Ideals of equations for elements in a free group and context-free languages

Abstract

Let F be a finitely generated free group, and let H F be a finitely generated subgroup. An equation for an element g∈ F with coefficients in H is an element w(x)∈ H* x such that w(g)=1 in F; the degree of the equation is the number of occurrences of x and x-1 in the cyclic reduction of w(x). Given an element g∈ F, we consider the ideal Ig⊂eq H* x of equations for g with coefficients in H; we study the structure of Ig using context-free languages. We describe a new algorithm that determines whether Ig is trivial or not; the algorithm runs in polynomial time. We also describe a polynomial-time algorithm that, given d∈N, decides whether or not the subset Ig,d⊂eqIg of all degree-d equations is empty. We provide a polynomial-time algorithm that computes the minimum degree d of a non-trivial equation in Ig. We provide a sharp upper bound on d. Finally, we study the growth of the number of (cyclically reduced) equations in Ig and in Ig,d as a function of their length. We prove that this growth is either polynomial or exponential, and we provide a polynomial-time algorithm that computes the type of growth (including the degree of the growth if it's polynomial).

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