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Duality for Generalised Differentials on Quantum Groups and Hopf quivers

arXiv:1207.7001

Abstract

We study generalised differential structures $Ω^1,d$ on an algebra $A$, where $A\tens A\to Ω^1$ given by $a\tens b\to a d b$ need not be surjective. The finite set case corresponds to quivers with embedded digraphs, the Hopf algebra left covariant case to pairs $(Λ^1,ω)$ where $Λ^1$ is a right module and $ω$ a right module map, and the Hopf algebra bicovariant case corresponds to morphisms $ω:A^+\to Λ^1$ in the category of right crossed (or Drinfeld-Radford-Yetter) modules over $A$. When $A=U(g)$ the generalised left-covariant differential structures are classified by cocycles $ω\in Z^1(g,Λ^1)$. We then introduce and study the dual notion of a codifferential structure $(Ω^1,i)$ on a coalgebra and for Hopf algebras the self-dual notion of a strongly bicovariant differential graded algebra $(Ω,d)$ augmented by a codifferential $i$ of degree -1. Here $Ω$ is a graded super-Hopf algebra extending the Hopf algebra $Ω^0=A$ and, where applicable, the dual super-Hopf algebra gives the same structure on the dual Hopf algebra. We show how to construct such objects from first order data, with both a minimal construction using braided-antisymmetrizes and a maximal one using braided tensor algebras and with dual given via braided-shuffle algebras. The theory is applied to quantum groups with $Ω^1(C_q(G))$ dually paired to $Ω^1(U_q(g))$, and to finite groups in relation to (super) Hopf quivers.

Expanded some results about shuffle algebras and improved structure of the paper, 47 pages Latex, no figures