Quantum Representation Theory and Manin matrices I: finite-dimensional case

Abstract

We construct Quantum Representation Theory which describes quantum analogue of representations in frame of "non-commutative linear geometry" developed by Manin. To do it we generalise the internal hom-functor to the case of adjunction with a parameter and construct a general approach to representations of a monoid in a symmetric monoidal category with a parameter subcategory. Quantum Representation Theory is obtained by application of this approach to a monoidal category of some class of graded algebras with Manin product, where the parameter subcategory consists of connected finitely generated quadratic algebras. We formulate this theory in the language of Manin matrices and obtain quantum analogues of direct sum and tensor product of representations. Finally, we give some examples of quantum representations.