Fractional skew monoid rings

Abstract

Given an action of a monoid T on a ring A by ring endomorphisms, and an Ore subset S of T, a general construction of a fractional skew monoid ring S op * A * T is given, extending the usual constructions of skew group rings and of skew semigroup rings. In case S is a subsemigroup of a group G such that G=S-1S, we obtain a G-graded ring S op * A * S with the property that, for each s∈ S, the s-component contains a left invertible element and the s-1-component contains a right invertible element. In the most basic case, where G is the additive group of integers and S=T is the submonoid of nonnegative integers, the construction is fully determined by a single ring endomorphism α of A. If α is an isomorphism onto a proper corner pAp, we obtain an analogue of the usual skew Laurent polynomial ring, denoted by A[t+,t-;α]. Examples of this construction are given, and it is proven that several classes of known algebras, including the Leavitt algebras of type (1,n), can be presented in the form A[t+,t-;α]. Finally, mild and reasonably natural conditions are obtained under which S op * A * S is a purely infinite simple ring.

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