Invariants and representations of the -graded general linear Lie ω-algebras

Abstract

There is considerable current interest in applications of generalised Lie algebras graded by an abelian group with a commutative factor ω. This calls for a systematic development of the theory of such algebraic structures. We treat the representation theory and invariant theory of the -graded general linear Lie ω-algebra gl(V(, ω)), where V(, ω) is any finite dimensional -graded vector space. Generalised Howe dualities over symmetric (, ω)-algebras are established, from which we derive the first and second fundamental theorems of invariant theory, and a generalised Schur-Weyl duality. The unitarisable gl(V(, ω))-modules for two ``compact'' -structures are classified, and it is shown that the tensor powers of V(, ω) and their duals are unitarisable for the two compact -structures respectively. A Hopf (, ω)-algebra is constructed, which gives rise to a group functor corresponding to the general linear group in the -graded setting. Using this Hopf (, ω)-algebra, we realise simple tensor modules and their dual modules by mimicking the classic Borel-Weil theorem. We also analyse in some detail the case with = ZV(, ω) and ω depending on a complex parameter q 0, where gl(V(, ω)) shares common features with the quantum general linear (super)group, but is better behaved especially when q is a root of unity.