Ring coproducts embedded in power-series rings

Abstract

Let R be a ring (associative, with 1), and let R<< a,b>> denote the power-series R-ring in two non-commuting, R-centralizing variables, a and b. Let A be an R-subring of R<< a>> and B be an R-subring of R<< b>>, and let α denote the natural map A R B R<< a,b>>. This article describes some situations where α is injective and some where it is not. We prove that if A is a right Ore localization of R[a] and B is a right Ore localization of R[b], then α is injective. For example, the group ring over R of the free group on \1+a, 1+b\ is R[ (1+a) 1] R R[ (1+b) 1], which then embeds in R<< a,b>>. We thus recover a celebrated result of R H Fox, via a proof simpler than those previously known. We show that α is injective if R is -semihereditary, that is, every finitely generated, torsionless, right R-module is projective. The article concludes with some results contributed by G M Bergman that describe situations where α is not injective. He shows that if R is commutative and w.gl.dim\, R 2, then there exist examples where the map α' A R B R<< a>>R R<< b>> is not injective, and hence neither is α. It follows from a result of K R Goodearl that when R is a commutative, countable, non-self-injective, von Neumann regular ring, the map α" R<< a>>R R<< b>> R<< a,b>> is not injective. Bergman gives procedures for constructing other examples where α" is not injective.