We define the stability of a subgroup under a class of maps, and establish its basic properties. Loosely speaking, we will say that a normal subgroup, or more generally a normal series {A(n)} of a group A, is stable under a class of homomorphisms H if whenever f : A -> B lies in H, we have f(a) is an element of B(n) if and only if a is an element of A(n). This translates to saying that each element of H induces a monomorphism A/A(n) hooked right arrow B/B(n). This contrasts with the usual theories of localization, wherein one is concerned with situations where f induces an isomorphism. In the literature, the most commonly considered classes of maps are those that induce isomorphisms on (low-dimensional) group homology. The model theorem in this regard is the result of Stallings that each term of the lower central series is preserved under any Z-homological equivalence of groups. Various other theorems of this nature have since appeared, involving variations of the lower central series. Dwyer generalized Stallings's Z results to larger classes of maps, work that was completed in the other cases by the authors. More recently, the authors proved analogues of the theorems of Stallings and Dwyer for variations of the derived series. We interpret all of the theorems above in the framework of stability.

• 出版日期2010-5