Quantum (dual) Grassmann superalgebra as Uq(gl(m|n))-module algebra and beyond

Abstract

We introduce and define the quantum affine (m|n)-superspace (or say quantum Manin superspace) Aqm|n and its dual object, the quantum Grassmann superalgebra q(m|n). Correspondingly, a quantum Weyl algebra Wq(2(m|n)) of (m|n)-type is introduced as the quantum differential operators (QDO for short) algebra Diffq(q) defined over q(m|n), which is a smash product of the quantum differential Hopf algebra Dq(m|n) (isomorphic to the bosonization of the quantum Manin superspace) and the quantum Grassmann superalgebra q(m|n). An interested point of this approach here is that even though Wq(2(m|n)) itself is in general no longer a Hopf algebra, so are some interesting sub-quotients existed inside. This point of view gives us one of main expected results, that is, the quantum (restricted) Grassmann superalgebra q is made into the Uq( g)-module (super)algebra structure,q=q(m|n) for q generic, or q(m|n, 1) for q root of unity, and g=gl(m|n) or sl(m|n), the general or special linear Lie superalgebra. This QDO approach provides us with explicit realization models for some simple Uq( g)-modules, together with the concrete information on their dimensions. Similar results hold for the quantum dual Grassmann superalgebra q! as Uq( g)-module algebra.In the paper some examples of pointed Hopf algebras can arise from the QDOs, whose idea is an expansion of the spirit noted by Manin in Ma, \& Ma1.