F-Noetherian Rings and Skew Quantum Ring Extensions

Abstract

A ring R shall be called F-noetherian if every finite subset of R is contained in a (left and right) noetherian subring of R . For example, every commutative ring is tightly F-noetherian in the sense that every finite subset of R generates a noetherian subring of R . F-noetherian rings have many interesting linear algebra properties which we refer to as the full strong rank condition, fully stably finite, and more generally the basic condition. We also study some basic ring-theoretic properties of F-noetherian rings such as localizations of F-noetherian rings. The F-noetherian property is preserved under some skew quantum ring extensions including some iterated Ore extensions, some skew-Laurent extensions, and some quantum almost-normalizing extensions. For example, let R= S[ x1, ..., xn ] be a finitely generated ring over a subring S such that (1) for i < j, \[ xj xi -qji xi xj ∈ S [ x1, ..., xj-1] + Sxj \] for some units qji ∈ S, (2) for all i, Sxi +S= S+ xi S, and (3) each xi commutes with a subring A of S such that S is finitely generated as a ring over A . Then, if S is F-noetherian, so is R . We also discuss some skew quadratic extensions related to the quantum group Oq(G) where G is a connected complex semisimple algebraic group. Finally, we show many examples and some generalizations of some quantum groups like Oq(Mn(k)) over an F-noetherian ring k where each variable xij may not commute with the elements of k .