithful representation of a free *-autonomous category, canonically enriched over vector spaces.This paper is a natural extension of the authors' previous work, “Linear Läuchli Semantics”, where a similar theorem is obtained for the commutative logic MLL + MIX. In that paper, we interpret proofs as dinaturals which are invariant under certain actions of the additive group of integers. Here we also present a simplification of that work by showing that the invariance criterion is actually a consequence of dinaturality. The passage from groups to Hopf algebras in this paper corresponds to the passage from commutative to noncommutative logic. However, in our noncommutative setting, one must still keep the invariance condition on dinaturals.

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Multiplier Hopf algebras: Globalization for partial actions

International Journal of Algebra and Computation ◽

10.1142/s0218196720500101 ◽

2019 ◽

Vol 30 (03) ◽

pp. 539-565

Author(s):

Graziela Fonseca ◽

Eneilson Fontes ◽

Grasiela Martini

Keyword(s):

Hopf Algebra ◽

Hopf Algebras ◽

Action Theory ◽

Natural Extension ◽

Partial Action ◽

Pertinent Question ◽

Multiplier Hopf Algebras ◽

Multiplier Hopf Algebra

In partial action theory, a pertinent question is whenever given a partial action of a Hopf algebra [Formula: see text] on an algebra [Formula: see text], it is possible to construct an enveloping action. The authors Alves and Batista, in [M. Alves and E. Batista, Globalization theorems for partial Hopf (co)actions and some of their applications, groups, algebra and applications, Contemp. Math. 537 (2011) 13–30], have shown that this is always possible if [Formula: see text] is unital. We are interested in investigating the situation, where both algebras [Formula: see text] and [Formula: see text] are not necessarily unitary. A nonunitary natural extension for the concept of Hopf algebras was proposed by Van Daele, in [A. Van Daele, Multiplier Hopf algebras, Trans. Am. Math. Soc. 342 (1994) 917–932], which is called multiplier Hopf algebra. Therefore, we will consider partial actions of multipliers Hopf algebras on algebras with a nondegenerate product and we will present a globalization theorem for this structure. Moreover, Dockuchaev et al. in [Globalizations of partial actions on nonunital rings, Proc. Am. Math. Soc. 135 (2007) 343–352], have shown when group partial actions on nonunitary algebras are globalizable. Based on this paper, we will establish a bijection between globalizable group partial actions and partial actions of a multiplier Hopf algebra.

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A CLASS OF QUASITRIANGULAR GROUP-COGRADED MULTIPLIER HOPF ALGEBRAS

Glasgow Mathematical Journal ◽

10.1017/s0017089518000514 ◽

2018 ◽

Vol 62 (1) ◽

pp. 43-57

Author(s):

TAO YANG ◽

XUAN ZHOU ◽

HAIXING ZHU

Keyword(s):

Hopf Algebra ◽

Hopf Algebras ◽

Finite Dimensional ◽

Special Cases ◽

Multiplier Hopf Algebras ◽

Multiplier Hopf Algebra ◽

Classical Construction

AbstractFor a multiplier Hopf algebra pairing 〈A,B〉, we construct a class of group-cograded multiplier Hopf algebras D(A,B), generalizing the classical construction of finite dimensional Hopf algebras introduced by Panaite and Staic Mihai [Isr. J. Math. 158 (2007), 349–365]. Furthermore, if the multiplier Hopf algebra pairing admits a canonical multiplier in M(B⊗A) we show the existence of quasitriangular structure on D(A,B). As an application, some special cases and examples are provided.

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Ore Extensions of Automorphism Type for Hopf Algebras

Bulletin of the Iranian Mathematical Society ◽

10.1007/s41980-019-00271-x ◽

2019 ◽

Vol 46 (2) ◽

pp. 487-501

Author(s):

Shilin Yang ◽

Yongfeng Zhang

Keyword(s):

Hopf Algebras ◽

Ore Extensions

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Hochschild homology of Hopf algebras and free Yetter–Drinfeld resolutions of the counit

Compositio Mathematica ◽

10.1112/s0010437x12000656 ◽

2012 ◽

Vol 149 (4) ◽

pp. 658-678 ◽

Cited By ~ 7

Author(s):

Julien Bichon

Keyword(s):

Hopf Algebra ◽

Quantum Group ◽

Bilinear Form ◽

Hopf Algebras ◽

Betti Numbers ◽

Free Resolution ◽

Hochschild Homology ◽

Invertible Matrix ◽

Tensor Categories ◽

Orthogonal Case

AbstractWe show that if$A$and$H$are Hopf algebras that have equivalent tensor categories of comodules, then one can transport what we call a free Yetter–Drinfeld resolution of the counit of$A$to the same kind of resolution for the counit of$H$, exhibiting in this way strong links between the Hochschild homologies of$A$and$H$. This enables us to obtain a finite free resolution of the counit of$\mathcal {B}(E)$, the Hopf algebra of the bilinear form associated with an invertible matrix$E$, generalizing an earlier construction of Collins, Härtel and Thom in the orthogonal case$E=I_n$. It follows that$\mathcal {B}(E)$is smooth of dimension 3 and satisfies Poincaré duality. Combining this with results of Vergnioux, it also follows that when$E$is an antisymmetric matrix, the$L^2$-Betti numbers of the associated discrete quantum group all vanish. We also use our resolution to compute the bialgebra cohomology of$\mathcal {B}(E)$in the cosemisimple case.

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