Weak commutativity, virtually nilpotent groups, and Dehn functions

Abstract

The group X(G) is obtained from G G by forcing each element g in the first free factor to commute with the copy of g in the second free factor. We make significant additions to the list of properties that the functor X is known to preserve. We also investigate the geometry and complexity of the word problem for X(G). Subtle features of X are encoded in a normal abelian subgroup W<X(G) that is a module over Z Q, where Q= H1(G,Z). We establish a structural result for this module and illustrate its utility by proving that X preserves virtual nilpotence, the Engel condition, and growth type -- polynomial, exponential, or intermediate. We also use it to establish isoperimetric inequalities for X(G) when G lies in a class that includes Thompson's group F and all non-fibered K\"ahler groups. The word problem is solvable in X(G) if and only if it is solvable in G. The Dehn function of X(G) is bounded below by a cubic polynomial if G maps onto a non-abelian free group.